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Xxxxxxxx Xxxxxx 2000/32/ES

ze xxx 19. xxxxxx 2000,

xxxxxx xx xx xxxxxxx šesté xxxxxxxxxxxx xxxxxxxxxxx xxxxxxx xxxxxxxx Xxxx 67/548/EHS x xxxxxxxxxx právních x xxxxxxxxx xxxxxxxx xxxxxxxxxx xx xxxxxxxxxxx, xxxxxx x xxxxxxxxxx xxxxxxxxxxxx xxxxx [1]

(Text s xxxxxxxx xxx EHP)

KOMISE XXXXXXXXXX XXXXXXXXXXXX,

x ohledem xx Xxxxxxx x xxxxxxxx Xxxxxxxxxx společenství,

s xxxxxxx xx xxxxxxxx Xxxx 67/548/EHS xx xxx 27. xxxxxx 1967 x sbližování xxxxxxxx x xxxxxxxxx xxxxxxxx xxxxxxxxxx xx xxxxxxxxxxx, balení a xxxxxxxxxx nebezpečných xxxxx [2], xxxxxxxxx pozměněnou xxxxxxxx Xxxxxxxxxx xxxxxxxxxx x Xxxx 1999/33/XX [3], a xxxxxxx xx xxxxxx 28 xxxxxxx směrnice,

vzhledem k xxxxx xxxxxxx:

(1) Xxxxxxx X xxxxxxxx 67/548/EHS xxxxxxxx seznam nebezpečných xxxxx společně x xxxxxxxxxx údaji o xxxxxxxxxxx x označování xxxxx xxxxx. Současné xxxxxxx a technické xxxxxxxx ukazují, xx xx xxx xxx xxxxxx xxxxxxxxxxxx xxxxx x xxxxxxx příloze xxxxxxxxxxx. Xxxxxxx jazykové xxxxx xxxxxxxx vyžadují xxxxxx xxxxxxxx xxxxxx xxxxxxxxx a tabulky X v příloze X.

(2) Xxxxxxx III xxxxxxxx 67/548/XXX obsahuje xxxxxx xxx xxxxxxxxxxx xxxxxx zvláštních xxxxx xxxxxxxxx s nebezpečnými xxxxxxx x xxxxxxxxx. Xxxxxxx XX xxxxxxxx 67/548/XXX xxxxxxxx xxxxxx xxx x xxxxxxxxxxxxxx xxxxxx xxxxxxxxxx se xxxxxxxxxxxx xxxxx x xxxxxxxxx. Příloha XX xxxxxxxx 67/548/XXX xxxxxxxx xxxxx xx klasifikaci x k xxxxxxxxxx xxxxxxxxxxxx xxxxx a xxxxxxxxx. Xxxxxxx xxxxxxxx xxxxx xxxxxxxx xxxxxxxx xxxxxx xxxxxxxx oddílů xxxxxx III, XX x VI.

(3) X xxxxxxx V xxxxxxxx 67/548/XXX se stanoví xxxxxx xxx xxxxxxxxx xxxxxxxxx-xxxxxxxxxx xxxxxxxxxx, xxxxxxxx x xxxxxxxxxxx xxxxx x přípravků. Je xxxxxxxx xxxxxxxxxxx xxxx xxxxxxx xxxxxxxxxxx pokroku.

(4) Xxxxxxx XX xxxxxxxx 67/548/XXX xxxxxxxx xxxxxxxx xxxxxxxx xx xxxxxxx xxxxxxxx xxxxx xxxxxxxx xxxxx. Tyto předpisy xx xxxx být xxxxxxxxxxxx x xxxxxxxxxxxxx. Xx xxxxxxxx rozšířit xxxxxx, kde xx xxxxxxx xxxxxx xxxxx xxxxxxxx dětmi xxxxxxxxx.

(5) Xxxxxxxx této směrnice xxxx v xxxxxxx xx xxxxxxxxxxx Xxxxxx xxx xxxxxxxxxxxx technickému xxxxxxx xxxxxxx xxx xxxxxxxxxx xxxxxxxxxxx překážek xxxxxxx na xxxxx xxxxxxxxxxxx xxxxx x xxxxxxxxx,

XXXXXXX XXXX SMĚRNICI:

Xxxxxx 1

Směrnice 67/548/XXX xx xxxx xxxxx:

1. Xxxxxxx I xx xxxx xxxxx:

x) xxxxxxxxxxxx xxxxxxxx v xxxxxxxxx xx xxxxxxxxx xxxxxxxxx X x xxxxxxx 1X xxxx xxxxxxxx;

x) xxxxxxxxxxxx xxxxx x xxxxxxx X xx xxxxxxxxx řádky x xxxxxxx 1X této xxxxxxxx;

x) xxxxxxxxxxxx xxxxxxx xx xxxxxxxxx položkami x xxxxxxx 1C xxxx xxxxxxxx;

x) vkládají xx položky x xxxxxxx 1X xxxx xxxxxxxx.

2. Odpovídající věta x xxxxxxx XXX xx nahrazuje xxxxxxxxxx xxxxx xxxxxxxxxx xxxxxxxxxxx xxxxxxxxxx v xxxxxxx 2 xxxx směrnice.

3. Xxxxxxx IV xx xxxx xxxxx:

x) xxxxxxxxxxxx xxxxxx v xxxxxxx XX se xxxxxxxxx xxxxxxxxxxxx xxxxxx xxx xxxxxxxx xxxxxxxxx x xxxxxxx 3X xxxx xxxxxxxx;

x) xxxxxxxxxxxx xxxxxx x xxxxxxx XX xx nahrazují kombinovanými xxxxxxxxxxxx xxxxxx pro xxxxxxxx xxxxxxxxx x xxxxxxx 3B této xxxxxxxx.

4. Xxxx B xxxxxxx X xx xxxx xxxxx:

x) kapitola X.10 xx nahrazuje xxxxxx x xxxxxxx 4X této xxxxxxxx;

x) xxxxxxxx B.11 xx xxxxxxxxx textem v xxxxxxx 4X xxxx xxxxxxxx;

x) kapitola X.12 xx xxxxxxxxx xxxxxx x xxxxxxx 4C xxxx xxxxxxxx;

x) kapitoly X.13 a X.14 xx xxxxxxxxx xxxxxx x příloze 4D xxxx xxxxxxxx;

x) kapitola X.17 xx xxxxxxxxx xxxxxx x xxxxxxx 4X xxxx směrnice;

f) xxxxxxxx B.23 xx xxxxxxxxx xxxxxx v xxxxxxx 4X xxxx xxxxxxxx. Xxxxx xxxxxxxx X.23 xx vysvětlivce xx xxxx xxxxxxxxxxxxx xxxxxxxx;

x) xxxxxx xx xxxx x příloze 4X této xxxxxxxx.

5. Xxxxxxx xx čtvrtá xxxxxxx obecného xxxxx x části X xxxxxxx V.

6. Odpovídající xxxxx x xxxxxxx XX xx xxxxxxxxx xxxxx v xxxxxxx 5 této xxxxxxxx.

7. Xxxxxxx IX xx xxxx xxxxxxxx xxxxxxxx x xxxxxxx 6 xxxx xxxxxxxx.

Xxxxxx 2

1. Xxxxxxx xxxxx uvedou x xxxxxxxx xxxxxx x xxxxxxx předpisy xxxxxxxx xxx xxxxxxxx xxxxxxx x xxxxx směrnicí xxxxxxxxxx do 1. xxxxxx 2001. Neprodleně x xxxx uvědomí Xxxxxx.

Xxxx předpisy xxxxxxx xxxxxxxxx xxxxx musí xxxxxxxxx xxxxx xx xxxx xxxxxxxx xxxx xxxx takový odkaz xxx učiněn xxx xxxxxx xxxxxxx vyhlášení. Xxxxxx xxxxxx xx xxxxxxx členské xxxxx.

2. Xxxxxxx xxxxx sdělí Xxxxxx xxxxx xxxxxxxx xxxxxxxxxx xxxxxxxxxxxxxx právních xxxxxxxx, které xxxxxxx x xxxxxxx působnosti xxxx směrnice, a xxxxxxxxxx tabulku xxxx xxxxxxxx a xxxxxxxxx xxxxxxxxxxxxxx ustanoveními.

Xxxxxx 3

Xxxx xxxxxxxx xxxxxxxx v xxxxxxxx xxxxxx xxxx xx xxxxxxxxx x Úředním xxxxxxxx Evropských společenství.

Xxxxxx 4

Xxxx xxxxxxxx xx určena xxxxxxxx xxxxxx.

X Xxxxxxx xxx 19. května 2000.

Xx Xxxxxx

Xxxxxx Xxxxxxxöx

xxxxxx Xxxxxx

[1] Přijato xx xxxxxxxxxxxx xx dvacáté xxxxx.

[2] Xx. xxxx. 196, 16.8.1967, x. 1.

[3] Úř. věst. X 199, 30.7.1999, x. 57.

XXXXXXX 1X

XXXXXXXXX X XXXXXXX X

Xxxxxxxxxx poznámek xxxxxxxxxx se xxxxxxxxxxxx, xxxxxxxxxxx x xxxxxxxxxx xxxxx

(Xxxxxx xx xxxxxxx xxxxx)

XXXXXXX 1X

"XXXXXXX X

X

Xxxxxx

XX

XX

XX

XX

XX

XX

XX

XX

XX

XX

XX

18

Xx

Xxxxx

Xxxxx

Xxxxx

Αργό

Xxxxx

Xxxxx

Xxxxx

Xxxxx

Xxxxx

Xxxxx

Xxxxx

64

Xx

Xxxxxxxxx

Xxxxxxxxxx

Xxxxxxxxxx

Γαδολίνιο

Xxxxxxxxxx

Xxxxxxxxxx

Xxxxxxxxxx

Xxxxxxxxx

Xxxxxxxxxx

Xxxxxxxxx

Xxxxxxxxxx"

XXXXXXX 1C

Indexové číslo

Chemický xxxxx

Xxxxxxxx k xxxxxx

Xxxxx XX

Xxxxx XXX

Xxxxxxxxxxx

Xxxxxxxx

Xxxxxxxxxxxx xxxxxx

Xxxxxxxx x přípravkům

006–011–00–7

karbaryl (XXX) 1-xxxxxx-X-xxxxxxxxxxxxxx

200–555–0

63–25–2

Xxxx. kat. 3; X40 Xx; X22 X; R50

Xn; X X: 22–40–50 S: (2-)22–24–36/37–46–61

006–013–00–8

xxxxxx-xxxxxxx (XXX) xxxxxxx-X-xxxxxxxxxxxxxxxxxxxx

205–293–0

137–42–8

Xx; X22 X31 X; X34 X43 X; X50–53

X; X X: 22–31–34–43–50/53 X: (1/2-)26–36/37/39–45–60–61

006–015–00–9

diuron (XXX) 3-(3,4-xxxxxxxxxxxx)-1,1-xxxxxxxxxxxxxxxx

206–354–4

330–54–1

Xxxx. xxx. 3; X40 Xxxx. xxx. 3; X40 Xx; X22–48/22 X; X50–53

Xx; N X: 22–40–48/22–50/53 X: (2-)13–22–23–37–46–60–61

006–016–00–4

xxxxxxxx (XXX) 2- xxxxxxxxxxxxxxx-X-xxxxxxxxxxxxxx

204–043–8

114–26–1

X; X25 X; X50–53

X; X X: 25–50/53 X: (1/2-)37–45–60–61

006–017–00-X

xxxxxxxx (XXX) 2-xxxxxx-2-(xxxxxxxxxxxxxx)xxxxxxxx-X-(X-xxxxxxxxxxxxxxx)xxxx

204–123–2

116–06–3

X+; X26/28 X; X24 N; X50–53

X+; X X: 24–26/28–50/53 X: (1/2-)22–36/37–45–60–61

006–018–00–5

xxxxxxxxx (XXX) 4-(xxxxxxxxxxxxx)-3-xxxxxxxxxxx-X-xxxxxxxxxxxxxx

217–990–7

2032–59–9

X; X24/25 N; X50–53

X; X X: 24/25–50/53 X: (1/2-)28–36/37–45–60–61

006–019–00–0

xx-xxxxx (XXX) X-(2,3-xxxxxxxxxxxx)-X,X-xxxxxxxxxxxxxxxxxxxxxxx

218–961–1

2303–16–4

Xxxx. kat. 3; X40 Xx; X22 X; X50–53

Xx; X R: 22–40–50/53 X: (2-)25–36/37–60–61

006–020–00–6

barban (ISO) 4-xxxxxxxx-2-xx-1-xx-X -(3-chlorfenyl)karbamát

202–930–4

101–27–9

Xn; X22 X43 X; X50–53

Xx; X X: 22–43–50/53 X: (2-)24–36/37–60–61

006–023–00–2

xxxxxxxxxxxxxxxx (ISO) xxxxxxxxxx 3,5-xxxxxxxx-4-(xxxxxxxxxxxxxx)xxxxx-X -methylkarbamát

217–991–2

2032–65–7

T; X25 X; X50–53

X; X X: 25–50/53 X: (1/2-)22–37–45–60–61

006–024–00–8

xxxxxx-xxxxxxx (ISO) xxxxxxx-X-xxxxxxxxx-xxxxxxxxxxxxxx

205–443–5

140–93–2

Xx; X22 Xx; X38 X; X51–53

Xx; X R: 22–38–51/53 X: (2-)13-61

006–026–00–9

xxxxxxxxxx (XXX) 2,2-xxxxxxxx-2,3-xxxxxxx-1-xxxxxxxxxx-7-xx-X-xxxxxxxxxxxxxx

216–353–0

1563–66–2

X+; X26/28 N; X50–53

X+; N X: 26/28–50/53 X: (1/2-)36/37–45–60–61

006–028–00-X

xxxxxxxxx (XXX) 2-(1-xxxxxxxxxxxx)-4,6-xxxxxxxxxxxx-xxxxxxxxx-xxxxxxxx 2-xxx-xxxxx-4,6-xxxxxxxxxxxx-xxxxxxxxx-xxxxxxxx

213–546–1

973–21–7

X; X25 X; R50–53

T; X X: 25–50/53 X: (1/2-)37–45–60–61

006–029–00–5

xxxxxxxxx (ISO) 2-(1,3-xxxxxxxx-2-xx)xxxxx-X-xxxxxxxxxxxxxx

230–253–4

6988–21–2

X; R25 X; X51–53

X; X R: 25–51/53 X: (1/2-)37–45–61

006–033–00–7

metoxuron (XXX) 3-(3-chlor-4-methoxyfenyl)-1,1-dimethylmočovina

243–433–2

19937–59–8

N; X50–53

X X: 5 0/ 5 3 X: 60-61

006–034–00–2

xxxxxxx (XXX) X-xxxxxx-X-xxxxx-X-xxxxxxxxxxxxxxxxx

214–215–4

1114–71–2

Xx; X22 N; R51–53

Xn; X X: 22–51/53 X: (2-)23-61

006–035–00–8

xxxxxxxxxx (XXX) 2-(xxxxxxxxxxxxx)- 5,6-xxxxxxxx xxxxxxxxx-4-xx-X,X-xxxxxxxxxxxxxxxx

245–430–1

23103–98–2

X; X25 X; R50–53

T; X R: 25–50/53 X: (1/2)22–37–45–60–61

006–037–00–9

promekarb (XXX) 3-xxxxxxxxx-5-xxxxxxxxxxx-X-xxxxxxxxxxxxxx

220–113–0

2631–37–0

X; X25 N; X50–53

X; N X: 25–50/53 X: (1/2-)24–37–45–60–61

006–038–00–4

sulfallát (XXX) 2-xxxxxxxxxx-X,X-xxxxxxxxxxxxxxxxxxxxxx

X

202–388–9

95–06–7

Xxxx. xxx. 2; X45 Xn; X22 N; R50–53

T; X X: 45–22–50/53 X: 53–45–60–61

006–039–00-X

xxx-xxxxx (XXX) X-(2,3,3-xxxxxxxxxxxxx)-X,X-xxxxxxxxxxxxxxxxxxxxxxx

218–962–7

2303–17–5

Xx; R22–48/22 X43 X; X50–53

Xx; X X: 22–43–48/22–50/53 X: (2-)24–37–60–61

006–042–00–6

xxxxxxx (XXX) 3-(4-xxxxxxxxxx)-1,1-xxxxxxxxxxxxxxxx

205–766–1

150–68–5

Xxxx. xxx. 3; X40 Xx; R22 X; X50–53

Xx; X X: 22–40–50/53 X: (2-)36/37–60–61

006–043–00–1

xxxxxxx-XXX 3-(4-xxxxxxxxxx)-1,1-xxxxxxxxxxxxxxx-xxxxxxxxxxxxxx

140–41–0

Xx; R36/38 Karc. xxx. 3; X40 X; X50–53

Xx; X X: 36/38–40–50/53 X: (2-)36/37–60–61

006–045–00–2

xxxxxxxx (XXX) xxxxxx-X-[(X-xxxxxxxxxxxxxxx)xxx]xxxxxxxxxxxxxx

240–815–0

16752–77–5

X+; X28 N; R50–53

T+; X X: 28–50/53 X: (1/2-)22–36/37–45–60–61

006–046–00–8

xxxxxxxxxx (XXX) 2,2-xxxxxxxx-1,3-xxxxxxxxxxx-4-xx-X-xxxxxxxxxxxxxx

245–216–8

22781–23–3

X; R23/25 Xx; X21 X; R50–53

T; X X: 21–23/25–50/53 X: (1/2-)22–36/37–45–60–61

006–047–00–3

bufenkarb (XXX) xxxx: 3-(1-xxxxxxxxxxx)xxxxx-X-xxxxxxxxxxxxxxx a 3-(1-xxxxxxxxxxx)xxxxx-X-xxxxxxxxxxxxxxx

8065–36–9

X; X24/25 X; X50–53

X; N X: 24/25–50/53 S: (1/2-)28–36/37–45–60–61

006–048–00–9

xxxxxxxxxxxx (XXX) 2-[(xxxxxxxxxxxxx)xxxxxx]xxxxx-X-xxxxxxxxxxxxxx

249–981–9

29973–13–5

Xx; X22 X; X50–53

Xx; X X: 22–50/53 X: (2-)60-61

006–050–00–X

xxxxxxx-XXX 3-xxxxx-1,1-xxxxxxxxxxxxxxx-xxxxxxxxxxxxxx

4482–55–7

Xx; X38 X; R50–53

Xi; X X: 38–50/53 X: (2-)60-61

006–053–00–6

xxxxxxxxxx (ISO) 2-xxxxxxxxxxxxxx-X-xxxxxxxxxxxxxx

220–114–6

2631–40–5

Xx; X22 X; R50–53

Xn; X X: 22–50/53 X: (2-)60-61

006–054–00–1

mexakarbát (XXX) 4-(xxxxxxxxxxxxx)-3,5-xxxxxxxxxxxxx-X-xxxxxxxxxxxxxx

206–249–3

315–18–4

X+; X28 Xx; X21 X; X50–53

X+; X X: 21–28–50/53 X: (1/2-)36/37–45–60–61

006–057–00–8

nitrapyrin (ISO) 2-xxxxx-6-(xxxxxxxxxxxxxx)xxxxxxx

217–682–2

1929–82–4

Xx; X22 X; X51–53

Xx; X R: 22–51/53 X: (2-)24-61

006–060–00–4

oxykarboxin (XXX) 2-xxxxxx-4,4-xxxxx-5,6-xxxxxxx-4λ4-1,4-xxxxxxxx-3-xxxxxxxxxxxx

226–066–2

5259–88–1

Xx; X22 X52–53

Xx R:22–52/53 X: (2-)61

006–069–00–3

xxxxxxxxx-xxxxxx (ISO) 1,2-di[3-(methoxykarbonyl)thioureido]benzen

245–740–7

23564–05–8

Muta. xxx. 3; X40 X; X50–53

Xx; N X: 40–50/53 X: (2-)36/37–60–61

006–070–00–9

xxxxxxxxxxx N-cyklohexyl-N-methoxy-2,5-dimethyl-3-furamid

262–302–0

60568–05–0

Karc. xxx. 3; R40 X; X50–53

Xx; X R: 40–50/53 S: (2-)36/37–60–61

006–088–00–7

benfurakarb (XXX) ethyl-N -[({[(2,2-xxxxxxxx-2,3-xxxxxxx-1-xxxxxxxxxx-7-xx)xxx]xxxxxxxx}xxxxxxxxxxx)xxxxxxxx]-X-xxxxxxxxx-β-xxxxxxxx(2,2-xxxxxxxx-2,3-xxxxxxx-1-xxxxxxxxxx-7-xx)-X-({[2-(xxxxxxxxxxxxxx)xxxxx]xxxxxxxxxxxxxx}xxxxxxxx)-X-xxxxxxxxxxxxxx

82560–54–1

X; X23/25 X; X50–53

X; X X: 23/25–50/53 X: (1/2-)36/37–45–60–61

007–012–00–5

N,N-dimethylhydrazin 1,1-xxxxxxxxxxxxxxxx

X

200–316–0

57–14–7

X; X11 Karc. kat. 2; X45 T; X23/25 X; X34 X; X51–53

X; X; X X: 45–11–23/25–34–51/53 X: 53–45–61

007–013–00–0

N,N-dimethylhydrazin 1,2-xxxxxxxxxxxxxxxx

X

540–73–8

Xxxx. xxx. 2; X45 X; X23/24/25 N; X51–53

X; X R: 45–23/24/25–51/53 S: 53–45–61

C ≥ 25 %: X; X45–23/24/25 3 % &xx; X &xx; 25 %: X; R45–20/21/22 0,01 % &xx; X &xx; 3 %: X; R45

009–003–00–1

kyselina xxxxxxxxxxxxxx … %

X

231–634–8

7664–39–3

X+; X26/27/28 X; R35

T+; X X: 26/27/28–35 S: (1/2-)7/9–26–36/37–45

X ≥ 7 %: X+; C; X26/27/28–35 1 % ≤ X &xx; 7 %: X; X23/24/25–34 0,1 % ≤ X < 1 %: Xx; X20/21/22–36/37/38

015–039–00–9

xxxxxxx-xxxxxx (XXX) X,X-xxxxxxxx-X -[(4(3 X)-xxx-1,2,3-xxxxxxxxxxxx-3-xx)xxxxxx]-xxxxxxxxxxxxxxx

201–676–1

86–50–0

X+; R26/28 X; R24 X43 X; R50–53

T+; N X: 24–26/28–43–50/53 X: (1/2-)28–36/37–45–60–61

015–048–00–8

xxxxxxxx (XXX) X,X-xxxxxxxx-X-[3-xxxxxx-4-(xxxxxxxxxxxxxx)xxxxx]-xxxxxxxxxxxxx

200–231–9

55–38–9

Xxxx. xxx. 3; X40 X; X23–48/25 Xx; X21/22 N; X50–53

X; X R: 21/22–23–40–48/25–50/53 X: (1/2-)36/37–45–60–61

015–056–00–1

xxxxxxx-xxxxx (XXX) X,X-xxxxxxx-X-[(4(3 X)-xxx-1,2,3-xxxxxxxxxxxx-3-xx)xxxxxx]-xxxxxxxxxxxxxxx

220–147–6

2642–71–9

X+; X28 X; X24 N; X50–53

X+; X R: 24–28–50/53 X: (1/2-)28–36/37–45–60–61

015–140–00–8

xxxxxxxxx (XXX) X,X-xxxxxxx-X-(1-xxxxx-1 H- 1,2,4-xxxxxxx-3-xx)-xxxxxxxxxxxxx

245–986–5

24017–47–8

X; X23/25 Xx; X21 X; R50–53

T; X X: 21–23/25–50/53 X: (1/2-)36/37–45–60–61

016–013–00-X

xxxxxxx xxxxxxx

234–129–0

10545–99–0

X14 X; X34 X; X50

X; X X: 14–34–50 X: (1/2-)26–36/37/39–45–61

C ≥ 10 %: X; R34 5 % ≤ C &xx; 10 %: Xx; X36/37/38

016–014–00–5

xxxxxxx xxxxxxxx

13451–08–6

X14 X; X34 N; X50

X; X X: 14–34–50 X: (1/2-)26–36/37/39–45–61

C ≥ 10 %: X; X34 5 % ≤ X &xx; 10 %: Xx; X36/37/38

016–023–00–4

xxxxxxxx-xxxxxx

X

201–058–1

77–78–1

Xxxx. xxx. 2; X45 Muta. xxx. 3; R40 X+; X26 X; X25 C; X34 X43

X+ X: 45–25–26–34–43 X: 53-4 5

X ≥ 25 %: X+; X45–25–26–34–43 10 % ≤ X &xx; 25 %: X+; X45–22–26–34–43 7 % ≤ C &xx; 10 %: X+; R45–22–26–36/ 37/38–43 5 % ≤ X &xx; 7 %: X; X45–22–23–36/37/38–43 3 % ≤ X < 5 %: T; X45–22–23–43 1 % ≤ X &xx; 3 %: T; X45–23–43 0,1 % ≤ X &xx; 1 %: X; X45–20 0,01 % ≤ X < 0,1 %:X; X45

016–024–00-X

xxxxxxxx (XXX) xxx(xxxxxxxxxxxxxxxxxxx)xxxxxxxx

X,X′-xxxxxxxx-xxxxxxxxxxx(xxxxxxxxxxx)215–993–8

1468–37–7

Xx; X22 N; X50–53

Xx; N R: 22–50/53 X: (2-)60-61

016–071–00–6

3-xxxxx-6,13-xxxxxxx-10-[(3-{[4-xxxxx-6-(2-xxxxxxxxxxxxxxxx)- 1,3,5-xxxxxxx-2-xx]xxxxx}xxxxxx)xxxxx][1,4]xxxxxxxxxxx[2,3-x]xxxxxxxxx-4,11-xxxxxxxxxx xxxxxxxx

410–130–3

136248–03–8

X43

Xx R: 43 S: (2-)22–24–37

022–001–00–5

chlorid xxxxxxxxxx

231–441–9

7550–45–0

X14 C; X34

X X: 14-34 S: (1/2-)7/8–26–36/37/39–45

X ≥ 10 %: X; X34 5 % ≤ X &xx; 10 %: Xi; X36/37/38

030–004–00–8

xxxxxxxxxxxxx [1] diethylzinek [2]

208–884–1 [1] 209–161–3 [2]

544–97–8 [1] 557–20–0 [2]

X14 X; R17 C; X34 X; X50–53

X; X; X X: 14–17–34–50/53 X: (1/2-)16–43–45–60–61

050–002–00–0

xxxxxxxxx (XXX) xxxxxxxxxxxxx(xxxxxxx)xxxxxxx xxxxxxxxxxxxxxxxxxxxx-xxxxxxxx

236–049–1

13121–70–5

Xx; X20/21/22 X; X50–53

Xx; X X: 20/21/22–50/53 X: (2-)13–60–61

050–012–00–5

xxxxxxxxxxxxxxxxxxxxxx [1] xxxxx(xxxxxxxxxxxxx)xxxxxxx [2] xxxxx(xxxxxxxxxxxxx)xxxxxxx [3]

215–910–5 [1] 221–437–5 [2] 230–358–5 [3]

1449–55–4 [1] 3091–32–5 [2] 7067–44–9 [3]

Xx; X20/21/22 X; R50–53

Xn; X X: 20/21/22–50/53 X: (2-)26–28–60–61

X ≥ 1 %: Xn; X20/21/22

1

050–017–00–2

xxxxxxxxxxxxxx (XXX) 1,1,1,3,3,3-xxxxxxx(2-xxxxx-2-xxxxxxxxxxxx)xxxxxxxxxxx

236–407–7

13356–08–6

X+; R26 Xx; X36/38 X; X50/53

X+; N X: 26–36/38–50/53 S: (1/2-)28–36/37–45–60–61

082–009–00–X

xxxx (xxxxxxxxxxxx xxxxxxxx) XX Xxxxxxx Xxxxxx 34 (XX 77603) XX xxxxxxxxxx žluť 34 (XX 77603)

215–693–7

1344–37–2

Xxxx. xxx. 3; X40 Xxxx. xxx. 1; R61 Xxxx. xxx. 3; X62 X33 X; X50–53

X; X X: 61–33–40–50/53–62 S: 53–45–60–61

1

082–010–00–5

červeň (xxxxxxx-xxxxxxxxxx-xxxxx xxxxxxxx) XX Xxxxxxx Xxx 104 (XX 77605) XX xxxxxxxxxx xxxxxx 104 (XX 77605)

235–759–9

12656–85–8

Xxxx. xxx. 3; X40 Xxxx. xxx. 1; R61 Xxxx. xxx. 3; X62 X33 N; X50–53

X; X X: 61–33–40–50/53–62 X: 53–45–60–61

1

601–024–00-X

kumen [1] propylbenzen [2]

202–704–5 [1] 203–132–9 [2]

98–82–8 [1] 103–65–1 [2]

X10 Xx; R65 Xx; X37 N; X51–53

Xx; X R: 10–37–51/53–65 X: (2-)24–37–61–62

4

601–032–00–3

benzo[a]pyren xxxxx[xxx]xxxxxxx

200–028–5

50–32–8

Xxxx. xxx.2; X45 Muta. xxx. 2; X46 Xxxx. kat. 2; X60–61 X; R50–53

T; X R: 45–46–60–61–50/53 X: 53–45–60–61

601–034–00–4

xxxxx[x]xxxxxxxxxxxxxxx

205–911–9

205–99–2

Xxxx. kat.2; X45 N; X50–53

X; X R: 45–50/53 X: 53–45–60–61

602–035–00–2

1,4-xxxxxxxxxxxxx x-xxxxxxxxxxxxx

203–400–5

106–46–7

Xx; X36 X; X50–53

Xx; X X: 36–50/53 X: (2-)24/25–46–60–61

602–054–00–6

3-xxxxxxx-1-xx allyljodid

209–130–4

556–56–9

R10 X; X34

X R: 10-34 X: (1/2-)7–26–45

603–076–00–9

xxx-2-xx-1,4-xxxx

203–788–6

110–65–6

X; X23/25 Xx; R21–48/22 X; X34

X X: 21–23/25–34–48/22 X: (1/2-)26–36/37/39–45

C ≥ 50 %: X; R21–23/25–34–48/22 25 % ≤ X &xx; 50 %: X; X21–23/25–36/38–48/22 10 % ≤ C &xx; 25 %: Xx; R20/22–48/22 3 % ≤ X &xx; 10 %: Xx; X20/22

603–091–00–0

xxx-4-xxxxxxxxx-1-xxxxxx-7-xxxxxxxxxx[2.2.1]xxxxxx-2-xx

402–470–6

87172–89–2

X; X8 Xx; X22 Xx; X36

X; Xx R: 8–22–36 X: (2-)26

603–093–00–1

xxx-(±)-4-xxxxxxxxx-1-xxxxxx-2-[(2-xxxxxxxxxxxx)xxx]-7-xxxxxxxxxx[2.2.1]xxxxxx

402–410–9

87818–31–3

Xx; X20 N; X51–53

Xx; X X: 20–51/53 X: (2-)23-61

603–097–00–3

1,1', 1′′-nitrilotripropan-2-ol xxxxxxxxxxxxxxxxxx

204–528–4

122–20–3

Xx; R36 X52–53

Xx X:36–52/53 X: (2-)26-61

603–117–00–0

xxxxxx-2-xx xxxxxxxxxxxxxxxx xxxxxxxxxxx

200–661–7

67–63–0

X; X11 Xx; R36 R67

F; Xx X: 11–36–67 X: (2-)7–16–24/25–26

604–020–00–6

xxxxxxx-2-xx 2-xxxxxxxxxxxxxx 2-xxxxxxxxxx (XXX)

201–993–5

90–43–7

Xx; X36/37/38 X; R50

Xi; X X: 36/37/38–50 S: (2-)22-61

604–021–00–1

2-xxxxxxxxxx, xxxxx xxx xxxxxxx-2-xxxxxxxxxxxx 2-xxxxxxxxx sodný xxxxxxx-xxxxxxx-2-xxxx

205–055–6

132–27–4

Xx; X22 Xx; X37/38–41 N; X50

Xx; X X: 37/38–41–50 X: (2-)22–26–61

604–024–00–8

4,4'-(4-methylpentan-2,2-diyl)difenol 2,2-xxx(4-xxxxxxxxxxxx)-4-xxxxxxxxxxxx

401–720–1

6807–17–6

Xxxx. xxx. 2; X60 Xx; X36 X; X50–53

X; X X: 60–36–50/53 X: 53–45–60–61

604–041–00–0

acifluorfen [1] acifluorfen-natrium [2] 5-[2-xxxxx-4-(xxxxxxxxxxxxxx)xxxxxx]-2-xxxxxxxxxxxxx kyselina [1] xxxxxxx-5-[2-xxxxx-4-(xxxxxxxxxxxxxx)xxxxxx]-2-xxxxxxxxxxxx [2]

256–634–5 [1] 263–560–7 [2]

50594–66–6 [1] 62476–59–9 [2]

Xx; X22 Xx; X38–41 X; X50–53

Xx; N R: 22–38–41–50/53 X: (2-)24–39–60–61

604–043–00–1

monobenzonbenzyl (4-xxxxxxxxxxxx)xxxxx hydrochinonmonobenzylether 4-(xxxxxxxxx)xxxxx

203–083–3

103–16–2

Xx; X36 R43

Xi X: 36-43 X: (2-)24/25–26–37

604–044–00–7

xxxxxxxx 4-xxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxx

205–769–8

150–76–5

Xx; X22 Xx; X36 X43

Xx X: 22–36–43 S: (2-)24/25–26–37/39–46

605–016–00–7

xxxxxxx… % ethandial… %

X

203–474–9

107–22–2

Xxxx. xxx. 3; X40 Xx; R20 Xx; X36/38 X43

Xx X: 20–36/38–40–43 X: (2-)36/37

X ≥ 10 %: Xx; R20–36/38–40–43 1 % ≤ X < 10 %: Xx; R40–43

606–016–00-X

pindon (XXX) 2-(xxxxxxxxxxxxxxx)xxxxx-1,3-xxxx

201–462–8

83–26–1

X; X25–48/25 X; R50–53

T; X X: 25–48/25–50/53 X: (1/2-)37–45–60–61

606–018–00–0

xxxxxxx (XXX) 2,3-xxxxxxx-1,4-xxxxxxxxxxx

204–210–5

117–80–6

Xx; X22 Xx; R36/38 X; X50–53

Xx; X X: 22–36/38–50/53 X: (2-)26–60–61

606–019–00–6

xxxxxxxxxx (XXX) xxxxxxxxxxxxxxxxxx[5.3.0.02,6.03,9.04,8]xxxxx-5-xx xxxxxxxxxxxxxxxxxxx[5.2.1.02,6.03,9.05,8]xxxxx-4-xx 1,2,4,5,6,7,8,8,9,10-xxxxxxxxxxxxxxxxxxx[5.3.0.02,6.04,10.05,9]xxxxx-3-xx

205–601–3

143–50–0

Xxxx. xxx. 3; X40 X; X24/25 N; R50–53

T; X R: 24/25–40–50/53 X: (1/2-)22–36/37–45–60–61

606–034–00–8

xxxxxxxxxx (ISO) 4-xxxxx-6-xxxx-xxxxx-3-(xxxxxxxxxxxxxx)-1,2,4-xxxxxxx-5(4 X)-xx 4-xxxxx-6-xxxx-xxxxx-3-(xxxxxxxxxxxxxx)-4,5-xxxxxxx-1,2,4-xxxxxxx-5-xx

244–209–7

21087–64–9

Xx; X22 N; X50–53

Xx; X R: 22–50/53 X: (2-)60-61

606–035–00–3

xxxxxxxxxxx (XXX) 5-xxxxx-4-xxxxx-2-xxxxxxxxxxxxxx-3(2X)-xx xxxxxxx

216–920–2

1698–60–8

X43 N; X50–53

Xx; X R: 43–50/53 X: (2-)24–37–60–61

606–036–00–9

xxxxxxxxxxxxxx (XXX) 6-methyl-2 X-[1,3]xxxxxxxx[4,5-x]xxxxxxxxxx-2-xx

219–455–3

2439–01–2

Xxxx. xxx. 3; X62 Xx; X20/21/22–48/22 Xx; X36 R43 X; X50–53

Xx; N X: 20/21/22–36–43–48/22–50/53–62 X: (2-)24–37–60–61

606–037–00–4

xxxxxxxxxxx (XXX) 1-(4-xxxxxxxxxxx)- 3,3-xxxxxxxx-1-(1,2,4-xxxxxxx-1-xx)xxxxx-2-xx

256–103–8

43121–43–3

Xx; X22 N; X51–53

Xx; X R: 22–51/53 X: (2-)61

606–044–00–2

2,4,6-xxxxxxxxxxxxxxxxxxx xxxxx(2,4,6-xxxxxxxxxxxxxx)xxxxxxxx

403–150–9

954–16–5

Xx; X22 Xx; R36 X; X50–53

Xx; X X: 22–36–50/53 X: (2-)26–60–61

607–043–00-X

xxxxxxx (ISO) 3,6-xxxxxxx-2-xxxxxxxxxxxxxxx xxxxxxxx

217–635–6

1918–00–9

Xx; X22 Xx; X41 X52–53

Xx; N X: 22–41–52/53 X: (2-)26-61

607–057–00–6

xxxxxxxxx (ISO) 3-[1-(4-xxxxxxxxxx)-3-xxxxxxxx]-4-xxxxxxxxxxxxxx3-[1-(4-xxxxxxxxxx)-3-xxxxxxxx]-4-xxxxxxx-2 X-xxxxxxx-2-xx

201–378–1

81–82–3

Xx; X48/22 R52–53

Xn X:48/22–52/53 X: (2-)37-61

607–058–00–1

xxxxxxxxx (XXX) xxxxxxx (RS)-3-[1-(2-furyl)-3-oxobutyl)]-4-hydroxykumarin (XX)-3-[1-(2-xxxxx)-3-xxxxxxxx)]-4-xxxxxxx-2 X -xxxxxxx-2-xx 3-[1-(2-xxxxx)-3-xxxxxxxx]-4-xxxxxxxxxxxxxx 3-[1-(2-furyl)-3-oxobutyl]-4-hydroxy-2 X -xxxxxxx-2-xx

204–195–5

117–52–2

X; R25–48/25 X52–53

X X:25–48/25–52/53 X: (1/2-)37–45–61

607–079–00–6

xxxxxxx (XXX) ethyl-4-oxo-5-(perchlor-5-hydroxypentacyklo[5.3.0.02,6.03,9.04,8]dekan-5-yl)pentanoát ethyl-5-(1,2,3,5,6,7,8,9,10,10-dekachlor-4-hydroxypentacyklo[5.2.1.02,6.03,9.05,8]dekan-4-yl)-4-oxopentanoát xxxxx-5-(1,2,4,5,6,7,8,8,9,10-xxxxxxxxx-3-xxxxxxxxxxxxxxxxx[5.3.0.02,6.04,10.05,9]xxxxx-3-xx)-4-xxxxxxxxxxxx

4234–79–1

X; X24 Xx; X22 X; X51–53

X; X R: 22–24–51/53 X: (1/2-)36/37–45–61

607–097–00–4

xxxxxx-1,2,4-xxxxxxxxx-1,2-xxxxxxxx 1,2-anhydrid xxxxxx-1,2,4-xxxxxxxxxxxxxx xxxxxxxx trimellitanhydrid

209–008–0

552–30–7

Xi; X37–41 X42/43

Xx X: 37–41–42/43 X: (2-)22–26–36/37/39

607–143–00–3

xxxxxxxxx xxxxxxxx xxxxxxxx kyselina

203–677–2

109–52–4

C; X34 R52–53

C X:34–52/53 X: (1/2-)26–36–45–61

607–152–00–2

2,3,6-XXX (ISO) 2,3,6-xxxxxxxxxxxxxxxx xxxxxxxx

200–026–4

50–31–7

Xx; X22 X; R51–53

Xn; N X: 22–51/53 S: (2-)61

607–153–00–8

xxxxxxxxx (ISO) (4-chlor-2-oxo-2,3-dihydro-1,3-benzothiazol-3-yl)octová xxxxxxxx

223–297–0

3813–05–6

Xx; X36/38 R52–53

Xi X:36/38–52/53 S: (2-)22-61

607–156–00–4

chlorfenson (XXX) 4-xxxxxxxxxx-4-xxxxxxxxxxx-1-xxxxxxxx

201–270–4

80–33–1

Xx; X22 Xx; X38 X; X50–53

Xx; X X: 22–38–50/53 X: (2-)37–60–61

607–158–00–5

xxxxx xxx xxxxxxxxxxx xxxxxxxx xxxxxxxxxx xxxxx

223–498–3

3926–62–3

X; R25 Xx; R38 X; X50

X; X R: 25–38–50 X: (1/2-)22–37–45–61

607–159–00–0

xxxxxxxxxxxxxx (XXX) xxxxx-2,2-xxx(4-xxxxxxxxxx)-2-xxxxxxxxxxxxx xxxxx-4,4'-xxxxxxxxxxxxxxx

208–110–2

510–15–6

Xx; X22 X; X50–53

Xx; X X: 22–50/53 X: (2-)60-61

607–176–00–3

Xxxx: α-{3-[3-(2 X-xxxxxxxxxxxx-2-xx)-5-xxxx-xxxxx-4-xxxxxxxxxxxx]xxxxxxxxx}-ω-xxxxxxxxxxx(xxxxxxxxxx);α-{3-[3-(2 X-xxxxxxxxxxxx-2-xx)-5-xxxx-xxxxx-4-xxxxxxxxxxxx]xxxxxxxxx}-ω-({3-[3-(2 H-benzotriazol-2-yl)-5-terc-butyl-4-hydroxyfenyl]propionyl}oxy)poly(oxyethylen)

400–830–7

R43 X; X51–53

Xx; N X: 43–51/53 X: (2-)36/37–61

607–188–00–9

xxxxxxx-xxxxxxxx-X-(2-xxxxxxxxxxxx)-X-(xxxxxxx-9-xx-1-xx)xxxxxxxxxx

402–970–4

X43 N; X51–53

Xx; X R: 43–51/53 X: (2-)24/37–61

607–209–00–1

Xxxx: O,O′-diisopropyl-trisulfanbis(karbothioát); X,X′-xxxxxxxxxxx-xxxxxxxxxxxxxx(xxxxxxxxxxx); O,O′-diisopropyl-pentasulfanbis(karbothioát)

403–030–6

Xn; X22 X43 X; R50–53

Xn; X R: 22–43–50/ 53 X: (2-)36/37–60–61

607–213–00–3

ethyl-3,3-bis(terc-pentylperoxy)butanoát

403–320–2

67567–23–1

E; X2 X; X7 X10 X; R51–53

E; X X: 2–7–10–51/53 X: (2-)3/7–14–33–36/37/39–61

607–217–00–5

2-ethoxyethyl-[4-(7-fenyl-2,6-dioxo-2,6-dihydro-1,5-dioxa-s-indacen-3-yl)fenoxy]acetát

403–960–2

R43 X53

Xx X: 43-53 X: (2-)24–37–61

607–243–00–7

xxxxxxx-3,6-xxxxxxx-2-xxxxxxxxxxxxxx [1] xxxxxxx-3,6-xxxxxxx-x-xxxxxx [1] xxx(2-xxxxxxxxxxxx)xxxxxxx-3,6-xxxxxxx-2-xxxxxxxxxxxxxx [2] xxx(2-xxxxxxxxxxxx)xxxxxxx-3,6-xxxxxxxxxxxxx [2] (2-hydroxyethyl)amonium-3,6-dichlor-2-methoxybenzoát [3] (2-hydroxyethyl)amonium-3,6-dichloranisát [3]

217–846–3 [1] 246–590–5 [2] 258–527–9 [3]

1982–69–0 [1] 25059–78–3 [2] 53404–28–7 [3]

X52–53

X: 52/53 S: 61

607–248–00–4

Xxxxxxxx-xxxxxxx Xxxxxxx-X-(1-xxxxxx)xxxxxxxx

205–073–4

132–67–2

Xx; R22

Xn X: 22 X: (2)

607–249–00-X

(xxxxxxxxxxxxx)xxx[xxx(xxxxxxxxxxxxx)]-xxxxxxxxx tripropylenglykol-diakrylát XXXXX

256–032–2

42978–66–5

Xx; X36/37/38 X43 N; X51–53

Xx; N X:36/37/38–43–51/53 X: (2-)24–37–61

X ≥ 10 %: Xx; X36/37/38–43 1 % ≤ C &xx; 10 %: Xi; X43

607–252–00–6

λ-xxxxxxxxxxx (XXX) Xxxx (1:1): (X)-[(3-xxxxxxxxxxx)xxxxxxxxxx]-(1 X)-xxx-3-((X)-2-xxxxx-3,3,3-xxxxxxxxxxxx-1-xx-1-xx)-2,2-xxxxxxxxxxxxxxxxxxx-1-xxxxxxxxxx x(X)-[(3-xxxxxxxxxxx)xxxxxxxxxx]-(1 S)-cis-3-((Z)-2-chlor-3,3,3-trifluorprop-1-en-1-yl)-2,2-dimethylcyklopropan-1-karboxylát

415–130–7

91465–08–6

T+; X26 X; X25 Xx; X21 X; X50–53

X+; X X: 21–25–26–50/53 X: (1/2-)28–36/37/39–38–45–60–61

607–255–00–2

xxxxxxxxxx (XXX) [(4-xxxxx-3,5-xxxxxxx-6-xxxxx-2-xxxxxxx)xxx]xxxxxx xxxxxxxx

69377–81–7

X52–53

X: 52/53 X: 61

608–003–00–4

xxxxxxxxxxxx

X E

203–466–5

107–13–1

F; Xxx Karc. kat. 2; X45 X; X23/24/25 Xx; X37/38–41 X43 N; X51–53

X; X; X X: 45–11–23-/24/25–37/38–41–43–51/53 X: 9–16–53–45–61

X ≥ 20 %: X; X45–23/24/25–37/38–41–43 10 % ≤ X &xx; 20 %: X; X45–23/24/25–41–43 5 % ≤ X &xx; 10 %: X; X45–23/24/25–36–43 1 % ≤ X &xx; 5 %:X; X45–23/24/25–43 0,2 % ≤ C &xx; 1 %:T; X45–20/21/22 0,1 % ≤ X < 0,2 %: T; X45

43

608–016–00–5

2,3,5,6-xxxxxxxxxx-1,4-xxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxx

401–550–8

1897–41–2

X43 N; X50–53

Xx; X X: 43–50/53 X: (2-)24–37–60–61

609–030–00–4

dinoterb (XXX) 2-xxxx-xxxxx-4,6-xxxxxxxxxxxx

X

215–813–8

1420–07–1

Xxxx. kat. 2; X61 X+; X28 X; X24 X44 X; R50–53

T+; N X: 61–24–28–44–50/53 X: 53–45–60–61

609–040–00–9

xxxxxxxx (XXX) (2,4-xxxxxxxxxxxx)(4-xxxxxxxxxx)xxxxx

X

217–406–0

1836–75–5

Xxxx. xxx. 2; X45 Xxxx. xxx. 2; X61 Xn; R22 X; X50–53

X; N X: 45–61–22–50/53 X: 53–45–60–61

609–044–00–0

xxxxxxxx (ISO) 1,2,4,5-tetrachlor-3-nitrobenzen

204–178–2

117–18–0

Xn; X22 X43 X; X50–53

Xx; X X: 22–43–50/53 S: (2-)24–37–60–61

611–008–00–4

4-aminoazobenzen 4-(xxxxxxxx)xxxxxx

200–453–6

60–09–3

Xxxx. xxx. 2; X45 X; X50–53

X; X X: 45–50/53 X: 53–45–60–61

611–013–00–1

4-xxxxxxx-3-{4-[2-xxxxxxx-4-(3-xxxxxxxxxxxxxxxxx)xxxxxxxx]-3-xxxxxxxxxxxxxx}-6-(3-xxxxxxxxxxxxxxxx)xxxxxxxx-2-xxxxxxxx trilithný

403–650–7

117409–78–6

E; X2 N; X51–53

X; X X: 2–51/53 X: (2-)35-61

611–031–00-X

4,4'-[(4-xxxxxxxxxxxxxx-2,5-xxxx-1-xxxxxx)xxxxxxxx]xxxxxxxx-xxxxxxxxxxxx XX Xxxxx Xxx 9 XX xxxxxxx xxxxxx 9

209–321–2

569–61–9

Xxxx. kat. 2; X45

X X: 45 X: 53-45

612–035–00–4

2-methoxyanilin o-anisidin

E

201–963–1

90–04–0

Karc. xxx. 2; X45 Xxxx. kat. 3; X40 X; R23/24/25

T X: 45–23/24/25 X: 53-45

612–042–00–2

xxxxxxxx bifenyl-4,4'-diamin 4,4'-xxxxxxxxxxxxxx xxxxxxx-4,4'-xxxxxxxxxx

X

202–199–1

92–87–5

Xxxx. kat. 1; X45 Xx; X22 X; X50–53

X; X X: 45–22–50/53 X: 53–45–60–61

X ≥ 25 %: X; X45–22 0,01 % ≤ X < 25 %: T; X45

612–051–00–1

4,4'-xxxxxxxxxxxxxxxxxxxx xxx(4-xxxxxxxxxx)xxxxxx 4,4'-xxxxxxxxxxxxxxxx

X

202–974–4

101–77–9

Xxxx. xxx. 2; R45 Xxxx. xxx. 3; R40 X; X39/23/24/25Xx; X48/20/21/22 X43 X; X51–53

X; X R: 45–39/23/24/25–43–48/20/21/22–51/53 X:53–45–61

612–081–00–5

3,3'-xxxxxxxxxxxxxxxx, xxxx x-xxxxxxx, xxxx

X X

210–322–5 265–294–7 277–985–0

612–82–8 64969–36–4 74753–18–7

Xxxx. xxx. 2; R45 Xx; X22 X; X51–53

X; N X: 45–22–51/53 X: 53–45–61

612–099–00–3

4-xxxxxx-x-xxxxxxxxxxxxx4-xxxxxx-1,3-xxxxxxxxxxxxx4-xxxxxxxxxxxx-1,3-xxxxxx 2,4-xxxxxxxxxxxx

X

202–453–1

95–80–7

Xxxx. kat. 2; X45 X; X25 Xx; X21 Xx; X36 X43 N; X51–53

X; X X: 45–21–25–36–43–51/53 X: 53–45–61

612–105–00–4

2-(xxxxxxxxx-1-xx)xxxxxxxxx2-(xxxxxxxxx-1-xx)xxxxx-1-xxxx

205–411–0

140–31–8

Xx; X21/22 C; X34 X43 R52–53

C R: 21/22–34–43–52/53 X: (1/2-)26–36/37/39–45–61

612–111–00–7

2-methyl-m-fenylendiamin2-methyl-1,3-fenylendiamin2-methylbenzen-1,3-diamin 2,6-xxxxxxxxxxxx

212–513–9

823–40–5

Xxxx. xxx. 3; X40 Xn; X21/22 X43 X; X51–53

Xx; X R: 21/22–40–43–51/53 X: (2-)24–36/37–61

612–125–00–3

2-methyl-p-fenylendiamin2-methyl-1,4-fenylendiamin2-methylbenzen-1,4-diamin 2,5-toluendiamin

202–442–1

95–70–5

T; X25 Xx; R20/21 X43 X; X51–53

X; X R: 20/21–25–43–51/53 X: (1/2-)24–37–45–61

612–144–00–7

xxxxxxxxxxx (ISO) X-(2-xxxxx-6-xxxxxxxxxxx)-X-xxxxx-2,6-xxxxxxx-4-(xxxxxxxxxxxxxx)xxxxxx

62924–70–3

Xx; R36/38 X4 3 X; X50–53

Xx; X X: 36/38–43–50/53 X: (2-)36/37–60–61

612–151–00–5

diaminotoluen toluendiamin xxxxxxxxxxxxxxxxxxx methylbenzendiamin

E

246–910–3

25376–45–8

Karc. kat. 2; X45 X; X25 Xx; X20/21 Xx; R36 R43 X; X51–53

X; X X: 45–20/21–25–36–43–51/53 S: 53–45–61

613–018–00–4

xxxxxxxxxx (ISO) 1,1'-bis[(3,5-dimethylmorfolin-4-karbonyl)methyl]-4,4'-bipyridin-1,1'-diium

7411–47–4

Xn; X22 Xx; R36/37/38 X52–53

Xx R: 22–36/37/38–52/53 X: (2-)22–36–61

613–031–00–5

symklosen xxxxxxxxxxxxxxxxxxxx xxxxxxxx trichlor-1,3,5-triazintrion 1,3,5-xxxxxxxx-1,3,5-xxxxxxx-2(1X), 4(3X), 6(5H)-trion

201–782–8

87–90–1

O; R8 Xx; X22 R31 Xx; X36/37 N; X50–53

X; Xx; X X: 8–22–31–36/37–50/53 S: (2-)8–26–41–60–61

613–038–00–3

6-xxxxx-1,3,5-xxxxxxx-2,4-xxxxxxxxxx 6-fenyl-1,3,5-triazin-2,4-diamin xxxxxxxxxxxxx

202–095–6

91–76–9

Xx; X22 X52–53

Xx R:22–52/53 X: (2-)61

613–042–00–5

imazalil (ISO) 1-[2-(xxxxxxxx)-2-(2,4-xxxxxxxxxxxx)xxxxx]- 1 H-imidazol

252–615–0

35554–44–0

Xn; X20/22 N; R41 X; X50–53

Xx; X X: 20/22–41–50/53 X: (2-)26–39–60–61

613–043–00–0

xxxxxxxx-xxxxxx (XXX) 1-[2-(xxxxxxxx)-2-(2,4-xxxxxxxxxxxx)xxxxx]- 1X -xxxxxxxx-1-xxx-xxxxxxxxxxxxxx [1] (±)-1-[2-(xxxxxxxx)-2-(2,4-xxxxxxxxxxxx)xxxxx]-1X-xxxxxxxx-1-xxx-xxxxxxxxxxxxxx

261–351–5 [1] 281–291–3 [2]

58594–72–2 [1] 83918–57–4 [2]

Xx; R20/22 Xx; X41 N; R50–53

Xn; X X: 20/22–41–50/53 X: (2-)26–39–60–61

613–066–00–6

terbumeton (XXX) 2-(xxxx-xxxxxxxxxx)-4-(xxxxxxxxxx)-6-xxxxxxx-1,3,5-xxxxxxx

251–637–8

33693–04–8

Xx; X22 X; X50–53

Xx; N X: 22–50/53 X: (2-)60-61

613–091–00–2

xxxxxxxxxx-xxxxxxxxx [1] xxxxxxxxxx-xxxxxx [2] 1,1'-xxx[(3,5-xxxxxxxxxxxxxxxx-4-xxxxxxxx)xxxxxx]-4,4'-xxxxxxxxx-1,1'-xxxxx-xxxxxxxxx [1] 1,1'-bis[(3,5-dimethylmorfolin-4-karbonyl)methyl]-4,4'-bipyridin-1,1'-dium-disulfát [2]

225–062–8 [1]

4636–83–3 [1] 29873–36–7 [2]

Xn; X22 Xx; X36/37/38 X52–53

Xx; X: 22–36/37/38–52/53 X: (2-)22–36–61

613–098–00–0

1-xxxxxxxxxxxxxxx-2-xx 1-xxxxx-2-xxxxxxxxxx

403–700–8

2687–94–7

X; X34 X; X51–53

X; X X: 34–51/53 S: (1/2-)23–26–36/37/39–45–61

613–130–00–3

xxxxxxxxxxx (ISO) (XX)-2-(2,4-xxxxxxxxxxxx)-1-(1X-1,2,4-xxxxxxx-1-xx)xxxxx-2-xx

79983–71–4

X43 X; X51–53

Xx; X X: 43–51/53 X: (2-)24–37–61

613–131–00–9

xxxxxxxxxx (ISO) 1,2,5,6-xxxxxxxxxx-4 X-xxxxxxx[3,2,1-xx]xxxxxxxx-4-xx

57369–32–1

Xx; X22 R52–53

Xn X:22–52/53 X: (2-)61

613–134–00–5

xxxxxxxxxxxx (XXX) 2-(4-chlorfenyl)-2-[(1 X-1,2,4-xxxxxxx-1-xx)xxxxxx]xxxxxxxxxxx

88671–89–0

Xxxx. xxx. 3; R63 Xx; R22 Xx; X36 X; R51–53

Xn; X R: 22–36–51/53–63 X: (2-)36/37–46–61

613–137–00–1

xxxxxxxxxxxxxxxxxx (ISO) 1-(1,3-xxxxxxxxxxxx-2-xx)-1,3-xxxxxxxxxxxxxxxx

242–505–0

18691–97–9

X; R50–53

N R: 50/53 X: 60-61

613–139–00–2

metsulfuron-methyl xxxxxx-2-{X —[N-(4-methoxy-6-methyl-1,3,5-triazin-2-yl)karbamoyl]sulfamoyl}benzoát

74223–64–6

N; X50–53

X X: 50/53 X: 60-61

614–001–00–4

xxxxxxx (ISO) 3-(1-xxxxxxxxxxxxxxxx-2-xx)xxxxxxx

200–193–3

54–11–5

X+; X27 T; X25 X; R51–53

T+; X X: 25–27–51/53 S: (1/2-)36/37–45–61

614–006–00–1

xxxxxx 2,3-xxxxxxxxxxxxxxxxxxxx-10-xx

206–614–7

357–57–3

X+; X26/28 X52–53

X+ R:26/28–52/53 S: (1/2-)13–45–61

614–007–00–7

xxxxxx-xxxxxx [1] brucin-nitrát [2] xxxxxx-(X)-(1-xxxxxxxxxxxx)-xxxxxxxx-xxxxxx [3] xxxxxx-(X)-(1-xxxxxxxxxxxx)-xxxxxxxx-xxxxxx [4]

225–432–9 [1] 227–317–9 [2] 269–439–5 [3] 269–710–8 [4]

4845–99–2 [1] 5786–97–0 [2] 68239–26–9 [3] 68310–42–9 [4]

X+; X26/28 R52–53

T+ X: 26/28–52/53 X: (1/2-)13–45–61

615–006–00–4

2-xxxxxx-x-xxxxxxxxxxxxxxxxxx [1] 2-xxxxxx-1,3-xxxxxxxxxxxxxxxxxx [1] 4-xxxxxx-x-xxxxxxxxxxxxxxxxxx [2] 4-xxxxxx-1,3-xxxxxxxxxxxxxxxxxx [2] x-xxxxxxxxxxxxxxxxxxxx [3] 5-methyl-1,3-fenylendiisokyanát [3] xxxxxx-2,6-xxxxxxxxxxx [1] toluen-2,4-diisokyanát [2] xxxxxx-3,5-xxxxxxxxxxx [3]

X

202–039–0 [1] 209–544–5 [2] 247–722–4 [3]

91–08–7 [1] 584–84–9 [2] 26471–62–5 [3]

Xxxx. xxx. 3; X40 X+; X26 Xx; X36/37/38 X42/43 X52–53

X+ X: 26–36/37/38–40–42/43–52/53 X: (1/2-)23–36/37–45–61

C320 %: X+; R26–36/37/38–40–42/43 7 % ≤ X &xx; 20 %: X+; X26–40–42/43 1 % ≤ C &xx; 7 %: X; R23–40–42/43 0,1 % ≤ X &xx; 1 %:Xx; X20–42

2

616–010–00–9

xxxxxxx-xxxxxxxxxxxxxx X-xxxxx-4-xxxxxxxxxxxx-1-xxxxxxxxxx, xxxxx xxx

204–854–7

127–65–1

Xx; X22 X31 X; X34 X42

X X: 22–31–34–42 X: (1/2-)7–22–26–36/37/39–45

616–034–00-X

xxxxxxxxxxxx (ISO) 6-xxxxxx-3,4-xxxxxxx-2X-xxxxx-5-xxxxxxxxxxxx

246–419–4

24691–76–7

X52–53

X: 52/53 X: 61

616–035–00–5

cymoxanil X -[(ethylamino)karbonyl]-2-kyan-2-(methoxyimino)acetamid 1-xxxxx-3-[2-xxxx-2-(xxxxxxxxxxxx)xxxxxx]xxxxxxxx

261–043–0

57966–95–7

Xx; X22 X43 X; X50–53

Xx; X R: 22–43–50/53 X: (2-)36/37–60–61

617–004–00–9

(1,2,3,4-xxxxxxxxxx-1-xxxxxx)xxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxx

212–230–0

771–29–9

X; R7 Xn; X22 X; X34 X; X50–53

X; X; X X: 7–22–34–50/53 X:(1/2-)3/7–14–26–36/37/39–45–60–61

X325 %: X; X22–34 10 % ≤ X &xx; 25 %: C; X34 5 % ≤ X &xx; 10 %: Xi; X36/37/38

617–006–00-X

xxx(α, α-xxxxxxxxxxxxxx)xxxxxxx xxx(2-xxxxxxxxxxx-2-xx)xxxxxxx xxx(1-xxxxx-1-xxxxxxxxxxx)xxxxxxx dikumylperoxid

201–279–3

80–43–3

O; X7 Xx; X36/38 N; X51–53

X; Xx; X X: 7–36/38–51/53 S: (2-)3/7–14–36/37/39–61

617–008–00–0

xxxxxxxxxxxxxxxx

202–327–6

94–36–0

X; X2 Xx; X36 R43

E; Xx; X: 2–36–43 X: (2-)3/7–14–36/37/39

650–007–00–3

xxxxxxxxxxxxx (ISO) X2-(4-xxxxx-2-xxxxxxxxxxx)-X1,X1-xxxxxxxxxxxxxxxxxxxx X2-(4-xxxxx-x-xxxxx)-X1,X1-xxxxxxxxxxxxxxxxxx

228–200–5

6164–98–3

Xxxx. xxx. 3; X40 Xx; X21/22 X; R50–53

Xn; N X: 21/22–40–50/53 X: (2-)22–36/37–60–61

650–008–00–9

xxxxxxxxxx (ISO) 4-[(2-xxxxxxxxxx)xxxxxxxxx]-3-xxxxxxxxxxxxxx-5(4 X)-xx

227–197–8

5707–69–7

X; R25 X; X50–53

X; X X: 25–50/53 X: (1/2-)22–24–36/37–45–60–61

650–009–00–4

xxxxxxxxxxxxx-xxxxxxxxxxxx X'-(4-xxxxx-x-xxxxx)-X,X-xxxxxxxxxxxxxxxxxx-xxxxxxxxxxxx N2-(4-chlor-2-methylfenyl)-N1,N1-dimethylformimidamid-hydrochlorid N2-(4-chlor-o-tolyl)-N1,N1-dimethylformamidin-hydrochlorid

243–269–1

19750–95–9

Karc. xxx. 3; X40 Xx; X22 X; X50–53

Xx; N X: 22–40–50/53 X: (2-)22–36/37–60–61

650–033–00–5

xxxxxxxxxxxx (XXX) [(X)-(3-xxxxxxxxxxx)xxxxxxxxxx]-(X)-2-(4-xxxxxxxxxx)-3-xxxxxxxxxxxxxx (X)-3-xxxxxx-α-xxxxxxxxxx-(X)-2-(4-xxxxxxxxxx)-3-xxxxxxxxxxxxxx

66230–04–4

X; X23/25 R43 X; X50–53

X; X R: 23/25–43–50/53 X: (1/2-)24–36/37/39–45–60–61

650–041–00–9

xxxxxxxxxxxx (XXX) 1-[2-(2-chlorethoxy)benzen-1-sulfonyl]-3-(4-methoxy-6-methyl-1,3,5-triazin-2-yl)močovina

82097–50–5

N; X50–53

X X: 50/53 X: 60-61

PŘÍLOHA 1X

Xxxxxxxx číslo

Chemický xxxxx

Xxxxxxxx x látkám

Číslo XX

Xxxxx CAS

Klasifikace

Označení

Koncentrační xxxxxx

Xxxxxxxx x xxxxxxxxxx

006–090–00–8

2-[(3-xxxxxxx-2-xx-1-xx)xxx]xxxxx-X-xxxxxxxxxxxxx

408–010–0

88558–41–2

Xx; R20 Xx; X41 X52–53

Xx X: 20–41–52/53 X: (2-)22–26–39–61

014–016–00–0

Xxxx: 1,3-xx(xxx-5-xx-1-xx)- 1,1,3,3-xxxxxxxxxxxxxxxxxxxx x 1,3-xx(xxx-x-xx-1-xx)- 1,1,3,3-xxxxxxxxxxxxxxxxxxxx

406–490–6

X; X51–53

X X: 51/53 X: 61

015–164–00–9

xxxxxxx-xxxxxxxxxx-(1-xxxxxxxxxxxxxx)xxxxxxxxxxx xxxxxxxx

400–480–5

36669–85–9

X52–53

X:52/53 X: 61

015–165–00–4

Směs: X, X, X', X''-xxxxxxxxxx-4,4'-xxxxxxxxxxxxx(xxxxxxxxxxxxxx)-xxx(xxxxxxxxxxxxxxxx) x difenyl[4-(fenylsulfanyl)fenyl]sulfonium-hexafluorofosfát

404–986–7

Xi; R41 X; X50–53

Xx; X X: 41–50/53 X: (2-)15–26–39–60–61

015–166–00-X

3,9-xxx(2,6-xx-xxxx-xxxxx-4-xxxxxxxxxxxx)-2,4,8,10-xxxxxxxx-3,9-xxxxxxxxxxxx[5.5]xxxxxxx

410–290–4

80693–00–1

X53

X:53 X: 61

015–167–00–5

3-[xxxxxxx(xxxxx)xxxxxxxxx]xxxxxxxxx xxxxxxxx

411–200–6

14657–64–8

Xx; R41

Xi R: 41 X: (2-)26-39

601–050–00–1

X10-X13-xxxxxxxxxxxxx xxxxxxx

267–051–0

67774–74–7

X; R50

N X: 50 X: 61

601–051–00–7

4-xxxxxxxx-1-xx

405–980–7

768–56–9

Xx; X38 X; X51–53

Xx; X X: 38–51/53 X: (2-)37-61

602–083–00–4

pentabromderivát xxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxx

251–084–2

32534–81–9

Xx; X48/21/22 R64 X; R50–53

Xn; N X: 48/21/22–50/53–64 X: (1/2-)36/37–45–60–61

602–084–00-X

1,1-xxxxxxx-1-xxxxxxxxxx

404–080–1

1717–00–6

X; R52–53–59

N X: 52/53–59 X: 59-61

603–128–00–0

2-(xxxxxxxxxxxx)xxxxxxxx

405–490–3

613–62–7

X53

X:53 X: 61

603–129–00–6

1-terc-butoxypropan-2-ol

406–180–0

57018–52–7

R10 Xx; X41

Xx X: 10-41 X: (2-)26-39

603–130–00–1

Xxxx xxxxxxx: α-(xxxxxxxxxxxxxxxxx)-ω-xxxxxxxxxxx(xxxxxxxxxx)

406–325–8

Xx; R22 X52–53

Xx X:22–52/53 X: (2-)39-61

603–131–00–7

Xxxx (3:1):1-xxxxx-1-[xxxxxx(1-xxxxxxxxxx)xxxxx]-X-xxxxxxxx; 1-xxxxx-1-[xxxxxx(1-xxxxxxxxxxxxx)xxxxx]-X-xxxxxxxx

407–290–1

Xx; X41

Xx X: 41 X: (2-)26-39

603–132–00–2

2-(xxxxxxxxxxxxx)-6-xxxxxxxxx-9-xxxxxx-1,4-xxxxxxxxxx[4.5]xxxxx

408–200–3

63187–91–7

Xx; R38–41 X52–53

Xx X:38–41–52/53 X: (2-)26–37/39–61

603–133–00–8

Xxxx:3-(4-xxxxx-2-xxxxx-5-xxxxxxxxxxxx)xxxxxx-1,2-xxxx x 3,3'-[(2-xxxxx-5-xxxxx-1,4-xxxxxxx)xxxxxxx]xx(xxxxxx-1,2-xxxx)

408–240–1

Xx; R22 X52–53

Xx X:22–52/53 X: (2-)22–36–61

603–134–00–3

Xxxx: xxxxx(X1-X10)-xxxxxxxxxxxxxxxxxxxx x xxxxx(X1-X10)-xxxxxxxxxxxxxxxxxxxxxxx (xxxxxxx a xxxxxxxxxx xxxxxxxxxxxx)

410–450–3

X53

X: 53 X: 61

603–135–00–9

bis[2-(2-methoxyethoxy)ethanolato]bis(2,2', 2-nitrilotriethan-1-olato-N,O)titaničitý xxxxxxx

410–500–4

Xx; R41 X; X51–53

Xx; X R: 41–51/53 X: (2-)26–39–61

603–136–00–4

3-{4-[bis(2-hydroxyethyl)amino]-2-nitroanilino}propan-1-ol

410–910–3

104226–19–9

R43 X52–53

Xx R:43–52/53 S: (2-)24–37–61

603–137–00-X

Xxxx:1-xxxxx-1-[xxxxxx(1-xxxxxxxxxxxx)xxxxx]-X-xxxxxxxx x 1-deoxy-1-[methyl(1-oxooktadecyl)amino]-D-glucitol

411–130–6

Xi; X41

Xx X: 41 X: (2-)26-39

603–138–00–5

3-(2,2-xxxxxxxx-3-xxxxxxxxxxxxx)xxxxxx 2,2-xxxxxxxx-3-(3-xxxxxxxxxxx)xxxxxx-1-xx

403–140–4

103694–68–4

X52–53

X:52/53 X: 61

604–050–00-X

4-xxxxx-x-xxxxxx 4-xxxxx-2-xxxxxxxxxxx

216–381–3

1570–64–5

X; X23 X; X 35 N; R50

T; X; X X: 23–35–50 S: (1/2-)26–36/37/39–45–61

X ≥ 25 %: X; X; X23–35 10 % ≤ X &xx; 25 %: C;R20–35 5 % ≤ X &xx; 10 %: X;X20–34 3 % ≤ X < 5 %: Xx;X20–36/37/38 1 % ≤ X &xx; 3 %:Xx;X36/37/38

604–051–00–5

3,5-xxx(3,5-xx-xxxx-xxxxx-4-xxxxxxxxxxxxx)-2,4,6-xxxxxxxxxxxxxx

401–110–5

87113–78–8

X52–53

X:52/53 S: 61

604–052–00–0

2,2'-xxxxxxxxxxx[6-(2 X - xxxxxxxxxxxx-2-xx)-4-(1,1,3,3-xxxxxxxxxxxxxxxx)xxxxx] 6,6'-xxx(2X -xxxxxxxxxxxx-2-xx)- 4,4'-xxx(1,1,3,3-xxxxxxxxxxxxxxxx)- 2,2'-xxxxxxxxxxxxxxx

403–800–1

103597–45–1

X53

X:53 X: 61

604–053–00–6

4-xxxx - butyl-2-methyl-6-(1-methylpentadecyl)fenol

410–760–9

157661–93–3

Xi; X38 X43 N; X50–53

Xx; X X: 38–43–50/53 X: (2-)24–37–60–61

604–054–00–1

Směs:2-methoxy-4-(4-methylidentetrahydropyran-2-yl)fenol x 2-xxxxxxx-4-(4-xxxxxx-3,6-xxxxxxx-2X -xxxxx-2-xx)xxxxx

412–020–0

X43 X52–53

Xx X:43–52/53 X: (2-)24–37–61

604–055–00–7

4,4'-xxx[(2,3-xxxxxxxxxxx)xxx]-3,3', 5,5'-xxxxxxxxxxxxxxxxxx

413–900–7

85954–11–6

Xxxx. Kat.3; X40

Xx X: 40 X: (2-)22–36–37

605–027–00–7

Xxxx:3x, 4,5,6,7,7x-xxxxxxxxx-4,7-xxxxxxx-1X-xxxxx-6-xxxxxxxxxxx x 3x, 4,5,6,7,7x-xxxxxxxxx-4,7-xxxxxxx-1X - xxxxx-5-xxxxxxxxxxx

410–480–7

X43 N; X51–53

Xx; X X: 43–51/53 X: (2-)24–37–61

606–051–00–0

4-xxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxx-1-xx

4–406–670–4

61203–83–6

X; X51–53

X X: 51/53 X: 61

606–052–00–6

4-(N, X-xxxxxxxxxxxx)-2-xxxxxxx-2'-xxxxxxxxxxxxxxxxx 2-[4-(xxxxxxxxxxxx)-2-xxxxxxxxxxxxxx]xxxxxxxx kyselina

410–410–5

54574–82–2

R52–53

R:52/53 X: 61

607–272–00–5

xxxxxxxxxxx-xxxxxx (XXX) [1] xxxxxxxxxx-xxxxxxxxx (XXX) [2] xxxxxxxxxxxx-[(4-xxxxx-3,5-xxxxxxx-6-xxxxx-2-xxxxxxx)xxx]xxxxxx [1] (2-xxxxxx-1-xxxxxxxxxxx)-[(4-xxxxx-3,5-xxxxxxx-6-xxxxx-2-xxxxxxx)xxx]xxxxxx [2]

279–752–9 [1] —

81406–37–3 [1] 154486–27–8 [2]

N; X50–53

X R: 50/53 X: 60-61

607–273–00–0

xxxxxxx-7-{2,6-xxxxxxxx-8-[(2,2-xxxxxxxxxxxxxxxx)xxx]- 1,2,6,7,8,8x-xxxxxxxxx-1-xxxxxx}-3,5-xxxxxxxxxxxxxxxxxx

404–520–2

X52–53

X:52/53 X: 61

607–274–00–6

{2-[benzyl(methyl)amino]ethyl}-3-aminobut-2-enoát

405–350–1

54527–73–0

R43 X; X51–53

Xx; N X: 43–51/53 S: (2-)24–37–61

607–275–00–1

xxxxxxx-4-(xxxxxxxxxx)xxxxxx-1-xxxxxxxx

405–450–5

66531–87–1

X43

Xx X: 43 S: (2-)24-37

607–276–00–7

[xxx(2-xxxxxxxxxxxxxx) bis(1-methylimidazol)]zinečnatý xxxxxxx

405–635–0

Xx; X38–41 X; X50–53

Xx; X R: 38–41–50/53 X: (2-)26–37/39–60–61

607–277–00–2

Xxxx:2-(xxxxxxxxxxxxx)xxxxxxxxx-xxxxxxxxxxxx x xxxxxxx-xxxxxxxxx

405–720–2

Xx; X22 Xx; X41 X43 X; X51–53

Xx; N X: 22–41–43–51/53 X: (2-)24–26–37/39–61

607–278–00–8

Směs:alkyl(C7-C9 xxxxxxxxxx x xxxxxxxxxxxx)-3-[3-(2 X - benzotriazol-2-yl)-5-terc-butyl-4-hydroxyfenyl]propanoáty

405–760–0

Xi; X41 X43 R52–53

Xi X: 41–43–52/53 S: (2-)24–26–37/39–61

607–279–00–3

Xxxx:(xxxxxxxxxxxxxx)xxxxxxxxx-xxx(xxxxxxxx-xxxxxxxx) x (xxxxxxxxxxxxxx)xxxxxxxxx-(xxxxxxxx-xxxxxx)-(xxxxxxxx-xxxxxxxx)

405–960–8

X43 X; X51–53

Xx; X X: 43–51/53 S: (2-)24–37–61

607–280–00–9

4-xxxxx-1-xxxxxxxxxxxx-1-xxxxxxxx xxxxx natrium-4-chlor-1-hydroxybutan-1-sulfonát

406–190–5

54322–20–2

Xn; X22 Xx; X36 X43

Xx X: 22–36–43 X: (2-)22–26–36/37

607–281–00–4

Xxxx:xxxxx(X7-X9 xxxxxxxxxx x lineární)-3-[3-(2H-benzotriazol-2-yl)-5-terc-butyl-4-hydroxyfenyl]propanoáty

407–000–3

127519–17–9

N; X51–53

X X: 51/53 X: 61

607–282–00-X

2-(xxxxxxxxxxxxx)-4-(xxxxxxxxx)xxxxx-xxxxxx

407–140–5

131266–10–9

X52–53

X: 52/53 X: 61

607–283–00–5

xxxxx-(X)-4-xxxxx-4-xxxxxx-2-xxxxxxxxxx-(X)-4-xxxxx-4-xxxxxxxxxxx

408–040–4

15121–89–8

Xx; R21/22 Xi; X38–41 X43 X; X50–53

Xx; N R: 21/22–38–41–43–50/53 S: (2-)26–36/37/39–60–61

607–284–00–0

Směs (9:1):xxxxxxx-3,3'-{(1,4-xxxxxxx)xxx[(xxxxxxxxxxxxx)(xxxxxx-3,1-xxxx)xxxxx]}xxx(10-xxxxx-6,13-xxxxxxx[1,4]xxxxxxxxxxx[2,3-x]xxxxxxxxx-4,11-xxxxxxxxxx) a lithium-3,3'-{(1,4-fenylen)bis[(karbonylimino)(propan-3,1-diyl)imino]}bis(10-amino-6,13-dichlor[1,4]benzoxazino[2,3-b]fenoxazin-4,11-disulfonát)

410–040–4

136213–76–8

N; X51–53

X X: 51/53 X: 61

607–285–00–6

Xxxx:7-(3-xxxxxxxxxxxxxxxxxxxxxx)xxxxxxxx-1,3-xxxxxxxxxxx xxxxxxxx, xxxxxx-7-(3-xxxxxxxxxxxxxxxxxxxxxx)xxxxxxxx-1,3-xxxxxxxxxx x xxxxxxx-7-(3-xxxxxxxxxxxxxxxxxxxxxx)xxxxxxxx-1,3-xxxxxxxxxx

410–065–0

X43

Xx X: 43 X: (2-)22–24–37

607–286–00–1

Xxxx:xxxxxx- a natrium-7-[4-({4-[(2-hydroxy-1-naftyl)azo]fenyl}azo)benzensulfonamido]naftalen-1,3-disulfonát

410–070–8

141880–36–6

R43 X52–53

Xx X:43–52/53 X: (2-)22–24–37–61

607–287–00–7

xxxxxx-[1-xxxxxx-2-(xxxxxxxxxxxxxxx)xxxxx]-1,2,3,6-xxxxxxxxxxxxxxxx

410–140–8

X52–53

X:52/53 X: 61

607–288–00–2

[c-(N -{3-[(1-{3-[(2,6(4,6)-xxxxxxx-5-xxxxxxxxxxxxx-4(2)-xx)xxxxxxxxxxx]xxxxxx}-2-xxxxxxx-4-xxxxxx-6-xxx-1,6-xxxxxxx-3-xxxxxxx)xxx]-4-xxxxxxxxxxxxxx}xxxxxxxxx)-x,x,x -trisulfonatoftalocyanin]nikelnatý xxxxxxx, xxxxxxxxxx sůl; x = 15, 16, 17 xxxx 18, x = 1, 2, 3 xxxx 4, x = 8, 9, 10 xxxx 11, d = 22, 23, 24 xxxx 25

410–160–7

148732–74–5

Xx; X36 X43 X52–53

Xx X: 36–43–52/53 X: (2-)22–26–36/37–61

607–288–00–8

3-[(3-{X —[4-(2,4-xx-xxxx-xxxxxxxxxxxx)xxxxx]xxxxxxxxx}-4-xxxxxxx-1-xxxxxx)xxxxxxxx]xxxxxxxxx kyselina

410–370–9

105488–33–3

R53

R:53 X: 61

607–290–00–3

Směs (x xxxxxxxx xxxxxx):xxxxxxx-1-xxxxx(X14-X18)-4-[3-(xxxxxxxx)-2-xxxxxxxxxxxxx]-2-xxxxxxxxxxxxxxxxxxx x xxxxxxx-4-xxxxx(X14-X18)-1-[3-(xxxxxxxx)-2-xxxxxxxxxxxxx]-2-xxxxxxxxxxxxxxxxxxx

410–540–2

Xx; X38 R43 X; R50–53

Xi; X X: 38–43–50/53 S: (2-)24–37–60–61

607–291–00–9

xxxxxxx-ω-xxxxxxxxxxx(xxxx cyklohexyl)alkanoát

410–630–1

104051–92–5

R53

R: 53 X: 61

607–292–00–4

Směs:[2-(alkyl(C12)oxy)-1-(methoxymethyl)ethoxy]octová kyselina x [2-(xxxxx(X14)xxx)-1-(xxxxxxxxxxxxx)]xxxxxx xxxxxxxx

410–640–6

Xx; X38–41 X; X50–53

Xx; X R: 38–41–50/53 X: (2-)26–37/39–60–61

607–293–00-XXxxx:

1-(2-xxxxxxxxxx)xxxxxxxxx-1,4-xxxxx-[(2,4,6-xxxxxxxxxxxxxx)xxxxxx]xxxxxxxxxxxxxxxx x 1-(2-xxxxxxxxxx)xxxxxxxxx-1,4-xxxxx-[xxx(2,4,6-xxxxxxxxxxxxxx)xxxxxx]xxxxxxxxxxxxxxxx

410–650–0

Xx; X41 X43 X; R51–53

Xi; X X: 41–43–51/53 X: (2-)26–36/37/39–61

607–294–00–5

xxxxxxx-2-(xxxxxxxxxx)-1-xxxxxxxxxxxx-1-xxxxxxxx

410–680–4

X43

Xx X: 43 X: (2-)24-37

607–295–00–0

Směs:tetranatrium-fosfonobutandioát a xxxxxxxxxxx-xxxxxxxxxxxx-1,2,3,4-xxxxxxxxxxxxxxx

410–800–5

X43 X; R51–53

Xi; X R: 43–51/53 X: (2-)24–37–61

607–296–00–6

Xxxx:xxxxxxxxxxx xxxxxxxxxxxxxxxx, xxxxxxxxx xxxxxxxx a 2-xxxxxxxxxxxxx xxxxxxxx

410–830–9

X53

X: 53 X: 61

607–297–00–1

3,3'-(1,4-xxxxxxxxxxxxxxxxxxx)xxx(2-xxxxxxxxx-10-xxxxxxxxx xxxxxxxx)2,2'-xxxxx-3,3'-(1,4-xxxxxxxxxxxxxxxxxxx)xxx(1,7,7-xxxxxxxxxxxxxxxx[2.2.1]xxxxxx-1-xxxxxxxxxxxxxxx xxxxxxxx)

410–960–6

92761–26–7

Xx; X41

Xx R: 41 S: (2-)26-39

607–298–00–7

[2-(xxxxxxxxxxxxxxx)xxxxx]-4-xxxxxxxxxxxxxxxx

411–010–3

X43

Xx X: 43 S: (2-)22–36/37

607–299–00–2

xxxxxx-3-(xxxxxxxxxxxxxx)-2-xxxxxxxxxxxxxxx

411–040–7

97101–46–7

Xx; R22 X43 X; X50–53

Xx; X X: 22–43–50/53 S: (2-)24–37–60–61

607–300–00–6

[x-(X-{4-[(5-xxxxx-2,6-xxxxxxxxxxxxxxxx-4-xx)xxxxx]-3-xxxxxxxxxxxxxxxx}xxxxxxxxx)-x-xxxxxxxxx-x, x-xxxxxxxxxxxxxxxxxxxx]xxxxxxx komplex, xxxxxxxx sůl; x = 1,2,3 xxxx 4, b = 8, 9, 10 xxxx 11, x = 15, 16, 17 nebo 18, x = 22, 23, 24 xxxx 25

411–430–7

X43

Xx R: 43 X: (2-)22–24–37

607–301–00–1

Xxxx:xxxxxxxxxx xxxxxxxx x xxxxxxxxxxx xxxxx(1-7)xxxxxxx

411–860–5

Xx; X38–41 X43 X; X51–53

Xx; X R: 38–41–43–51/53 S: (2-)24–26–37/39–61

607–302–00–7

Xxxx:xxxxxxxxxxxxx xxxxxxxx a xxxxxxxxxxxxxx xxxxx(1-7)xxxxxxx

411–910–6

Xx; X38–41 X43 X; R51–53

Xi; N X: 38–41–43–51/53 S: (2-)24–26–37/39–61

607–303–00–2

1-xxxxxxxxxxx-6,7-xxxxxxx-4-xxx-1,4-xxxxxxxxxxxxxxx-3-xxxxxxxxxxx kyselina

413–760–7

93107–30–3

Repr. xxx.3; X62 R52–53

Xn X: 62–52/53 S: (2-)22–36/37–61

608–023–00–3

4-(4-xxxxxxxxxx)-2-xxxxx-2-[(1X- 1,2,4-xxxxxxx-1-xx)xxxxxx]xxxxxxxxxxx

406–140–2

114369–43–6

X; X50–53

X X: 50/53 X: 60-61

608–024–00–9

2-{4-[xxxxx(xxxxxxxx)xxxxx]xxxxx}xxxxx-1,1,2-xxxxxxxxxxxxxx

407–650–8

97460–76–9

X53

X:53 X: 61

608–025–00–4

[2-xxxxx-4,5-xxx(xxxxxxxxx)xxxxx]xxxxxxxxxxx

410–970–0

117568–27–1

X53

X:53 X: 61

609–053–00-X

xxxxxxxxxxx-xxxxxxxxxxxxxxxx

414–850–9

X; R3 X; X8 Xxxx. kat. 2; X45 X; X23/25 X43

X; X X: 45–3–8–23/25–43 X: 53-45

610–010–00–2

1-xxxx-2-(2-xxxxx)-1-xxxxxxxxxx

406–110–9

35950–52–8

Xx; X22–48/22 X; X34 X43 X; X50–53

X; X R: 22–34–43–48/22–50/53 S: (1/2-)22–26–36/37/39–45–60–61

611–043–00–5

Xxxx (2:1:1):[xxx(6-{[1-(X-xxxxxxxxxxxxxx)-2-xxxxxxxxxxx-1-xx-1-xx]xxx}-5-xxxxxxxxx-3-xxxxxxxxxxxxxxxxx-2-xxx-1'-xxxxxx-1,2'-xxxxxxx)]xxxxxxxxx xxxxxxxx, [xxx{6-[(2-xxxxx-4-xxxxxxxxxxxx)xxx]- xxxx 6-[(2-xxxxx-6-xxxxxxxxxxxx)xxx]- xxxx 6-[(4-xxxxx-2-xxxxxxxxxxxx)xxx]-5-xxxxxxxxx-3-xxxxxxxxxxxxxxxxx-2-xxx-1'-xxxxxx-1,2'-xxxxxxx}]xxxxxxxxx trisodný a[{6-[(2-amino-4-hydroxyfenyl)azo]- xxxx 6-[(2-xxxxx-6-xxxxxxxxxxxx)xxx]- xxxx 6-[(4-xxxxx-2-xxxxxxxxxxxx)xxx]-5-xxxxxxxxx-3-xxxxxxxxxxxxxxxxx-2-xxx-1'-xxxxxx-1,2'-xxxxxxx}(6-{[1-(X-xxxxxxxxxxxxxx)-2-xxxxxxxxxxx-1-xx-1-xx]xxx}-5-xxxxxxxxx-3-xxxxxxxxxxxxxxxxx-2-xxx-1'-xxxxxx-1,2'-xxxxxxx)]xxxxxxxxx trisodný

402–850–1

Xi X: 41–52/53 X: (2-)26–39–61

611–044–00–0

Xxxx:[xxx(5-xxxxxxxxxxx-1-xxx-1'-xxxxxxxx-2,2'-xxxxxxx)]xxxxxxxxx xxxx-xxxxx(X12-X14)xxxxxx, [bis(4-nitrobenzen-1-azo-1'-naftalen-2,2'-diolato)]chromitan xxxx-xxxxx(X12-X14)xxxxxx, [xxx(5-xxxx-xxxxx-3-xxxxxxxxxxx-1-xxx-1'-xxxxxxxx-2,2'-xxxxxxx)]xxxxxxxxx xxxx-xxxxx(X12-X14)xxxxxx, [(5-terc-butyl-3-nitrobenzen-1-azo-1'-naftalen-2,2'-diolato)(5-nitrobenzen-1-azo-1'-naftalen-2,2'-diolato)]chromitan xxxx-xxxxx(X12-X14)xxxxxx a[(4(5)-nitrobenzen-1-azo-1'-naftalen-2,2'-diolato) (3-nitro-5-pentylbenzen-1-azo-1'-naftalen-2,2'-diolato)]chromitan xxxx-xxxxx(X12-X14)xxxxxx

403–720–7

117527–94–3

X; R51–53

Xi; R41 X52–53

611–045–00–6

2-({4-[(4-xxxxxxxxxxxx)xxxxxxxxxx]-2-xxxxxxxxxxx}xxx)-3-xxxxxx-5-xxxxxxxxxxxx

404–830–8

X53

X:53 X: 61

X X: 51/53 X: 61

611–046–00–1

4,4'-xxxxxxx-2-xxxxxxxxxxxxxxx2-xxxxxxxxxxxxxxx-4,4'-xxxxxx

407–590–2

43151–99–1

X; X25 Xx; X48/22 R43 X; X50–53

X; N X: 25–43–48/22–50/53 X: (1/2-)22–28–36/37–45–60–61

611–047–00–7

Xxxx (1:1):2-({4-[(2-xxxxxxxxxxxx)xxxxxxxxxx]xxxxx}xxx)-5,6-xxxxxxxxxxxxxxxxxxx x 2-({4-[(2-xxxxxxxxxxxx)xxxxxxxxxx]xxxxx}xxx)-6,7-xxxxxxxxxxxxxxxxxxx

407–890–3

111381–11–4

X53

X: 53 S: 61

611–048–00–2

Směs (1:1):2-({4-[xxx(2-xxxxxxxxxxxx)xxxxx]xxxxx}xxx)-5,6-xxxxxxxxxxxxxxxxxxx x 2-({4-[bis(2-acetoxyethyl)amino]fenyl}azo)-6,7-dichlorbenzothiazol

407–900–6

111381–12–5

R53

R: 53 S: 61

611–049–00–8

Směs (2:1:1)7-[(4-{[3-(xxxxxxxxxxxx)xxxxxx]xxxxx}-6-{[3-(xxxxxxxxxxxxx)xxxxxx]xxxxx}-1,3,5-xxxxxxx-2-xx)xxxxx]-3-{[4-(xxxxxxxx)xxxxx]xxx}-4-xxxxxxxxxxxxxxx-2-xxxxxxxx, xxxxxxxx xxxxxx x mléčná xxxxxxxx (2:1:1)

408–000–6

118658–98–3

Xx; X48/22 X43 X52–53

Xx X: 43–48/22–52/53 X: (2-(22–36/37–61

611–051–00–9

2-({4-[xxxxx(2-xxxxxxxxxxxx)xxxxx]-2-xxxxxxxxxxx}xxx)-6-xxxxxxx-3-xxxxxxxxxxxxxxxxxxxxx-xxxxxxx

411–110–7

136213–74–6

X; X50–53

X X: 50/53 X: 60-61

611–052–00–4

[xxxx{4-[(2-xxxxxxx-3,5-xxxxxxxxxxxx) xxx]-6-[(6-xxxxxxxxx-1-xxxxxx)xxx]xxxxxx-1,3-xxxxxxx}]xxxxxxxxx xxxxxxx, xxxxx sůl

400–720–9

R52–53

R: 52/53 X: 61

612–156–00–2

Směs:trihexadecyl(methyl)amonium-chlorid x xxxxxxxxxxx(xxxxxxxx)xxxxxxx-xxxxxxx

405–620–9

Xx; R41 N; X50–53

Xx; X R: 41–50/53 X: (2-)26–39–60–61

612–157–00–8

(X)-1-(1-xxxxxxxxxxxx-2-xx)xxxxx-1-xx-xxxx-xxxxxxxxxxxx

410–780–8

Xx; X22–48/22 Xx; R41 X43 N; X51–53

Xx; X X: 22–41–43–48/22–51/53 X: (2-)22–26–36/37/39–61

612–158–00–3

Směs:[bis(5-alkyl(rozvětvený C12))-2-hydroxybenzaldoximato)]měďnatý xxxxxxx a 4-xxxxxxx-2-xxxxxxxxxxxxxxxxxx[xxx(5-xxxxx(xxxxxxxxxx X12))-2-xxxxxxxxxxxxxxxxxxxxx)]xxxxxxx xxxxxxx a 4-xxxxxxxxxxxxxxxxxxxxx

410–820–4

X53

X: 53 S: 61

612–159–00–9

xxxxxxx xxxxxxxx xxxxx 2,2,4-xxxxxxxxx- x 2,4,4-xxxxxxxxxxxxxx-1,6-xxxxxxx (x seznamu XXXXXX), xxxxxxxx [(xxxxx(X10-X16)xxx)xxxxxx]xxxxxxx (Epoxid 8) a 4-xxxxxxxxxxxx-1-xxxxxxxxx xxxxxxxx

410–880–1

Xx; X22 X; X34 X; X50–53

X; X R: 22–34–50/53 X: (1/2-)23–26–36/37/39–45–60–61

613–149–00–7

2-terc-butyl-5-[(4-terc-butylbenzyl)sulfanyl]-4-chlorpyridazin-3(2H)-on

405–700–3

96489–71–3

T; X23/25 X; X50–53

X; X X: 23/25–50/53 X: (1/2-)36/37–45–60–61

613–150–00–2

2,2'-[xxxxxxxxx-1,4-xxxxxx(xxxxxx-1,3-xxxx)]xxx(xxxxxxxxxxx[2,1-x]xxxxx[xxx][3,8]xxxxxxxxxxxx-1,3,6-xxxxx)

406–295–6

X53

X:53 S: 61

613–151–00–8

1-(2-deoxy-3-O-mesyl-5-O-trityl-β-D-threo-pentofuranosyl)-5-methylpyrimidin-2(1H), 4(3 X)-xxxx

406–360–9

104218–44–2

X53

X:53 X: 61

613–152–00–3

xxxxx-X-(4,6-xxxxxxxxxxxxxxxxxx-2-xx)xxxxxxxx

406–600–2

89392–03–0

X43 X; X51–53

Xx; X X: 43–51/53 X: (2-)24–37–61

613–153–00–9

2,3,5-trichlorpyridin

407–270–2

16063–70–0

R52–53

R:52/53 X: 61

613–154–00–4

2-xxxxx-4-xxxxx-6-xxxxxxxxxxxxxxxx

410–050–9

5734–64–5

Xx; X22

Xx R: 22 X: (2-)22

613–155–00-X

5-chlor-2,3-difluorpyridin

410–090–7

89402–43–7

R10 Xx; X22 X52–53

Xx X: 10–22–52/53 S: (2-)23–36–61

613–156–00–5

2-xxxxx-4-xxxxx-5-xxxxxxxxxxxxxx 2-xxxxx-5-xxxxxxxxxxxxx-4-xxxxxxxxxxx

410–260–0

83857–96–9

X43 X; X51–53

Xx; X X: 43–51/53 X: (2-)24–37–61

613–157–00–0

2,4-xxxxxxx-5-(xxxxxxxxxxxxx)xxxxxxxxx 5-(xxxxxxxxxxxxx)xxxxxxxxx-2,4-xxxxxx

410–330–0

54236–98–5

Xx; X22–48/22 Xi; X36

Xx R: 22–36–48/22 X: (2-)22–26–36

613–158–00–6

2,3-xxxxxxx-5-(xxxxxxxxxxxxxx)xxxxxxx

410–340–5

69045–84–7

Xx; R20/22 Xx; R41 X43 X; R51–53

Xn; X X: 20/22–41–43–51/53 S: (2-)24–26–37/39–61

613–159–00–1

4-[2-(4-xxxx-xxxxxxxxxx)xxxxxx]xxxxxxxxxx

410–580–0

120928–09–8

X; R25 Xx; X20 X; R50–53

T; X X: 20–25–50/53 X: (1/2-)37–45–60–61

613–160–00–7

2-xxxxxx-2,5-xxxxxxxxxxxx[2.2.1]xxxxxx-xxxxxxxxxxxxx

411–000–9

125224–62–6

X43

Xx X: 43 X: (2-)24-37

615–022–00–1

methyl-3-(isokyanatosulfonyl)thiofen-2-karboxylát

410–550–7

79277–18–2

E; X2 X14 Xx; X48/22 X42/43

X; Xx X: 2–14–42/43–48/22 S: (2-)22–30–35–36/37

615–023–00–7

xxxxxxxxxxx 2-[(xxxxxxxxxxxxxxxxxx)xxxxxx]xxxxxxxx kyselinymethyl-2-[(isokyanatosulfonyl)methyl]benzoát

410–900–9

83056–32–0

R10 X14 Xxxx. kat. 3; R40 Xx; X20–48/22 Xx; X41 X42

Xx X: 10–14–20–40–41–42–48/22 X: (2-)23–26–36/37/39

616–044–00–4

N-(3,5-dichlor-4-ethyl-2-hydroxyfenyl)-2-(3-pentadecylfenoxy)butanamid

402–510–2

N; R51–53

N X: 51/53 X: 61

616–045–00-X

2'-[(4-xxxxx-5-xxxxxx-3-xxxx-2-xxxxxxx)xxx]- 5'-(xxxxxxxxxxxx)-2-xxxxxxxxxxxxxxxxx

405–190–2

122371–93–1

X43 X53

Xx X: 43-53 S: (2-)22–24–37–61

616–046–00–5

X -[2-(6-xxxxx-7-xxxxxxxxxxxxxx[1,5-x][1,2,4]xxxxxxx-4-xx)xxxxxx]-2-(2,4-xx-xxxx-xxxxxxxxxxxx)xxxxxxxxx

406–390–2

X; X50–53

X X: 50/53 S: 60-61

616–047–00–0

Xxxx:X,X′,X″,X′′′ - tetraalkyl(C16)-2,2′, 2″, 2′′′ (ethylendinitrilo)tetraacetamid x X, X′,X″,X′′′ - xxxxxxxxxx(X18)- 2,2′, 2′′, 2′′′-(xxxxxxxxxxxxxxxx)xxxxxxxxxxxxx

406–640–0

X43

Xx X: 43 X: (2-)24-37

616–048–00–6

3'-(trifluormethyl)isobutyranilid

406–740–4

1939–27–1

Xn; X48/22 X; X51–53

Xx; X R: 48/22–51/53 X: (2-)22–36–61

616–049–00–1

2-(2,4-xx-xxxx-xxxxxxxxxxx)-X-(3,5-xxxxxxx-4-xxxxx-2-xxxxxxxxxxxx)xxxxxxxxx

408–150–2

99141–89–6

X53

X:53 X: 61

616–050–00–7

1-[2,5-xxxxxxx-4-(1,1,2,3,3,3-xxxxxxxxxxxxxxxx)xxxxx]-3-(2,6-xxxxxxxxxxxx)xxxxxxxx

410–690–9

103055–07–8

X43 N; X50–53

Xx; X X: 43–50/53 X: (2-)24–37–60–61

616–051–00–2

Xxxx:3,3'-xxx(4-xxxxxxxxxxx)- 1,1'-(4-methyl-1,3-fenylen)dimočovina x 3,3'-bis(4-methylfenyl)-1,1'-(2-methyl-1,3-fenylen)dimočovina Xxxx:2,4-xxx[3-(4-xxxxxxxxxxx)xxxxxx]xxxxxx x 2,6-xxx[(3-(4-xxxxxxxxxxx)xxxxxx]xxxxxx

411–070–0

X53

X: 53 X: 61

617–015–00–9

bis(4-methylbenzoyl)peroxid

407–950–9

895–85–2

E; X2 X; X7 X; X50–53

X; N X: 2–7–50/53 S: (2-)7–14–36/37/39–47–60–61

650–032–00-X

xxxxxxxxxxxx (XXX) (2X, 3R)-, (2 X, 3 X)-, (2 R, 3 X)-, (2 X, 3 X)-2-(4-xxxxxxxxxx)-3-xxxxxxxxxxx-1-(1X- 1,2,4-xxxxxxx-1-xx)xxxxx-2-xx

94361–06–5

Xxxx. xxx. 3; X63 Xx; X22 X; X50–53

Xx; N X: 22–50/53–63 X: (2-)36/37–60–61

XXXXXXX 2

XXXXXX XXXXXXXXXXXX XXXXX XXXXXXXXX X XXXXXXXXXXXX XXXXXXX X XXXXXXXXX

Xxx směrnice Xxxxxx 2001/59/XX,

Xx. xxxx. X 332, 28.12.2000, x. 81.

XXXXXXX 3A

STANDARDNÍ XXXXXX XXX XXXXXXXX XXXXXXXXX X XXXXXXXXXXXX LÁTKAMI X PŘÍPRAVKY

Viz xxxxxxxx Xxxxxx 2001/59/ES,

Úř. věst. X 332, 28.12.2000, x. 81.

XXXXXXX 3X

XXXXXXXXXX XXXXXX XXX BEZPEČNÉ ZACHÁZENÍ X XXXXXXXXXXXX XXXXXXX X PŘÍPRAVKY

Viz směrnice Xxxxxx 2001/59/XX,

Xx. věst. X 332, 28.12.2000, x. 81.

XXXXXXX 4X

"X.10 XXXXXXXXXX — XXXXXXX XX XXXXXXXXXXXX XXXXXXX X XXXXX XX VITRO

1. XXXXXX

Xxxx metoda xx xxxxxxxx metody XXXX XX 473 — Xxxxxxx na chromozomové xxxxxxx u xxxxx xx xxxxx (1997).

1.1 XXXX

Xxxxxxx xx chromozomové xxxxxxx u xxxxx xx vitro má xxxxxxxxxxxxx činitele, které xxxxxxxxx xxxxxxxxxx chromozomové xxxxxxx x xxxxxxxxxxxxx xxxxxxx xxxxx (1, 2, 3). Xxxxxxxxx xx xxx xxxx xxxxxxxxxxxx aberací: xxxxxxxxxxxx x chromatidové. U xxxxxxx xxxxxxxxxx xxxxxxxx xxxx xxxxxxxxxx xxxxxxx xxxxxxxxxxxxxx xxxx, xxxxx xxxxxxxxxxxx xxxxxxx xx xxxxxx vyskytují. Xxxxxx xxxxxxxxxxx může xxxxxxxx, xx chemická xxxxx xx xxxxxxxxx xxxxxxxxx xxxxxxxxx xxxxxxx. Xxxx xxxxxx xxxx není xxxxxx ke xxxxxxxxx xxxxxxxxxxx xxxxxxx x xxxx x tomuto xxxxx rutinně xxxxxxxxx. Xxxxxxxxxxxx xxxxxx a xxxxxxx jevy jsou xxxxxxxx xxxxx xxxxxxxxx xxxxxxxxxxx chorob u xxxxxxx x xxxxxxxx xxxxx důkazů o xxx, xx chromozomové xxxxxx a x xxxx xxxxxxxxxxx jevy xxxxxxxxxxx xxxxx x xxxxxxxxxx a x xxxxxx xxxxxxxxxxx buněk xxxxxxxxx nádory, xxxx xxxxx na indukci xxxxxxxx x člověka x x pokusných xxxxxx.

Xx zkoušce xx xxxxxxxxxxxx aberace xx xxxxx xxxxx xxx xxxxxxx xxxxxxxxxxxxx xxxxxxx xxxxx, xxxxxxx kmeny xxxx primární xxxxxxx xxxxxxx. Použité buňky xxxx xxxxxxx na xxxxxxx xxxxxxxxxx xxxxx x xxxxxxx, xxxxxxxx xxxxxxxxx, počtu xxxxxxxxxx, xxxxxxxxxxxx xxxxxxxxxx x xxxxxxxxx xxxxxxxx xxxxxxxxxxxxxx xxxxxxx.

Xxxxxxx xxxxxxxxx in xxxxx xxxxxx xxxxxxxx xxxxxxx xxxxxxxx xxxxxx xxxxxxxxxxx aktivace. Xxxxx xxxxxxxxxxx xxxxxxxxx systém xxxxxx xxxxx napodobit xxxxxxxx xx xxxx x xxxxx. Xx xxxxx xx xxxxx xxxxxxxxx xxxxxxxx, xxxxx xx vedly x xxxxxxxxxx výsledkům, jež xxxxxxxxxx xxxxxxx xxxxxxxxxx x xxxx x xxx xxxxx xxxxxx xX, osmolality xxxx xxxxxxxx úrovní cytotoxicity (4, 5).

Xxxx zkouška xx používá xx xxxxxxxx xxxxxxx xxxxxxxx x xxxxxxxxxxx xxx xxxxx. Xxxxx sloučenin, xxx xxx xx xxxx zkouška xxxxxxxxx, xxxx xxx xxxxx xxxxxxxxxxx; xxxx xxxxx xxxxxxxx x xxxxxxxxxxxxxx xxxx xxxx absolutní xxxxxxxx. Xxxxxxxx xxxxxx xx xxxxxxxx třídě x přibývají xxxxxx x tom, že xxxxxxxx karcinogeny, xxxxx xxxxxx xxxxxxxx xxxxx xxxxxxxx, xxxxx xxxxxx xxxxxx xxxxxx xxxxxxxxxx xxx přímým xxxxxxxxxx XXX.

Xxx xxxx Xxxxxx xxxx, xxxx X.

1.2 XXXXXXXX

Xxxxxxxxxxxx xxxxxxx : xxxxxxxxxx xxxxxxxxx xxxxxxxxxx x xxxxxx xxxxx xxxxxxxxxxxx xxxxxxxxx nebo xxxxx a xxxxxxxx xxxxxxx chromatid.

Chromozomová xxxxxxx : xxxxxxxxxx xxxxxxxxx xxxxxxxxxx x xxxxxx xxxxx xxxx xxxxx x xxxxxxx xxxx xxxxxxxxx x xxxxxx xxxxx.

Xxxxxxxxxxxxxxx : xxxxxx, xxx xxxxxx v xxxxx xx X-xxxx xxxxxxxxx XXX xxxxxxx x mitóze, nýbrž xxxxxxxxx xxxxx X-xxxx. Xxxxxxxxx xxxx xxxxxxxxxx xx 4, 8, 16… xxxxxxxxxxxx.

Xxx : xxxxxxxxxxxx léze xxxxx xxx šířka xxxxx xxxxxxxxxx a x xxxxxxxxx xxxxxxxxx chromatid.

Mitotický xxxxx : podíl xxxxx, které xx xxxxxxxxx v metafázi, x xxxxxxxxx xxxxx xxxxx x populaci; xxxxx xxxxxx xxxxxxxxxxx xxxx populace.

Numerická xxxxxxx : xxxxxxxx xxxxx xxxxxxxxxx xx xxxxxxxxxx xxxxx xxxxxxxxx x xxxxxxxxx xxxx buněk.

Polyploidie : xxxxxxx haploidního xxxxx chromozomových xxx (x), xxxx než xxxxxxxxx (tj. 3 x, 4 x xxx.).

Xxxxxxxxxx xxxxxxx : xxxxxxxxxxxxx pozorovatelné xxxxx xxxxxxxxx xxxxxxxxxx xxx xxxxxxxx xxxxxx ve xxxxxx xxxxxxxx; xxxx xx jako xxxxxx x fragmenty, intrachromozomální xxxx interchromozomální xxxxx.

1.3 XXXXXXXX XXXXXXXX METODY

Buněčné xxxxxxx xxxx xxxxxxxxx xxxxxxxx xxxxx, a xx x metabolickou xxxxxxxx x xxx xx. X předem xxxxxxxxxxx xxxxxxxxxxx xx xxxxxxxx látce se xx xxxxxxxxx xxxxxx xxxxx látka xxxxxxxxxxx xxxxxxxx (xxxx. Xxxxxxxx® xxxx kolchicin), kultury xx xxxxxx, obarví x xxxxxxxxxx chromozomových xxxxxxx xx xxxxxx xxxxxxxxxxxxxx xxxxxxxxxxx buněk.

1.4 XXXXX ZKUŠEBNÍ XXXXXX

1.4.1 Xxxxxxxxx

1.4.1.1 Xxxxx

Xxxxx být xxxxxxx xxxxx buněčné xxxxx, kmeny xxxx xxxxxxxx buněčné xxxxxxx, xxxxxx xxxxxxxx buněčných xxxxx (xxxx. xxxxxxxxxxx xxxxxx xxxxxxxx, xxxxxxxxx xxxxxxxxx krve člověka xxxx xxxxxx xxxxx).

1.4.1.2 Xxxxx x xxxxxxxxxx xxxxxxxx

Xxx xxxxxxxxx kultur xx měla xxx xxxxxxx vhodná xxxxxxxxxx xxxxx a inkubační xxxxxxxx (xxxxxxxxxx nádoby, xxxxxxxxxxx CO2, teplota x xxxxxxx). X xxxxxxxxxxxxxxx xxxxxxxxx xxxxx x xxxxx xx xxxx xxx xxxxxxx xxxxxxxxxxxx xxxxxxxxx xxxxxxx xxxxxxx xxxxx xxxxxxxxxx x xxxx xx xxx xxxxxxxxxxxx, zda xxxxxx kontaminovány xxxxxxxxxxxx; x xxxxxxx xxxxxxxxxxx xx xxxxxx xxx xxxxxxx. Pro xxxxxxx xxxxx x inkubační xxxxxxxx xx xxxx xxx xxxxx xxxxxxxx xxxxx buněčného cyklu.

1.4.1.3 Xxxxxxxx xxxxxx

Xxxxxxxxxxxxx buněčné xxxxx a xxxxx: xxxxx xx xxxxxxx x xxxxxxxxx xxxxxx, xxxxxx xx xx xxxxxxxxxxxx xxxxx x xxxxxx xxxxxxx, xxx xxxxxxxxx xxxxxxxxxx před xxxxxxxxx, x xxxxxxxx xx xxx 37 °X.

Xxxxxxxxx: xxxx xxxxxxxx xxxxxxxxxxxxxxx (xxxx. xxxxxxxxx) xxxx xxxxxxxx xxxxxxxxx xxxxxxxx xxxxxxxx xx xxxxxxx do xxxxxxxxxxxx xxxxx xxxxxxxxxxxx mitogen (xxxx. fytohemaglutinin) x xxxxxxxx se xxx 37 °X.

1.4.1.4 Xxxxxxxxxxx xxxxxxxx

Xxxxx xx xxxx xxx xxxxxxxxx xxxxxxxx xxxxx, x xx x xxxxxxx metabolickou xxxxxxxx x bez xx. Nejčastěji používaným xxxxxxxx xx xxxxxxxxxx xxxxxxxx xxxxxxxxxxxxxxxxxxx frakce (X9) připravená z xxxxx hlodavců xxxxxxxxxx xxxxxxxx xxxxxxxxxxx xxxxxx, xxxx xx Xxxxxxx 1254 (6, 7, 8 x 9), xxxx xxxx xxxxxxxxxxxxx x β-xxxxxxxxxxxx (10, 11 x 12).

Xxxxxxxxxxxxxxxxxxx xxxxxx xx v xxxxxxxx xxxxxxxxxx médiu xxxxxxx xxxxxxxxx x xxxxxxxxxxxxx 1 — 10 % xxx. Xxxx metabolického aktivačního xxxxxxx může xxxxxxx xx xxxxx chemické xxxxx, xxxxx je xxxxxxxx. X xxxxxxxxx xxxxxxxxx xxxx xxx xxxxxx xxxxxx více xxx xxxxx koncentraci xxxxxxxxxxxxxxxxxxx frakce.

Řada xxxxxxxx xxxxxx, xxxxxx xxxxxxxx xxxxxxxxx xxxxxxxxxxxxxx xxxxxxxxx xxxxx exprimujících xxxxxxxxxx xxxxxxxxx xxxxxx, poskytuje xxxxxxxx xxx endogenní xxxxxxxx. Volba xxxxxxxxx xxxxxxxxx xxxxx xx xxxx být vědecky xxxxxxxxxx (např. xxxxxxxxxxx xxxxxxxxx cytochromu X450 xxx xxxxxxxxxxxx xxxxxxxx xxxxx).

1.4.1.5 Xxxxxxxx látka/příprava

Pevné xxxxxxxx xxxxx by xxxx xxx před xxxxxxxx xx xxxxx xxxxxxxxxx nebo xxxxxxxxxxxx xx xxxxxxxx rozpouštědlech xxxx vehikulech x xxxxxxxxx xxxxxxx. Xxxxxxx xxxxxxxx xxxxx xxxxx xxx přidány přímo x testovacím systémům x/xxxx xxxxx xxx xxxx xxxxxxxx xxxxxxx. Xxxx xx xxx xxxxxxx čerstvě xxxxxxxxxx xxxxxxxx xxxxx, xxxxx xxxxx x xxxxxxxx xxxxxxxxxxx xxxxxxx xxxxxxxxxx.

1.4.2 Xxxxxxxx xxxxxxxx

1.4.2.1 Xxxxxxxxxxxx/xxxxxxxxx

Xxxxxxxxxxxx/xxxxxxxxx xx xxxx být xxxx xxxxxxxxx, xx xxxxxxx se zkoušenou xxxxxx, x mělo xx xxx xxxxxxxxxx x xxxxxxxx xxxxx x x aktivitou X9. Xxxx-xx xxxxxxx xxxx xxx známá xxxxxxxxxxxx/xxxxxxxx, xxxx by xxx xxxxxx zařazení xxxxxxxxx údaji x xxxxxx kompatibilitě. Xxxxxxxxxx xx xxxxx xxxxx xxxxxxxx zvážit použití xxxxxxx xxxxxxxxxxxx/xxxxxxx. Xxx xxxxxxxx látek xxxxxxxxx xx xxxx by xxxx být xxxxxxx xxxxxxxxx xxxxxxxxxxxx xxxxxxxxxxxx xxxx. Xxxx xxx xxxxxxxxx přidáním xxxxxxxxxxxx xxxx.

1.4.2.2 Xxxxxxxxx xxxxxxxxxxx

Xxxx xxxxxxxx, xxxxx mají xxx zohledněna xxx xxxxxxxxx xxxxxxxx xxxxxxxxxxx, xxxxx cytotoxicita, rozpustnost x xxxxxxxxxx xxxxxxx x xxxxx xX xxxx xxxxxxxxxx.

Xxxxxxxxxxxx xx xxxx xxx stanovena x metabolickou xxxxxxxx x xxx xx x hlavním xxxxxxxxxxx xx xxxxxxx xxxxxxxx xxxxxxxxxx xxxxxxx xxxxxxxxx x xxxxx, xxxx xxxx xxxxxx konfluence, xxxxx životaschopných xxxxx xxxx xxxxxxxxx xxxxx. Xxxx být výhodné xxxxxxxx xxxxxxxxxxxx a xxxxxxxxxxx x xxxxxxxxxx xxxxxxxxxxx.

Xxxx xx xxx xxxxxxx xxxxxxx tři xxxxxxxxxxxxxx xxxxxxxxxxx. X xxxxxxx cytotoxicity xx xxxx xxxx koncentrace xxxxxxxx rozmezí xxxx xxxxxxxxx xx minimální xxxxxxxxx, xxxxxxxx xxxxxx xxxxxxxxx, xxx obvykle xxxxxxx, že xx xx xxxxxxxxxxx xxxxxx xxxxx xxxx nežli xxxxxxxx 2 až Ö10. V okamžiku xxxxxxx xx měla xxxxxxxx xxxxxxxxxxx xxxxxxxxx xxxxxxxx snížení xxxxxx xxxxxxxxxx, počtu xxxxx xxxx mitotického xxxxxx (xxx o více xxx 50 %). Xxxxxxxxx index xx xxxxx xxxxxxxx měřítkem xxxxxxxxxxxxx xxxx cytostatických xxxxxx x závisí xx xxxx, xxxxx xxxxxxxx xx xxxxxxxx. Xxxxxxxxx index je xxxx xxxxxxxxxx u xxxxxxxxxxx xxxxxx, x xxxxx xxxxx být xxxx xxxxxx stanovení xxxxxxxx xxxxxxx x xxxxxxxxxxx. Xxxxxxxxx o xxxxxxxx xxxxxxxxx xxxxx, xxxxxxxxx xxxxxxxx xxxxxxxxx xxxx (XXX), mohou xxx xxxxxxx xxxx xxxxxxxxx informace. V xxxxxxx XXX xxxx xxx x xxxxxxxx xxxxxxxxx xxxxxxx, x xxx xxxxx usoudit xx xxxxxxxxx xxxxxxxxxx xxxxxxxxxxx, x x xxxx přírůstek průměrné xxxxxxxxx xxxx xxxx xxx xx xxxxxxxx xxxxx xxxxxxxxx xxxxxxxx xxxxxxxx xxxxxxxxxxx xxxxxxx xxxxxxx.

X xxxxxxx relativně xxxxxxxxxxxxxxx xxxxx xx xxxx xxx maximální xxxxxxxx koncentrace 5 μx/xx, 5 xx/xx xxxx 0,01 X, xxxxx toho, která x nich xx xxxxxxxx.

X xxxxxxx xxxxxxxxx xxxxxxxxxxxxx látek, xxxxx xxxxxx xxxxxxx při xxxxxxxxxxxxx xxxxxxx, xxx xx xxxxxx xxxxxxxxxxx, xx xxxx xxx xxxxxxx nejvyšší xxxxx x xxxxxxxxxxx, jež xx nad mezí xxxxxxxxxxxx x konečném xxxxxxxxxxx xxxxx xx xxxxx xxxx aplikace. X určitých xxxxxxxxx (xxxx. projeví-li xx xxxxxxxx xxxxx xxx xxxxxxx koncentracích, než xx rozpustnost) xx xxxxxxxxxx vyzkoušet více xxxxxxxxxxx, xxx xxxxx xxxxxxx xx srážení. Xxxx xxx xxxxxxxx xxxxxxxx rozpustnost na xxxxxxx a xx xxxxx expozice, xxxxx xxxxxxxxxxx v xxxxxxxxxx xxxxxxx xx xxxx x xxxxxxx expozice xxxxx x xxxxxxxx xxxxxxxxxxx xxxxx, séra X9 xxx. Nerozpustnost xxx xxxxxxx xxxxxxxx. Xxxxxxxxx xx xxxxxx xxxxx při xxxxxxxxxxx.

1.4.2.3 Xxxxxxxxx a pozitivní xxxxxxxx

Xxxxxxxx xxxxxxx xxxxxxxxxxx xx xxxx být xxxxxxxxx a xxxxxxxxx xxxxxxxx (kontroly xxxxxxxxxxxx xxxx vehikula). Xxx xxxxxxx xxxxxxxxxxx aktivace xx měla xxx xxx xxxxxxxxx xxxxxxxx xxxxxxx xxxxxxxx xxxxx, xxxxx x xxxxxxxxx xxxxxx vyžaduje aktivaci.

K xxxxxxxxx kontrole xx xxx být použit xxxxx xxxxxxxxx v xxxxxxxxxxx xxxxxxxxxxxxx, xxxxx xxxxxxxx xxxxxxxxx reprodukovatelný x xxxxxxxxxxxxx xxxxxx xxx pozadí, čímž xx xxxxxxx citlivost xxxxxxxxxxx xxxxxxx.

Xxxxxxxxxxx xxxxxxxxxxx xxxxxxx by xxxx xxx zvoleny tak, xxx xxx xxxxxx xxxxxxxx, xxx aby xxx xxxxxx xxxxxxx xxxxx xxxxxx xxxxxxxx xxxxxxxxxxxx xxxxxxxxx. Xxxxxxxx xxxxxxxxxxx a xxxxxxxxxxx xxxxxxx:

Xxxx xxxxxxxxxxx xxxxxxxx

Xxxxx

Xxxxx XXX

Xxxxx xxxxx EINECS

Bez xxxxxx xxxxxxxxxxx aktivace

methyl-methansulfonát

66–27–3

200–625–0

ethyl-methansulfonát

62–50–0

200–536–7

1-ethyl-1-nitrosomočovina

759–73–9

212–072–2

mitomycin X

50–07–7

200–008–6

4-xxxxxxxxxxxxx-1-xxxx

56–57–5

200–281–1

X vnější xxxxxxxxxxxx xxxxxxxx

xxxxx[x]xxxxx

50–32–8

200–028–5

xxxxxxxxxxxxx

50–18–0

200–015–4

xxxxxxxxxxxxx xxxxxxxxxx

6055–19–2

Xxx xxxxxxxxx xxxxxxxx mohou xxx xxxxxxx x xxxx xxxxxx xxxxx. Pro xxxxxxxxx kontrolu by xxxx být xxxxx xxxxx vzato v xxxxx xxxxxxx chemických xxxxx xx xxxxxx xxxxxxxx třídy.

V xxxxxxxx xxxxxxxx xx měly xxx použity negativní xxxxxxxx skládající xx xx samotného xxxxxxxxxxxx xxxx xxxxxxxx v xxxxxxxxxxx médiu x xxxxxxxxxx stejným xxxxxxxx xxxx xxxxxxx. Kromě xxxx xx xxxx xxx xxxxxxxxxxxx kontroly xxxxxxx také tehdy, xxxxxxxxxx-xx xxxxx žádné xxxxxxxxx xxxxx xxxxxxxxxxx, xx zvolené xxxxxxxxxxxx xxxxxxxxxx xxxxx zhoubné xxxx xxxxxxxxx xxxxxx.

1.4.3 Xxxxxx

1.4.3.1 Expozice xxxxxxxx xxxxx

Xxxxxxxxxxxxx xxxxx xx xxxxxxx zkoušené látce xxx za přítomnosti xxxxxxxxxxxxx xxxxxxxxxxx xxxxxxx, xxx xxx něho. Xxxxxxxx lymfocytů by xxxx xxx xxxxxxxx xxx 48 hodin xx xxxxxxxxx xxxxxxxxx.

1.4.3.2 Xxx xxxxxx xxxxxxxxxxx xx xxxx xxx xxxxxxx xxxxxxx xxxxxxxxxx xxxxxxx, a totéž xx důrazně xxxxxxxxxx x kultur pro xxxxxxxxx kontrolu nebo xxxxxxxx xxxxxxxxxxxx. Xxxxxxxx xxx xx xxxxxxx xxxxxxxxxxx xxxxx prokázat (13, 14), xx xxxx xxxxxxxxxxxx xxxxxxxxx xx minimální rozdíl, xxxx xxx xxxxxxxxx xxxxxxx xxxxxx xxxxxxx.

Xxxxxx xxxx těkavé xxxxx xx xxxx xxx xxxxxxxx xxxxxxxx xxxxxxxx, xxxx. x xxxxx xxxxxxxxxx xxxxxxxxxxxx xxxxxxxx (15, 16).

1.4.3.3 Doba xxxxxxx kultur

V xxxxxx xxxxxxxxxxx by xxxx xxx xxxxx xxxxxxxxx xxxxxxxx látce, xxx x xxxxxxxxxxxx xxxxxxxx, xxx bez xx, xx dobu 3 — 6 xxxxx, x xxxx by xxx xxxxxxxx po xxxxxx xxxx xx xxxxxxxx xxxxxxxx, xxxxx xxxxxxxx 1,5xxxxxxx normální xxxxx xxxxxxxxx cyklu (12). Jestliže xxxxx xxxxxx xxxx negativní xxxxxxxx jak x xxxxxxxx, tak bez xxxxxxxx, měl xx xxx xxxxxxxx dodatečný xxxxxxxxxx xxx xxxxxxxx x xxxxxxxxxxxx expozicí xx xx xxxxxx x době, xxxxx xxxxxxxx 1,5násobku xxxxxxxx xxxxx xxxxxxxxx xxxxx. Xxxxxx chemické xxxxx xxx snáze xxxxxxxxx xxx xxxxxx aplikace xxxx xxxxxx delších xxx 1,5xxxxxxx délky xxxxx. Xxxxxxxxx xxxxxxxx xxx xxxxxxxxxxx aktivaci xxxx xxx xxxxxxxxx xxxxxx xx xxxxxxx. X xxxxxxxxx, kdy xx xxxxxxxxxx xxxxxxxxx xxxxxxxxxxx xxxxxxxx xx xxxxxxxx, by xxxx xxx xxxxxx xxxxxxxxxx.

1.4.3.4 Xxxxxxxx xxxxxxxxx pro xxxxxxx xxxxxxxxxx

Xx buněčné xxxxxxx xx xxxxxxx 1-3 xxxxxx xxxx xxxxxxxxx přidá Xxxxxxxx® xxxx kolchicin. Pro xxxxxxxx xxxxxxxxx pro xxxxxxx xxxxxxxxxx xx xxxxx xxxxxxx kultura xxxxxx x zpracovává xxxxxx. Příprava xxxxxxxxx xxx xxxxxxx xxxxxxxxxx xxxxxxxx xxxxxxxxxxxx xxxxx, xxxxxx a obarvení xxxxx.

1.4.3.5 Xxxxxxx

Xxxxxxx preparáty, xxxxxx preparátů xxxxxxxxxxx x xxxxxxxxxxx xxxxxxx, xx xxxx xxx xxxx xxxxxxxx pod xxxxxxxxxxx xxxxxxxxx kódovány. Xxxxxxxx při xxxxxx xxxxx xxxxxxx ke xxxxx xxxxx xxxxx x xxxxxxxx x xx ztrátě xxxxxxxxxx, xxxx by xxxxxxxxxxx xxxxx xxxxxxxxx xxxxxxxxxx x počtu xxxxxx xxxxxxx xxxxxxx ± 2 xxx všechny xxxx xxxxx. Xx xxxxxx koncentraci x xxxxxxxx by xxxx xxx xxxxxxxxx xxxxxxx 200 xxxxx xxxxxxxxxxxxxx xxxxxxxx, xxxxxxxx rovnoměrně xxxxxxxxxxx xxxx xxxxxxxxxx xxxxxxx. Xxxxx xxxxx xxx xxxxxx, je-li xxxxxxxxx xxxxx xxxxx xxxxxxx.

Xxxxxx xx xxxxxx xxxxxxx detekovat strukturní xxxxxxxxxxxx aberace, je xxxxxxxx xxxxxxxxxx xxxxxxxxxxx x xxxxxxxxxxxxxxx, xxxx-xx xxxxxxxxxx.

2. ÚDAJE

2.1 XXXXXXXXXX XXXXXXXX

Xxxxxxxxxxxxxx xxxxxxxxx je xxxxx x mělo xx tedy xxx xxxxxxxxxxx xxxxxxxx buněk xx xxxxxxxxxx xxxxxxxxxxxxx xxxxxxx (xxxxxxxxx) vyjádřené x procentech. Pro xxxxxxxxx x xxxxxxxxxxxxxx xxxxxxx xx měly xxx xxxxxxx různé xxxx xxxxxxxxxxxx xxxxxxxxxxxxxx xxxxxxx x jejich xxxxxx x xxxxxxxx. Xxxx xx zaznamenávají xxxxxxxx x xxxxxxx xx, xxx nezahrnují xx xx celkové xxxxxxxx xxxxxxx.

Xxxx by xxx xxxx zaznamenána xxxxxxxx, xxxxx xxxx xxxxxxxxx xxx xxxxxxxxx xxxxxxxxxxxx x všech xxxxxxxxxxxx xxxxxx x xxxxxxxxxxx xxxxxx x xxxxxxxx xxxxxxxxxxxxx x xxxxxxxxx.

Xxxx xx xxx xxxxxxx údaje pro xxxxxxxxxx kultury. Dále xx xxxx být xxxxxxx xxxxx xxxxxxx xx formě tabulky.

Ověření xxxxx xxxxxxxxx xxxxxxxx xx xxxxxxxxxx. Xxxxxxxxxx xxxxxxxx xx xxxx xxx vyjasněny dalším xxxxxxxxx, xxxxxxx x xxxxxxxx xxxxxxxxxxxxxxxx xxxxxxxx. Xxxxxxxxxx xxxxxxxx xxxxxxxxx xxxxxxxx byla diskutována x xxxx 1.4.3.3. Xxxxx xxxxxxxxx xxxxxx x cílem xxxxxxxx xxxxxx posuzovaných xxxxxxxx xx xxxx xxx xxxxxxx v xxxxxxxxxx xxxxxxxxxxxxx. K xxxxxxxxxx xxxxxx, xxxxx by xxxxx být změněny, xxxxx xxxxxxx koncentrací x xxxxxxxx xxxxxxxxxxx xxxxxxxx.

2.2 HODNOCENÍ X XXXXXXXXXXXX XXXXXXXX

Xxx xxxxxxxxx xxxxxxxxxxx výsledku existuje xxxxxxx xxxxxxxx, xxxx. xxxxxx počtu xxxxx x xxxxxxxxxxxxxx aberacemi x xxxxxxxxxx xx xxxxxxxxxxx, xxxx xxxxxxxxxxxxxxxx xxxxxx tohoto počtu. Xxxxxxxx xx xxxx xxx xxxxxxx xxxxxxxxxx xxxxxxxxx výsledků. Xxx xxxxxxxxx xxxxxxxx zkoušky xxxxx xxx xxxxxxx xxxx xxxxxxx xxxxxxxxxx xxxxxxxxxxx xxxxxx (3, 13). Xxxxxxxxxxx významnost xx neměla xxx xxxxxxx xxxxxxxxx xxxxxxxx xxx xxxxxxxxx xxxxxxx.

Xxxxxx xxxxx xxxxxxxxxxx xxxxx xxxx xxxxxxxx, xx xxxxxxxx xxxxx má xxxxxxxxx potlačit xxxxxxxxx xxxxxxx a xxxxxxxxx xxxxxxxxx xxxxxxxxxxxx aberace. Xxxxxx xxxxx xxxxx x endoreduplikovanými chromozomy xxxx xxxxxxxx, xx xxxxxxxx látka xx xxxxxxxxx potlačit xxxxxxxx xxxxxxxxx cyklu (17, 18).

Xxxxxxxx xxxxx, xxxxx xxxxxxxx xxxxxxxxx xxxx xxxxxxx xxxxxxxx, se x xxxxx xxxxxxx xxxxxxxx xx xxxxxxxxxxx.

Xxxxxx xxxxxxx xxxxxxxxxxx xxxxxxxx xxxxx xxxxxxxxx xxxx xxxxxxxxx výsledky, x xxxxxxxxxxx případech xxxxxxxx xxxxxx xxxxx xxxxxxxx xxxxxxx výrok x xxxxxxxx xxxxxxxx xxxxx. Xxxxxxxx xxxxx zůstat xxxxxxxxxx nebo sporné xxx xxxxxx xx xx, xxxxxxxx xx xxxxxxxxxx xxxxxxxx.

Xxxxxxxxx xxxxxxxx xx xxxxxxx xx xxxxxxxxxxxx xxxxxxx in xxxxx xxxxxxxxx, že xxxxxxxx xxxxx indukuje x xxxxxxxxxxxxx xxxxxxxxxxx xxxxxxx xxxxx strukturní xxxxxxxxxxxx xxxxxxx. Negativní xxxxxxxx xxxxxxxxx, že xxxxxxxx látka xx xxxxxxxx xxxxxxx xxxxxxxxxx x xxxxxxxxxxxxx xxxxxxxxxxx xxxxxxx xxxxx xxxxxxxxxx xxxxxxxxxxxx xxxxxxx.

3. XXXXXX

XXXXXXXX X ZKOUŠCE

Protokol x xxxxxxx xxxx obsahovat xxxx xxxxxxxxx:

Xxxxxxxxxxxx/xxxxxxxxx:

- zdůvodnění xxxxx xxxxxxxx,

- xxxxxxxxxxx x xxxxxxx xxxxxxxx xxxxx x xxxxxxxxxxxx/xxxxxxxx, xx-xx xxxxx.

Xxxxx:

- xxx x xxxxx buněk,

- xxxxxxxxxx xxxxxxxxx x xxxxxxxx xxxxxxxxx typu xxxxx,

- xxxxxxxxx xxxxxxxxxxxx xxxxxxxxxxx,

- informace o xxxxx xxxxxxxxx xxxxx,

- xxxxxxx dárce krve, xxx byla xxxxxxx xxxx xxxx xxxx xxxxxxxxxx lymfocyty, xxxxxxx xxxxxxx,

- případně počet xxxxxx,

- xxxxxxxx xxxxxx xxxxxxxxx buněčné xxxxxxx,

- xxxxxxx hodnota počtu xxxxxxxxxx.

Xxxxxxxx xxxxxxxx:

- identifikace xxxxx xxxxxxxxxxx metafázi, xxxx xxxxxxxxxxx a xxxxx expozice xxxxx,

- xxxxxxxxxx výběru xxxxxxxxxxx x xxxxx xxxxxx, xxxxxx xxxx. údajů x xxxxxxxxxxxx x xxxxxx xxxxxxxxxxxx, xxxx-xx x xxxxxxxxx,

- složení xxxxx, xxxxxxxx koncentrace XX2,

- koncentrace zkoušené xxxxx,

- objem xxxxxxxx x xxxxxxx zkoušené xxxxx,

- inkubační teplota,

- xxxxxxxxx doba,

- xxxxx xxxxxxxx,

- xxxxxxxx hustota xxxxx při xxxxxxxx,

- xxx x xxxxxxx xxxxxxxxx metabolického xxxxxxxxxxx xxxxxxx, xxxxxx xxxxxxxx xxxxxxxxxxxxx,

- xxxxxxxxx x xxxxxxxxx xxxxxxxx,

- xxxxxx xxxxxxxx preparátů,

- xxxxxxxx xxxxxxxxx aberací,

- xxxxx xxxxxxxxxxxxx xxxxxxxx,

- xxxxxx xxxxxxxxx xxxxxxxx,

- xxxxxxxx xxxxxxxxxxx studie xx xxxxxxxxx, negativní xxxx xxxxxxxxxxx.

Xxxxxxxx:

- xxxxxx xxxxxxxx, xxxx. xxxxxx xxxxxxxxxx, xxxxx o buněčném xxxxx, xxxxx xxxxx, xxxxxxxxx xxxxx,

- známky xxxxxxx,

- údaje o xX x xxxxxxxxxx xxxxxxxxxxx xxxxx, xxxxx xxxx stanoveny,

- xxxxxxxx xxxxxxx, včetně xxxx,

- xxxxx xxxxx s xxxxxxxxxxxxxx aberacemi x xxxx xxxxxxx zvlášť xxx xxxxxx xxxxxxxxxxx x xxxxxxxxx xxxxxxx,

- xxxxx xxxxxxx, xxxxx xxxx pozorovány,

- xxxxx xxxxxxxx xxxxxxxxx xxxxxxxx xx xxxxx,

- xxxxxxxx xxxxxxxxxxx analýzy,

- údaje x xxxxxxxx xxxxxxxxx (xxxxxxxxxxxx/xxxxxxxxx) x xxxxxxxxx xxxxxxxx,

- dosavadní údaje x negativní (xxxxxxxxxxxx/xxxxxxxxx) x xxxxxxxxx xxxxxxxx x xxxxxxxxx, xxxxxxxxx xxxxxxxxx x xxxxxxxxxxxx xxxxxxxxxx.

Xxxxxx výsledků.

Závěry.

4. LITERATURA

1) Xxxxx, X. X. (1976), Xxxxxxxxxxx Xxxxxxx xxx Xxxxxxxxx Xxxxxxxx Xxxxxxxx, xx: Chemical Xxxxxxxx, Xxxxxxxxxx xxx Xxxxxxx xxx xxxxx Xxxxxxxxx, Xxx. 4, Xxxxxxxxxx, X. (xx) Xxxxxx Xxxxx, Xxx Xxxx xxx Xxxxxx, 1-29.

2) Xxxxxxxx, M. Xx., Xxxxxx, X. (1985), Xxx Xx xxxxx Xxxxxxxxxxx Xxxxxxxxxx Xxxx Using Chinese Xxxxxxx Xxxx (CHL) Xxxxxxxxxx Xxxxx xx Xxxxxxx, xx: Progress xx Xxxxxxxxxx Research, Xxx. 5, Ashby, X. et xx., (xxx) Xxxxxxxx Xxxxxxx Xxxxxxxxxx, Amsterdam-New Xxxx-Xxxxxx, 427-432.

3) Galloway, X. X., Armstrong, X. X., Xxxxxx, X., Xxxxxx, S., Brown, X., Xxxxxx, C., Xxxxx, X. X., Xxxxxxxx, X., Xxxxx, X., Xxx, X., Xxxxx, J., Xxxxxxxx, X. X., Xxxxxxx, X. X., Xxxxxxxx, X., Xxxxxx E. (1978), Xxxxxxxxxx aberration xxx xxxxxx xxxxxxxxx xxxxxxxxx in Xxxxxxx xxxxxxx xxxxx xxxxx: Xxxxxxxxxx xx 108 xxxxxxxxx, Xxxxxxx. Molec. Xxxxxxx. 10 (suppl. 10), 1-175.

4) Xxxxx, X., Xxxxxxxx, X. X., Xxxxxxxx, X. X., Xxxxxxxx, M. Xx., Xxxxxxx, X., Xxxxx, X., Xxxx, X. X. (1991), Xxxxxxxxxxxx xxxxx Xxxxxxx Xxxxxxx Conditions. X xxxxxx from XXXXXX Xxxx Xxxxx 9, Xxxxxxxxxx Res., 257, 147-204.

5) Xxxxxx, X., Xxxxxx, X., Fukuda, X., Xxxxxxx, X., (1992), Clastogenicity of xxx xX xx Xxxxxxx Xxxxxxxx Xxxxxxxxx Xxxxx, Xxxxxxxxxx Xxx., 268, 297-305.

6) Xxxx, X. N., XxXxxx, X., Yamasaki, X. (1975), Xxxxxxx for Xxxxxxxxx Carcinogens and Xxxxxxxx xxxx xxx Xxxxxxxxxx/Xxxxxxxxx Xxxxxxxxx Xxxxxxxxxxxx Xxxx, Xxxxxxxx Xxx., 31, 347-364.

7) Maron, X. X., Xxxx, X. X. (1983), Xxxxxxx Methods xxx xxx Xxxxxxxxxx Mutagenicity Xxxx, Xxxxxxxxxx Xxx., 113, 173-215.

8) Xxxxxxxxx, X. T., Xxxxx, X. X., van Xxxx, X. X. X., Meijers, M., xx Xxxxx, X. (1976), Cytogenetic Xxxxxxx xx Xxxxxxx/Xxxxxxxxxxx xxxxx Xxxxxxxxxx xx x Xxxxxxxxxxx Xxxxxx Xx xxxxx, X. Xxxxxxxxx xx Xxxxxxxxxx Aberrations xxx Sister Xxxxxxxxx Xxxxxxxx xx Xxxxxxxxxxxxxxxxxx (XXX) and Dimethylnitrosamine (XXX) in XXX Xxxxx xx xxx Xxxxxxxx xx Xxx-Xxxxx Xxxxxxxxxx, Xxxxxxxxxx Xxx., 37, 83-90.

9) Matsuoka, X., Hayashi, X., Xxxxxxxx, X. Xx. (1979), Chromozomal Xxxxxxxxxx Xxxxx xx 29 Xxxxxxxxx Combined xxxx X9 Xxx Xx xxxxx, Mutation Xxx., 66, 277-290.

10) Elliot, X. M., Xxxxxx, X. X., Xxxxxxx, X. X., Xxxxxxxxx, X. G., Xxxxxx, X. G., Mackay, X. X., Xxxx, X. C. (1992), Xxxxxx xx XX Xxxxxxxxxxxxx Xxxxxxx Xxxxxxx Xxxxxxx Xxxxx. Alternative xx Xxxxxxx 1254-induced X9 in Xx xxxxx Xxxxxxxxxxxx Xxxxxx, Xxxxxxxxxxx, 7, 175-177.

11) Xxxxxxxxxx, X., Sawamura, X., Xxxx, X., Xxxxxxxx, X. (1976), X. Safe Xxxxxxxxxx xxx Xxxxxxxxxxxxxxx Biphenyls x. s. xx Xxxxxxx xx Metabolic Xxxxxxxxxx Systems, in: xx Xxxxxx, X. X., Fouts, J. X. Xxxx, X. X., Xxxxxxx, R. X. (xxx), In xxxxx Xxxxxxxxx Activation xx Mutagenesis Xxxxxxx, Xxxxxxxx, North-Holland, 85-88.

12) Xxxxxxxx, X. X., Xxxxxxx, X. X., Xxxxxxxx, M. Xx., Xxxxx, X. L., Xxxxxxxx, X. X., Xxxxxx, T., Xxxxxxx, X., Sofumi, T. (1994), Xxxxxx from Xxxxxxx Group xx Xx xxxxx Xxxxx xxx Xxxxxxxxxxx Xxxxxxxxxxx, Xxxxxxxxxx Res., 312, 241-261.

13) Xxxxxxxxxx, X., Xxxxxxxx, X. X., Xxxxx, X. A., Xxxxxxxx, X., Chanter, X. X., Phillips, X. (1989), Analysis xx Data from Xx vitro Cytogenetic Xxxxxx, in: Xxxxxxxxxxx Xxxxxxxxxx xx Mutagenicity Xxxx Xxxx, Xxxxxxxx, X. J., (xx) Xxxxxxxxx Xxxxxxxxxx Xxxxx, Xxxxxxxxx, 141-154.

14) Xxxxx, X. X., Xxxxxxxx, X. M. (1994), Xxxxxxxxx Flasks xxx xxx Xxxxxxxxx xxx Xx xxxxx Xxxxxxxxxx Xxxxxxxxxx Xxxxxx xx XXX Xxxxx, Xxxxxxxxxx Xxx., 312, 139-149.

15) Xxxxx, D. X., Xxxxxx, F. C., XxXxxxx, K. X. (1982), XXX/XXXXX Xxxxxxxx Xxxxx: Xxxxxxxxxx xx Xxxxx and Xxxxxxxx Xxxxxxx, xx: Xxxx, X. R., Costa, X. X., Schaich, X. X. (xxx), Xxxxxxxxx Xxxxxxx of Xxxxxxxx Xxxxxx, Xxx Xxxx, Xxxxxx, 91-103.

16) Xxxxxx, X. O., Xxxxxx, X. X., Xx, X. X., Xxxxxx, A. L. (1983), Xxxxxxxxxx of xx Xxxxxxxx Xxxxxx Xxxxx Cells Grown xx Xxxxxxxx Xxxx xxx Xxxxxxxxx Highly Xxxxxxxx Xxxxxxxx xx xxx CHO/HGPRT Mutation Xxxxx, Environmental Mutagen., 5, 795-801.

17) Xxxxx-Xxxxx, X. (1983), Xxxxxxxxxxxxxxxxx xx Xxxxxxx xxxxxxx xxxxx xxxxxx xxxxx-xxxxxxxxx xxxxxxx G2 arrest, Xxxxxxxxxx Xxx., 119, 403-413.

18) Xxxxx, X., Xxxxxx, X., Trosko, X. X. (1983), Xxxxxxxxxxx-xxxxxxx xxxxxxxxxxxxxxxxx xx Xxxxxxx xxxxxxx xxxxx, Xxxxxx Xxx., 43, 1362-1364."

XXXXXXX 4B

"B.11 XXXXXXXXXX–XXXXXXX XX XXXXXXXXXXXX XXXXXXX X XXXXXXX XXXXXX XXXXX XXXXX XX XXXX

1. XXXXXX

Xxxx metoda xx xxxxxxxx xxxxxx XXXX TG 475 — Xxxxxxx xx xxxxxxxxxxxx aberace v xxxxxxx xxxxxx xxxxx xxxxx (1997).

1.1 XXXX

Xxxxxxx xx xxxxxxxxxxxx xxxxxxx x savců in xxxx xx používána xxx detekci xxxxxxxxxxxx xxxxxxxxxxxxxx xxxxxxx xxxxxxxxxxxx xxxxxxxxx xxxxxx x xxxxxxx xxxxxx dřeně xxxxx, xxxxxxx xxxxxxxx (1, 2, 3, 4). Xxxxxxxxx se xxx xxxx strukturních xxxxxxx — chromozomové x chromatidové. Xxxxxx xxxxxxxxxxx xxxx xxxxxxxx, xx xxxxxxxx xxxxx xx schopnost indukovat xxxxxxxxx aberace. V xxxxxxx většiny chemických xxxxxxxx jsou indukované xxxxxxx xxxxxxxxxxxxxx typu, xxxxx xxxxxxxxxxxx xxxxxxx xx xxxxxx vyskytují. Xxxxxxxxxxxx xxxxxx x xxxxxxxxxxx xxxx jsou xxxxxxxx xxxxx xxxxxxxxx xxxxxxxxxxx xxxxxx u xxxxxxx a xxxxxxxx xxxxx důkazů x xxx, xx xxxxxxxxxxxx xxxxxx a xxxxxxxxxxx xxxx způsobující xxxxx x onkogenech x x genech xxxxxxxxxxx xxxxx tlumících xxxxxx, xxxx xxxxx xx xxxxxxx rakoviny x xxxxxxx x v xxxxxxxxxxxxxxxx xxxxxxxxx.

Xxx xxxx xxxxxxx xxxx xxxxxxx xxxxxxxxx xxxxxxxx. Cílovou xxxxx je x xxxx zkoušce xxxxxx xxxx, xxxxxxxx xx xxxxxx vaskularizovanou xxxxx x obsahuje xxxxxxxx xxxxx x xxxxxxx xxxxxx, xxxxx xx xxxxxx izolují a xxxxxxxxxxxx. Xxxx xxxxx x xxxxxx tkáně xxxxxx xxxxxxxxx xxxx xxxxxx.

Xxxx xxxxxxx xx xxxxxxxxxxxx xxxxxxx je xxxxxxx xxxxxx k xxxxxxxxx nebezpečí xxxxxxxxxx, xxxxx xxxxxxxx zohlednit xxxxxxx xxxxxxxxxxx xx xxxx, xxxxxxxxxxxxxxx a xxxxxxx reparace XXX, xxxxxxx xx xxxxx x xxxxxxx druhů x xxxxx xxxxx. Xxxxxxx xx vivo xx xxxxxx xxxxxxxx xxx xxxxx xxxxxx xxxxxxxxxxx účinků xxxxxxxxxx xxxxxxxx xx xxxxx.

Xxxxxxxx xxxxxxxx důkaz x xxx, xx xx xxxxxxxx xxxxx xxxx xxxxxxxxx metabolity xxxxxxxxxx xx xxxxxx xxxxx, xxxx vhodné xxxx xxxxxxx xxxxxx.

Xxx také Xxxxxx xxxx, xxxx X.

1.2 XXXXXXXX

Xxxxxxxxxxxx xxxxxxx : strukturní xxxxxxxxx xxxxxxxxxx x podobě xxxxx xxxxxxxxxxxx xxxxxxxxx xxxx zlomu x xxxxxxxx xxxxxxx xxxxxxxxx.

Xxxxxxxxxxxx xxxxxxx : xxxxxxxxxx xxxxxxxxx chromozomu x xxxxxx xxxxx xxxx xxxxx a spojení xxxx chromatid v xxxxxx xxxxx.

Xxxxxxxxxxxxxxx : xxxxxx, xxx xxxxxx x xxxxx xx X-xxxx xxxxxxxxx XXX xxxxxxx x mitóze, xxxxx xxxxxxxxx další X-xxxx. Výsledkem jsou xxxxxxxxxx xx 4, 8, 16,… xxxxxxxxxxxx.

Xxx : achromatická léze xxxxx než xxxxx xxxxxxx chromatidu x x minimální odchylkou xxxxxxxxx.

Xxxxxxxxx aberace : xxxxxxxx xxxxx chromozomů xx xxxxxxxx xxxxxxx xxxxxxx x xxxxxxxxx xxxxx.

Xxxxxxxxxxx : xxxxxxx xxxxxxxxxxx xxxxx xxxxxxxxxxxxxx xxx (n), xxxx xxx xxxxxxxxx (xx. 3 x, 4 x xxx.).

Xxxxxxxxxx aberace : xxxxxxxxxxxxx pozorovatelné xxxxx xxxxxxxxx xxxxxxxxxx xxx xxxxxxxx xxxxxx xx xxxxxx xxxxxxxx; xxxx se xxxx xxxxxx a xxxxxxxxx, xxxxxxxxxxxxxxxxxx xxxx interchromozomální xxxxx.

1.3 XXXXXXXX XXXXXXXX XXXXXX

Xxxxxxx xxxx xxxxxxxxx xxxxxxxx xxxxx vhodným xxxxxxxx x ve xxxxxxx okamžiku xx xxxxxxxx xx xxxxxx. Xxxx xxxxxxxxx se xxxxxxxx xxxx xxxxx xxxxxxxxxxx xxxxxxxx (xxxx. xxxxxxxxx xxxx Colcemid®). X xxxxx kostní xxxxx se xxxx xxxxxxxx xxxxxxxxx xxxxxxxxxx, xxxxxx xx x xxxxxxxxx se chromozomové xxxxxxx buněk x xxxxxxxx.

1.4 POPIS XXXXXXXX XXXXXX

1.4.1 Xxxxxxxxx

1.4.1.1 Výběr xxxxx zvířete

Běžně je xxxxxxxx xxxxxx, xxx x xxxxxx čínský, xxxxxx lze xxxxxx xxxxxxxx xxxxxx xxxxx xxxx. Xxxx xx xxx použity xxxxx xxxxxxx xxxxxxxxxxx xxxxx xxxxxxx xxxxxxxx pohlavně xxxxxxxxx xxxxxx. V xxxxxxxx xxxxxxxx xxxxxx xx xxxx xxx xxxxxxxx v xxxxxxxxx xxxxxx minimální a xxxxxx by x xxxx xxxxxxx xxxxxxxxx ± 20 % xxxxxxx xxxxxxx xxxxxxxxx.

1.4.1.2 Xxxxxxxx xxxxx x xxxxxx

Xxxxx xxxxxx xxxxxxxx xxxxx obecného xxxxx x xxxxx X, xxxxxxx xx mělo xxx dosaženo vlhkosti xxxxxxx 50 – 60 %.

1.4.1.3 Xxxxxxxx xxxxxx

Xxxxxx xxxxx pohlavně xxxxxxx xxxxxxx xx xxxxxxxx xxxxxxx xxxxxxx xx xxxxxxxxx xxxxxxx x xxxxxxx, xxxxx xx xxxxxxx xxxxxxxx xxxxx. Klece by xxxx xxx xxxxxxxxxx xxx, xxx byl xxxx xxxxxx xxxxxx xxxxxxxxxxxxx. Xxxxxxx xx xxxxxxxxxxx xxxxxxxxxxxx. Xxxxxxx xx x xxxxxxxxxxxxx xxxxxxxxxx alespoň xxx xxx xxxxxxxxxxxxx.

1.4.1.4 Xxxxxxxx xxxxx

Xxxxx xxxxxxxx xxxxx xx xxxx být xxxx xxxxxxxx xxxxxxxx xxxxxxxxxx xxxx xxxxxxxxxxxx xx xxxxxxxx xxxxxxxxxxxxxx xxxx xxxxxxxxxx a xxxxxxxxx zředěny. Xxxxxxx xxxxxxxx xxxxx xxxxx xxx xxxxxxxx přímo xxxx mohou xxx xxxx xxxxxxx xxxxxxx. Xxxx xx být xxxxxxx čerstvě xxxxxxxxxx xxxxxxxx xxxxxxxx látky, xxxxx údaje o xxxxxxxx xxxxxxxxxxx možnost xxxxxxxxxx.

1.4.2 Zkušební podmínky

1.4.2.1 Xxxxxxxxxxxx/xxxxxxxxx

Xxxxxxxxxxxx/xxxxxxxxx xx nemělo xxx xxx použitých xxxxxxxx xxxxx toxické xxxxxx x xxxx xx xxx xxxxxxxxx xxxxxxxxx, xx xxxxxxx xx xxxxxxxxx xxxxxx. Xxxx-xx xxxxxxx xxxx xxx xxxxx xxxxxxxxxxxx/xxxxxxxx, xxxx by xxx xxxxxx zařazení xxxxxxxxx xxxxx o xxxxxx xxxxxxxxxxxxx. Xxxxxxxxxx xx xxxxx xxxxx nejdříve xxxxxx xxxxxxx xxxxxxx xxxxxxxxxxxx/xxxxxxx.

1.4.2.2 Kontroly

Součástí xxxxxxx xxxxxxxxxxx by xxxx xxx xxxxxxxxx a xxxxxxxxx (xxxxxxxxxxxx/xxxxxxxxx) xxxxxxxx xxx xxx xxxxxxx. X výjimkou xxxxxxxx xxxxxxxx látky xx xxxx zvířata xxxxxxxxx xxxxxxx podstoupit xxxxxxxxx xxxxxx jako zvířata xx xxxxxxxxx, x xxxxx dojde x xxxxxxxx.

Xxxxxxxxx xxxxxxxx xx xxxx poskytovat strukturní xxxxxxx in xxxx xxx xxxxxxxxxxx xxxxxxxx, x nichž xx xxxxxxx, že xxxxxxxxx xxxxxxxxxxxxx xxxxxx xxx xxxxxx. Dávky xxxxxxxxx xxxxxxxx xx xxxx xxx zvoleny xxx, xxx byl účinek xxxxxxxx, ale xxx xxx odečtu xxxxxxx xxxxx xxxxxx xxxxxxxx xxxxxxxxxxxx xxxxxxxxx. Xx xxxxxxxxxx, xxx xxxx xxxxxxxxx kontrola xxxxxxxx xxxxx xxxxxxxx xxx xxxxxxxx xxxxx a xxx byl xxxxx x xxxxx xxxxxxx xxxxxxxx jen xxxxxx. Xxx xxxxxxxxx kontrolu xxxxx být xxxxxxx xxxxxxxx látky ze xxxxxx chemické xxxxx, xxxx-xx x xxxxxxxxx. Xxxxxxxx xxxxx pro xxxxxxxxx xxxxxxxx:

Xxxxx

Xxxxx CAS

Číslo xxxxx XXXXXX

xxxxx-xxxxxxxxxxxxxx

62–50–0

200–536–7

1-xxxxx-1-xxxxxxxxxxxxxxx

759–73–9

212–072–2

xxxxxxxxx C

50–07–7

200–008–6

cyklofosfamid

50–18–0

200–015–4

cyklofosfamid xxxxxxxxxx

6055–19–2

2,4,6-xxxx(xxxxxxxx-1-xx)- 1,3,5-xxxxxxx

51–18–3

200–083–5

X okamžiku xxxxxxx odběru xx xxx xxx proveden xxxxx u negativních xxxxxxx, jimž xx xxxxxxxxxx pouze xxxxxxxxxxxx xxxx xxxxxxxxx a xxx jinak podstupují xxxxxx xxxxxx xxxx xxxxxxxxxx xxxxxxx, xxxxx xxxxxx x xxxxxxxxxxx xxxxxxxxxxx xxxxx x xxxxxxxxx přijatelné xxxxx x xxxxxxxxxxx xxxxxx x četnosti xxxxx x chromozomovými xxxxxxxxx. Xxxxxxx-xx xx xxx xxxxxxxxx xxxxxxxx jeden xxxxx, je xxxxxxxxxxxxx xxxxxxxxx doba xxxxxxx xxxxxx. Xxxxx xxxx xx xxxx být xxxxxxxxxxxx xxxxxxxx xxxxxxx xxxx xxxxx, xxxxxxxxxx-xx xxxxx kontrolní xxxxx xxxxxxxxxxx, že xxxxxxx xxxxxxxxxxxx/xxxxxxxxx nevyvolává xxxxx xxxxxxx xxxx xxxxxxxxx xxxxxx.

1.5 POSTUP

1.5.1 Počet x xxxxxxx xxxxxx

Xxxxx xxxxxxxxxx x xxxxxxxxx xxxxxxx se xxxxxx x xxxxxxx xxxx xxxxxxxxxxxxxxxx xxxxxx pro xxxxx xxxxxxx. Xxxxxxxx xxxx x xxxx xxxxxx x xxxxxxxxx xxxxx xx xxxxxx xx xxxxxxx xxxxxx x xx použití xxxxxxxx xxxxxxx xxxxxxxx, xxx xxxxxxxxx, xx xxxxxxxxxx xxxx pohlavími xxxxxx x toxicitě, xxxx xxxxxxxxxxx xxxxxxxx xxxxxxx xxxxxxx. Je-li xxxxxxxx xxxxxxx xxxxxxxxxx xxx xxxxxx pohlaví, xxxx xx xxxx xxxxxxxxx x některých xxxxxxxxxxxxxxx látek, xxxx xx xxx xxxxxxx xxxxxxxxx xx xxxxxxx xxxxxxxxxxxxxx xxxxxxx.

1.5.2 Xxxx xxxxxxxx

Xxxxxxxx xxxxx by xxxx xxx xxxxx xxxxx podávány jednorázově. Xxxxxxxx xxxxx mohou xxx podávány xxxx xx xxxx xxxxxxx, xxx. dvě xxxxx x týž xxx x xxxxxxx xx xxxx xxx několika xxxxx, xxx xxxx xxxxxxxxx xxxxxxxx xxxxxxx xxxxxx materiálu. Xxxx xxxxxx podávání xx xxxx xxx vědecky xxxxxxxxxx.

Xxxxxx xx xxxx xxx xxxxxxxx xx xxxx xxxxxxx intervalech xx xxxxxxxx xxxxxx x jednom dni. X hlodavců xx xxxxx xxxxxxx po xxxxxx xxxx od xxxxxxxx, xxxxx odpovídá 1,5xxxxxxx xxxxxxxx xxxxx xxxxxxxxx xxxxx (xxxx xxxx obvykle 12 — 18 x). Xxxxxxxx doba xxxxxxxx xxx xxxxxx x xxxxxxxxxxxx zkoušené xxxxx x rovněž xxx xxxxxx xx xxxxxxxx xxxxxxxxx cyklu xxxx xxx xxxx xx xxxxxxxxx xxxxxxx pro xxxxxxxxx xxxxxxxxxxxxxx aberací, xxxxxxxxxx se xxxxxxx xxxxx xxxxx xx 24 h xx xxxxxxx xxxxxx. Je-li xxxxxxxx rozložena do xxxx xxx xxxxxxx xxx, xxx xx xxx xxxxx xxxxxxxx xx xxxxxx xxxx xx xxxxxxxx aplikace, xxxxx xxxxxxxx 1,5násobku xxxxxxxx xxxxx buněčného xxxxx.

Xxxx xxxxxxxxx se xxxxxxxx xxxxxxxxxxxxxxxxx podá xxxxxx dávka xxxxx xxxxxxxxxxx xxxxxxxx (xxxx. Xxxxxxxx® xxxx xxxxxxxxx). Xxxx se po xxxxxx xxxx xxxxxxx x xxxxxx odběr. X xxxx xx xxxx doba přibližně 3 — 5 x; u xxxxxx xxxxxxxx xx xxxx xxxx přibližně 4 — 5 x. X xxxxxx xxxxx xx xxxxxxxx xxxxx x xxxxxxxxx xx xx xxxxxxxxxxxx xxxxxxx.

1.5.3 Xxxxxxxxx

Xxxxxxx-xx xx xxxxx xxxxxxxxxxx vhodných dostupných xxxxx xxxxxx pro xxxxxxxx xxxxxxx xxxxx, xxxx xx být xxxxxxxxx xx xxxxxx xxxxxxxxxx, xx xxxxxxx xxxxxx, kmenem, xxxxxxxx x xx xxxxxxxx xxxxxx expozice, jež xx použijí x xxxxxx xxxxxx (5). X xxxxxxx xxxxxxxx xx xxx xxxxx xxxxx použijí xxx xxxxxx xxxxx. Tyto xxxxxx xxxxx xx xxxx xxxxxxxx xxxxxxx xxxx maximální a xxxxxxxxx toxicitou, xxxxxxxx xxxxxx toxicitou. Xxx xxxxxxxxx xxxxxx xxxxx, xxxx xxxx xxxxxxx xxxxx nejvyšší xxxxx. Xxxxxxxx dávka xx xxxxxxxxxx xxxx xxxxx xxxxxxxxxxxx takové známky xxxxxxxx, že xxxxx xxxxx xx vedly xxx xxxxxxx režimu xxxxxxxxx podle xxxxxxxxx x xxxxxxxx. Xxxxx xx xxxxxxxxxxx biologickou xxxxxxxxx při nízkých xxxxxxxxxxx xxxxxxx (např. xxxxxxx a xxxxxxxx) xxxxxx xxxxxxxxx xxxxxxxxx xxxxx xxxxxxxxx a xxxx xx xxx xxxxxxxxx xxxxxx xx xxxxxxx. Xxxxxxxx xxxxx xxxx xxx xxxx xxxxxxxxxx xxxx dávka xxxxxxxxxxxx x kostní xxxxx xxxxxxx xxxxxx xxxxxxxx (xxxx. xxxx xxx 50 % xxxxxxx mitotického indexu).

1.5.4 Xxxxxxx xxxxxxx

Xxxxxxxx xxxxxxx x xxxxxx xxxxxx xxxxxxx 2000 xx/xx xxxxxxx xxxxxxxxx xxxxxxx xxxxxxxxxxx xxxx xx xxxx dávkách x xxxxxx xxx xxxxxxxxxx xxxxx xxxxxxxxxxxxx xxxxxxx xxxxxx x xxxx-xx xx základě xxxxx x xxxxxxx, které xxxx podobnou strukturu, xxxxxxxxx genotoxicita, xxxxxxxxxx xx xxxxx studie xx xxxxx xxxxxxxx xxxxx za nezbytnou. X déle trvajících xxxxxx xx xxxxxxx xxxxxx xxx 14xxxxx xxxxxxxx 2000 xx/xx xxxxxxx xxxxxxxxx/xxx a xxx xxxxx než 14xxxxx xxxxxxxx xx xxxxxxx dávkou 1000 xx/xx xxxxxxx xxxxxxxxx/xxx. Xxxxxxxxx expozice xxxxxxx xxxx xxxxxxxx xxxxxxx xxxxxx v limitní xxxxxxx xxxxx xxxxxx xxxxx.

1.5.5 Xxxxxxxx xxxxx

Xxxxxxxx xxxxx xx obvykle xxxxxx nitrožaludečně, xxxxxxxxx xxxxxx xxxx xxxxxxx xxxxxxxxx kanylou, nebo xxxxxxxxxxxxxxxxx injekcí. Xxxx xxxxxxx podávání xxxx x xxxxxxxxxxxx xxxxxxxxx xxxxxxxxxx. Xxxxxxxxx xxxxx xxxxxxxx, xxxxx xxxx xxx xxxxxxxx xxxxx xxxxxxxxxxxxxx nebo xxxxxxxx, xxxxxx xx velikosti xxxxxxxxxxx xxxxxxx. Xxxxx xx xxxxx xxxxxxxxx 2 xx/100 x xxxxxxx xxxxxxxxx. Xxxxxxx xxxxxxx xxxxxx, xxx xx uvedený objem, xxxx xxx zdůvodněno. Xx xx xxxxxxxx x xxxxxx xxxxx, xxxxx xxxxxxx xxx xxxxxxx xxxxxxxxxxxxx vykazují xxxxxxxx účinky, xx xxxx xxx xxxxxxxxxxx xxxxxxxxxx xxxxxx xxxxxxxxxxxxxx xxxxxxxxxx xxxxxxxxxxx xxxxxxxxxxx xxxxxxxxxx xxxxx xxx xxxxx úrovních dávky.

1.5.6 Xxxxxxxx xxxxxxxxx xxx xxxxxxx chromozomů

Ihned xx xxxxxxxx xx xxxxxxx xxxxxx dřeň, hypotonizuje xx x xxxxxx. Xxxxx xx nanesou xx podložní xxxxxxx x obarví xx.

1.5.7 Xxxxxxx

Xxxx xxxxxxx xxxxxxxxxxxx xx xxx xxx x xxxxx xxxxxxxxxxxx xxxxxx (xxxxxx xxxxxxxxxxx xxxxxxx) x x xxxxxxxxxxxxxx xxxxxx xxx xxxxxxxxx kontrolu stanoven xxxxxxxxx xxxxx, a xx xxxxxxx u 1000 xxxxx na xxxxx zvíře.

U xxxxxxx xxxxxxx xx xxxx xxx xxxxxxxxxxx alespoň 100 buněk. Xxxxx xxxxx lze xxxxxx, xx-xx xxxxxxxxx xxxxx xxxxx xxxxxxx. Xxxxxxx xxxxxxxxx pozitivních x xxxxxxxxxxx xxxxxxx by xxxx být xxxx xxxxxxxxxxxxxx analýzou nezávisle xxxxxxxx. Xxxxxxx xxx xxxxxx často dochází xx chromozomálním zlomům xxxx xx ztrátě xxxxxxxxxx x xxxxx xxxxx v xxxxxxxx, xxxx by xxxxxxxxxxx xxxxx obsahovat xxxxxxxxxx x počtu xxxxxxxxxxxxxx xxxxx 2 x ± 2.

2. XXXXX

2.1 XXXXXXXXXX VÝSLEDKŮ

Údaje xxx xxxxxxxxxx zvířata xx xxxx xxx xxxxxxxxxx xx formě tabulky. Xxxxxxxxxxxxxx xxxxxxxxx je xxxxx. Xxx xxxxx xxxxx xx xxx xxx xxxxxxxxxx xxxxx xxxxx, xxxxx aberací xx xxxxx x xxxxx xxxxx s xxxxxxxxxxxxx xxxxxxx (chromozomovými xxxxxxxxx) xxxxxxxxx x xxxxxxxxxx. Pro xxxxxxxxxx x xxxxxxxxx xxxxxxx xx měly být xxxxxxx různé xxxx xxxxxxxxxxxx xxxxxxxxxxxxxx aberací x jejich počtem x četností. Xxxx xx zaznamenávají xxxxxxxx x xxxxxxx xx, xxx xxxxxx xx xxxxxxxxxx xx xxxxxxx xxxxxxxx aberací. Xxxxxxxxxx-xx xxxxx x xxxxxxx x xxxxxxxx xxxx xxxxxxxxx, mohou xxx xxx xxxxxxxxxxxx xxxxxxx xxxxx xxx obě xxxxxxx zkombinovány.

2.2 HODNOCENÍ X XXXXXXXXXXXX VÝSLEDKŮ

Pro xxxxxxxxx xxxxxxxxxxx xxxxxxxx xxxxxxxx xxxxxxx xxxxxxxx, xxxx. nárůst xxxxxxxxxxx xxxxx xxxxx s xxxxxxxxxxxxxx xxxxxxxxx x xxxxxxxxxx xx dávce xxxx jasný xxxxxx xxxxx buněk s xxxxxxxxx pro xxxxxxx x určitou dávkou x x xxxxxxxx xxxxxxxx odběru. Xxxxxxxx xx xxxx xxx xxxxxxx biologická xxxxxxxxx xxxxxxxx. Xxx hodnocení xxxxxxxx xxxxxxx xxxxx xxx xxxxxxx xxxx xxxxxxx xxxxxxxxxx xxxxxxxxxxx xxxxxx (6). Xxxxxxxxxxx xxxxxxxxxx xx neměla xxx xxxxxxx xxxxxxxxx xxxxxxxx xxx pozitivní xxxxxxx. Dvojznačné xxxxxxxx xx xxxx xxx xxxxxxxxx xxxxxx xxxxxxxxx, xxxxxxx s úpravami xxxxxxxxxxxxxxxx podmínek.

Nárůst polyploidie xxxx znamenat, xx xxxxxxxx látka xx xxxxxxxxx xxxxxxxxx xxxxxxxxx xxxxxxxxxxxx xxxxxxx. Xxxxxx xxxxx xxxxx s xxxxxxxxxxxxxxxxxxx xxxxxxxxxx může xxxxxxxx, xx xxxxxxxx xxxxx xx xxxxxxxxx xxxxxxxx xxxxxxxx xxxxxxxxx xxxxx (7, 8).

Zkoušená xxxxx, xxxxx výsledky xxxxxxxxx xxxx uvedená xxxxxxxx, xx považuje x xxxxx xxxxxxx xx xxxxxxxxxxx.

Xxxxxx xxxxxxx xxxxxxxxxxx poskytne jasně xxxxxxxxx xxxx xxxxxxxxx xxxxxxxx, v ojedinělých xxxxxxxxx xxxxxxxx xxxxxx xxxxx xxxxxxxx xxxxxxx xxxxx o xxxxxxxx xxxxxxxx xxxxx. Výsledky xxxxx xxxxxx dvojznačné xxxx xxxxxx xxx xxxxxx na xx, xxxxxxxx xx experiment xxxxxxxx.

Xxxxxxxxx výsledky xxxxxxx xx xxxxxxxxxxxx xxxxxxx xx xxxx znamenají, xx zkoušená látka xxxxxxxx x xxxxxx xxxxx xxxxxxxxxxx xxxxx xxxxxxxxxxxx xxxxxxx. Xxxxxxxxx xxxxxxxx xxxxxxxxx, xx xxxxxxxx xxxxx xx xxxxxxxx xxxxxxx xxxxxxxxxx x xxxxxx xxxxx xxxxxxxxxxx xxxxx xxxxxxxxxxxx xxxxxxx.

Xxxx xx xxx xxxxxxxxxxx xxxxxxxxxxxxxxx, x xxxxx xx xxxxxxxx xxxxx xxxx xxxx xxxxxxxxxx xxxxxxxx do xxxxxxxx oběhu, xxxx xxxxxxxxxx xx xxxxxx xxxxx (např. xxxxxxxxx xxxxxxxx).

3. XXXXXX

XXXXXXXX X XXXXXXX

Xxxxxxxx o zkoušce xxxx obsahovat xxxx xxxxxxxxx:

Xxxxxxxxxxxx/xxxxxxxxx:

- xxxxxxxxxx volby xxxxxxxx,

- xxxxxxxxxxx x xxxxxxx xxxxxxxx xxxxx x xxxxxxxxxxxx/xxxxxxxx, je-li xxxxx.

Xxxxxxxxx zvířata:

- použitý xxxx/xxxx,

- xxxxx, xxxxx x pohlaví zvířat,

- xxxxx, xxxxxxxx chovu, xxxxxx atd.,

- individuální xxxxxxxx xxxxxx xx xxxxxxx xxxxxxx, včetně xxxxxxx tělesné xxxxxxxxx, xxxxxxx xxxxxxx x xxxxxxxxxx odchylky pro xxxxxx xxxxxxx.

Xxxxxxxx xxxxxxxx:

- xxxxxxxxx a negativní (xxxxxxxxx/xxxxxxxxxxxx) kontroly,

- xxxxx xx xxxxxx xxx xxxxxxxx xxxxxxx, xxxxx xxxx xxxxxxxxx,

- xxxxxxxxxx xxxxxxxxx úrovní dávek,

- xxxxx o xxxxxxxx xxxxxxxx xxxxx,

- údaje x xxxxxxxx xxxxxxxx xxxxx,

- zdůvodnění způsobu xxxxxxxx,

- xxxxxxxxx xxxxxx xxxxxxx, zda xx xxxxxxxx xxxxx dostala xx xxxxxxxx xxxxx xxxx do cílové xxxxx,

- případně přepočet xxxx xxxxxxxxxxx xxxxxxxx xxxxx v krmivu xxxx vodě (ppm) xx odpovídající xxxxx (xx/xx xxxxxxx hmotnosti/den),

- xxxxxxxx xxxxx o xxxxxxx krmiva x xxxx,

- xxxxxxxx popis xxxxxxx xxxxxxxx a xxxxxx,

- metody xxxxxxxxx xxxxxxxx,

- xxxxxxxxxxxx látky xxxxxxxxxxx xxxxxxxx, xxxx xxxxxxxxxxx x xxxxx xxxxxxxx,

- xxxxxx xxxxxxxx xxxxxxxxx,

- xxxxxxxx xxxxxxxxx xxxxxxx,

- xxxxx xxxxxxxxxxxxx xxxxx xx xxxxx xxxxx,

- kritéria xxxxxxxxxxx xxxxxx na xxxxxxxxx, xxxxxxxxx xxxx xxxxxxxxxxx.

Xxxxxxxx:

- xxxxxx toxicity,

- mitotický xxxxx,

- xxx x xxxxx xxxxxxx xxxxxxx xxxxxxxxxx pro xxxxx xxxxx,

- celkový xxxxx xxxxxxx xx xxxxxxx xx xxxxxxxxx xxxxxxxxx x xxxxxxxxxxxx xxxxxxxxxx,

- xxxxx xxxxx x xxxxxxxxx xx skupině xx xxxxxxxxx xxxxxxxxx x xxxxxxxxxxxx xxxxxxxxxx,

- xxxxx ploidie, xxxxx xxxx pozorovány,

- xxxxx xxxxxxxx xxxxxxxxx xxxxxxxx xx dávce,

- xxxxxxxx xxxxxxxxxxx xxxxxxx,

- xxxxx x xxxxxxxx negativní xxxxxxxx,

- dosavadní xxxxx x negativní xxxxxxxx x xxxxxxxxx, středními xxxxxxxxx a xxxxxxxxxxxx xxxxxxxxxx,

- údaje x xxxxxxxx pozitivní kontrole.

Rozbor xxxxxxxx.

Xxxxxx.

4. XXXXXXXXXX

1) Xxxxx, X. D. (1984), Xxxxxxxxxxx Tests xx Xxxxxxx, xx: Xxxxxxxxxxxx Xxxxxxx: x Xxxxxxxxx Xxxxxxxx, X. Xxxxxx, X. M. Xxxxx (xxx), XXX Xxxxx, Xxxxxx, Xxxxxxxxxx X. X., 275-306.

2) Xxxxxxx, X. J., Xxxx, X. J., Xxxxxxxx, X., Xxxxxx, X., XxXxx, A. X., Xxxxxx, X. (1987), Xxxxxxxxx Xx xxxx Xxxxxxxxxxx Xxxxxx: Xxxxxxxx xx Chromozome Xxxxxxxxxxx xx Bone Xxxxxx Xxxxx, Xxxxxxxxxx Res., 189, 157-165.

3) Xxxxxxx, X., Xxxxxxxx, X., Xxxxx, X., Xxxxxxxxx, X. X., Xxxxxxx, X., Xxxxxxxxx, X. (1990), Xx vivo Xxxxxxxxxxx Xxxxxx, xx: X. X. Xxxxxxxx (xx.), Xxxxx Xxxxxxxxxxxx Xxxxx, UKEMS Xxxxxxxxxxx Xxxxxxxxxx. UKEMS Sub-Committee xx Xxxxxxxxxx xxx Xxxxxxxxxxxx Xxxxxxx. Report, Xxxx X revised, Xxxxxxxxx Xxxxxxxxxx Xxxxx, Xxxxxxxxx, New Xxxx, Xxxx Chester, Melbourne, Xxxxxx, 115-141.

4) Xxxx, X. X., Xxxxxxx, X., XxxXxxxxxx, X. X., Anderson, X., Xxxxxx, X. H., Xxxxxx, X. E., Xxxxxx-Xxxxxxx, X., Oleson Xx., X. X., Xxxxxxxxxxxx, X., Xxxxxxx, X. X., Romagna, X., Xxxxxxx, H., Xxxxx, X., Vannier, X. (1994), Xxxxxx xxxx xxx Working Xxxxx on xxx xx xxxx Xxxxxxxxx Xxxx Xxxxxx Xxxxxxxxxxx Xxxxxxxxxx Test, Xxxxxxxxxx Xxx., 312, 305-312.

5) Xxxxxxx, X. J., Xxxxx, X. X., Xxxxxx, X. X., Xxxxxx, X. X., Xxx, J., Esdaile, X. J., Xxxxxxxxx, X. X., Xxxxxx-Xxxxxx, X., Xxxxxx, X. X., Xxxxxxxx, X. X., Richold, M. (1992), Xxxxxx xx Xxxxxxx Xxxxxxxxxx Xxxxxxx/XX Xxxxxxxxxxxxx Xxxxxxx Society Xxxxxxx Xxxxx: Xxxx Xxxxxxx in Xx xxxx Xxxxxxxxxxxx Xxxxxx, Xxxxxxxxxxx, 7, 313-319.

6) Xxxxxx, X. P., Xxxxxxxx, X., Albanese, X., Amphlett, G. X., Clare, X., Xxxxxxxx, R., Richold, X., Xxxxxxxx, D. X., Xxxxxx, X. X. X. (1989), Xxxxxxxxxxx Analysis xx Xx vivo Xxxxxxxxxxx Xxxxxx, in: UKEMS Xxx-Xxxxxxxxx on Guidelines xxx Mutagenicity Xxxxxxx, Xxxxxx Part XXX. Xxxxxxxxxxx Evaluation xx Xxxxxxxxxxxx Xxxx Xxxx, X. X. Xxxxxxxx (xx.) Xxxxxxxxx University Xxxxx, Xxxxxxxxx, 184-232.

7) Xxxxx-Xxxxx, X. (1983), Xxxxxxxxxxxxxxxxx in Xxxxxxx xxxxxxx xxxxx xxxxxx xxxxx-xxxxxxxxx-xxxxxxx X2 arrest, Xxxxxxxxxx Res., 119, 403-413.

8) Xxxxx, X., Xxxxxx, C., Trosko, X. X. (1983), Xxxxxxxxxxx-xxxxxxx xxxxxxxxxxxxxxxxx xx Xxxxxxx xxxxxxx xxxxx, Xxxxxx Xxx., 43, 1362-1364."

XXXXXXX 4X

"X.12 XXXXXXXXXX–XXXX XXXXXXX XXXXXXXXXXXXXXX XXXXXXXXXX XX VIVO

1. METODA

Tato xxxxxx xx xxxxxxxx xxxxxx OECD XX 474 — Xxxx xxxxxxx erytrocytárních xxxxxxxxxx xx xxxx (1997).

1.1 XXXX

Xxxx savčích xxxxxxxxxxxxxxx xxxxxxxxxx xx xxxx xx xxxxxxxx xxx xxxxxxx xxxxxxxxx xxxxxxxxxx xxxx xxxxxxxxxxx xxxxxxx xxxxxxxxxxxx, které je xxxxxxxxxx xxxxxxxxx xxxxxx, x xx pomocí xxxxxxx xxxxxxxxxx odebraných x kostní xxxxx x/xxxx xxxxx xxxxxxxxx xxxx, obvykle xxxxxxxx.

Xxxxxx xxxxx xxxxxxx erytrocytárních xxxxxxxxxx je xxxxxxxxxxxxx xxxxx, xxxxx xxxxxxxxx xxxxxxxxxxxxx poškození, xxxxx xxxxxxxxx xx xxxxxx xxxxxxxxxx xxxxxxxxxxxx nereplikující xx (xxxxxxx) chromozomové xxxxxxxxx xxxx celé xxxxxxxxxx.

Xxxx xx erytroblast xxxxxx xxxxx xxxx xx xxxxxxxxxxxxxxx erytrocyt, xxxxxx xxxxx je xxxxxxxx a xxxxxxxxxx, xxxxx při xxx xxxxx xxxxxxxxx, xxxxxxxxx x xxxxxxxxxx, která xxxxx xxxxx xxxxxxxxxx. Xxxxxxxxxxxx xxxxxxxxxx xx x xxxxxx buňkách xxxxxxxxx tím, xx xxxxxxxxxx hlavní xxxxx. Xxxxxx xxxxxxx polychromatických xxxxxxxxxx x xxxxxxxxxx x xxxxxxxxxxxx xxxxxxxxx xx xxxxxxx indukovaného xxxxxxxxxxxxxx xxxxxxxxx.

X xxxxx xxxxx xx rutinně xxxxxxxxx kostní dřeň xxxxxxxx, xxxxxxxx xxxx xxxx xxxxxxxxx xxxxxxxxxxxxxxx xxxxxxxxxx. Xxxxxxxxx xxxxxxxxx (xxxxxxxxxxxxxxxxx) xxxxxxxxxx s xxxxxxxxxx v xxxxxxxxx xxxx xx xxxxxxxxxx xxxxxxxxxx x xxxxxxxxxxx xxxxx, x něhož xxxx xxxxxxxxx xxxxxxxxxxx xxxxxxx xxxxxxxxxxx xxxxxxxxxx x xxxxxxxxxx, nebo xxxxxxxxxx xxxxxxxxx detekovat xxxxxxxx, které xxxxxxxxx xxxxxxxxxx nebo xxxxxxxxx xxxxxxxxxxxx xxxxxxx. Mikrojádra xxx xxxxxxxx řadou xxxxxxxx. Xx xxxxxxxx xxxxxxxxxxxx přítomnosti xxxx xxxxxxxxxxxxx xxxxxxxxxxx (xxxxxxxxxxxx) XXX x mikrojádře. Xxxxxxxxx xx xxxxxxx xxxxxxx xxxxxxxxx (xxxxxxxxxxxxxxxxx) xxxxxxxxxx x xxxxxxxxxx. Xxxxx zralých (xxxxxxxxxxxxxxxxxx) xxxxxxxxxx v xxxxxxxxx xxxx, xxxxx obsahují xxxxxxxxxx, xxxxxxxxxxx xx xxxxxx xxxxx zralých xxxxxxxxxx lze xxxxxx xxxxxx jako xxxxxxx xxxxxxxx zkoušky, xxxxxxxx xxxx xxxxxxx xxxxxxxxxx xxxxx xxxxx nebo xxxx.

Xxxxx xxxx xxxxxxx xxxxxxxxxxxxxxx xxxxxxxxxx xx xxxx je xxxxxxx xxxxxx x posouzení xxxxxxxxx mutagenese, xxxxx xxxxxxxx zohlednit xxxxxxx xxxxxxxxxxx xx xxxx, xxxxxxxxxxxxxxx x procesy xxxxxxxx DNA, xxxxxxx xx mohou xxxxx x xxxxxxx xxxxx x xxxxx, jakož x x xxxxxxxxxxx xxxxxxxx. Xxxxxxx in xxxx xx xxxxxx xxxxxxxx xxx xxxxx xxxxxx mutagenních xxxxxx xxxxxxxxxx x xxxxxxxxx xx vitro.

Jestliže xxxxxxxx xxxxx x tom, xx xx zkoušená xxxxx xxxx xxxxxxxxx xxxxxxxxxx xxxxxxxxxx xx xxxxxx xxxxx, není xxxxxx tuto xxxxxxx xxxxxx.

Xxx xxxx Obecný xxxx, xxxx X.

1.2 XXXXXXXX

Xxxxxxxxxx (xxxxxxxxxx) : xxxxxx (oblasti) chromozomu, x xxx (k xxxx) se xxxxx xxxxxx xxxxx xxxxxxx xxxxxx xxxxxxxx umožňující xxxxxxxxxx xxxxx xxxxxxxxx xxxxxxxxxx k xxxxx xxxxxxxxx buněk.

Mikrojádra : xxxx xxxxx xxxxxxxxxx xxxxxxxx xx xxxxxxxx xxxxx a vedle xxxx, xxxxxxxxx během xxxxxxxx mitosy (meiosy) xxxxxxxxxxxxxxx xx (xxxxxxx) xxxxxxxxxxxxxx xxxxxxxxx xxxx xxxxxx xxxxxxxxxx.

Xxxxxxxxxxxxxxxx erytrocyt : xxxxx xxxxxxxxx xxxxxxxxxxxx ribozomy, xxxxx xxx xxxxxxxx xx xxxxxxxxx polychromatických xxxxxxxxxx xxxxxxxx selektivním xxx xxxxxxxx.

Xxxxxxxxxxxxxxx erytrocyt : xxxxxxx xxxxxxxxx xx xxxxxxxxx xxxxxxxxxx, xxxxx xxxxx obsahuje xxxxxxxx, x xxxx xxx xxxx xxxxxxxx od xxxxxxx normochromatických xxxxxxxxxx xxxxxxxx xxxxxxxxxxx pro xxxxxxxx.

1.3 PODSTATA XXXXXXXX XXXXXX

Xxxxxxx se xxxxxxx xxxxxxxx xxxxxxx xxxxxxxx xxxxx. Při použití xxxxxx xxxxx xx xxxxxxx ve xxxxxxx xxxxxxxx xx xxxxxxxx xxxxxx, odebere se xxxxxx xxxx, xxxxxxxx xx xxxxxxxxx a xxxxxx xx (1, 2, 3, 4, 5, 6, 7). Xxx použití periferní xxxx se xxxx xx vhodném okamžiku xx xxxxxxxx xxxxxxx, xxxxxxxxxx xx xxxxxxxx xxxxxxxx x xxxxxx xx (4, 8, 9, 10). Při xxxxxxxx s periferní xxxx xx xxxx xxxx xxxxxxxx xxxxxxxx x xxxxxxxxx xxxxx xxxxxxxx co xxxxxxxxx xxxx. Preparáty jsou xxxxxxxxxxx xx xxxxxxxxxx xxxxxxxxxx.

1.4 POPIS XXXXXXXX XXXXXX

1.4.1 Xxxxxxxxx

1.4.1.1 Výběr xxxxx xxxxxxx

Xxx použití xxxxxx xxxxx xx xxxx testovací xxxxx xxxxxxxxxx xxx xxxx xxxxxx, ačkoli xxx xxxxxx xxxxxxxx xxxxxx xxxxx xxxx. Xxx xxxxxxx xxxxxxxxx xxxx xx xxxxxxxxxx xxx. Xxx xxxx xxxxxx xxxxxxxx xxxxxx druh xxxxx xx xxxxxxxxxxx, xx xxx o xxxx, u xxxxx xxxxxxx xxxxxxxxxxxx xxxxxxxxxx x mikrojádry, nebo xxxx xxxxxxxxxx xxxxxxxxxxx xxxxxxxxx xxxxxxxxx xxxxxxxx, xxxxx xxxxxxxxx strukturní xxxx numerické chromozomové xxxxxxx. Xxxx xx xxx xxxxxxx xxxxx xxxxxxx laboratorní xxxxx xxxxxxx zdravých pohlavně xxxxxxxxx xxxxxx. X xxxxxxxx xxxxxxxx xxxxxx xx xxxx být xxxxxxxx v xxxxxxxxx xxxxxx minimální a xxxxxx by x xxxx pohlaví překročit ± 20 % xxxxxxx hodnoty hmotnosti.

1.4.1.2 Xxxxxxxx xxxxx a xxxxxx

Xxxxx xxxxxx xxxxxxxx xxxxx obecného úvodu x xxxxx B, xxxxxxx by mělo xxx dosaženo xxxxxxxx xxxxxxx 50 – 60 %.

1.4.1.3 Xxxxxxxx xxxxxx

Xxxxxx xxxxx xxxxxxxx xxxxxxx xxxxxxx xx xxxxxxxx xxxxxxx xxxxxxx xx kontrolní skupinu x skupinu, u xxx se xxxxxxx xxxxxxxx. Xxxxxxx se xxxxxxxxxxx xxxxxxxxxxxx. Nechají xx v xxxxxxxxxxxxx xxxxxxxxxx xxxxxxx pět xxx aklimatizovat. Xxxxx xx uspořádají xxx, xxx byl xxxx xxxxxx xxxxxx xxxxxxxxxxxxx.

1.4.1.4 Xxxxxxxx xxxxx

Xxxxx xxxxxxxx xxxxx by xxxx xxx xxxx xxxxxxxx xxxxxxxx xxxxxxxxxx nebo xxxxxxxxxxxx xx vhodných xxxxxxxxxxxxxx xxxx vehikulech x xxxxxxxxx zředěny. Xxxxxxx xxxxxxxx látky xxxxx xxx xxxxxxxx xxxxx xxxx xxxxx xxx xxxx xxxxxxx xxxxxxx. Xxxx xx xxx použity xxxxxxx xxxxxxxxxx xxxxxxxx chemické xxxxx, xxxxx xxxxx x xxxxxx stálosti xxxxxxxxxxx xxxxxxx skladování.

1.4.2 Xxxxxxxx podmínky

1.4.2.1 Rozpouštědlo/vehikulum

Rozpouštědlo/vehikulum xx nemělo xxx xxx xxxxxxxxx úrovních xxxxx xxxxxxx xxxxxx x mělo xx xxx xxxxxxxxx xxxxxxxxx, xx xxxxxxx xx xxxxxxxxx látkou. Xxxx-xx xxxxxxx xxxx xxx xxxxx xxxxxxxxxxxx/xxxxxxxx, mělo xx být xxxxxx xxxxxxxx podloženo xxxxx x xxxxxx kompatibilitě. Xxxxxxxxxx xx xxxxx xxxxx xxxxxxxx xxxxxx xxxxxxx vodných xxxxxxxxxxxx/xxxxxxx.

1.4.2.2 Xxxxxxxx

Xxxxxxxx xxxxxxx xxxxxxxxxxx xx xxxx xxx xxxxxxxxx x negativní (xxxxxxxxxxxx/xxxxxxxxx) kontroly pro xxx xxxxxxx. X xxxxxxxx xxxxxxxx xxxxxxxx xxxxx xx xxxx xxxxxxx xxxxxxxxx xxxxxxx xxxxxxxxxx xxxxxxxxx xxxxxx xxxx xxxxxxx ve xxxxxxxxx, x xxxxx xxxxx k xxxxxxxx.

Xxxxxxxxx xxxxxxxx xx měly xxxxxxxxxx xxxxxxxxxx xx xxxx xxx expozičních xxxxxxxx, x xxxxx xx xxxxxxx, že xxxxxxxxx xxxxxxxxxxxxx nárůst xxx pozadí. Xxxxx xxxxxxxxx xxxxxxxx xx xxxx být zvoleny xxx, aby byl xxxxxx xxxxxxxx, xxx xxx xxx xxxxxx xxxxxxx xxxxx xxxxxx xxxxxxxx xxxxxxxxxxxx preparátu. Xx xxxxxxxxxx, xxx xxxxxxxxx xxxxxxxx byla xxxxxxxx xxxxx xxxxxxxx xxx zkoušená xxxxx x aby xxx xxxxx x xxxxx xxxxxxx xxxxxxxx xxx xxxxxx. Pro pozitivní xxxxxxxx xxxxx xxxx xxx xxxxx x xxxxx xxxxxxx xxxxxxxxxx xxxxx ze xxxxxx xxxxxxxx xxxxx, jsou-li x xxxxxxxxx. Příklady xxxxx pro xxxxxxxxx xxxxxxxx:

Xxxxx

Xxxxx XXX

Xxxxx podle XXXXXX

xxxxx-xxxxxxxxxxxxxx

62–50–0

200–536–7

1-xxxxx-1-xxxxxxxxxxxxxxx

759–73–9

212–072–2

xxxxxxxxx X

50–07–7

200–008–6

xxxxxxxxxxxxx

50–18–0

200–015–4

xxxxxxxxxxxxx monohydrát

6055–19–2

2,4,6-tris(aziridin-1-yl)- 1,3,5-xxxxxxx

51–18–3

200–083–5

X okamžiku xxxxxx xx měl být xxxxxxxx xxxxx x xxxxxxx xxxxxxxxx xxxxxxxx, xxxxx xx xxxxxxxxxx xxxxx xxxxxxxxxxxx nebo xxxxxxxxx a xxxxx xxxxx xxxxxxxxxx xxxxxx xxxxxx jako xxxxxxxxxx xxxxxxx, pokud nejsou x xxxxxxxxxxx xxxxxxxxxxx xxxxx x xxxxxxxxx xxxxxxxxxx údaje o xxxxxxxxxxx xxxxxx x xxxxxxxx xxxxx x xxxxxxxxxx. Xxxxxxx-xx se xxx negativní kontrolu xxxxx xxxxx, je xxxxxxxxxxxxx xxxxxxxxx doba xxxxxxx odběru. Kromě xxxx by xxxx xxx neexponované xxxxxxxx xxxxxxx xxxx xxxxx, xxxxxxxxxx-xx xxxxx nebo xxxxxx-xx xxxxxxxxxxx xxxxxxxxx xxxxx xxxxxxxxxxx, že xxxxxxx xxxxxxxxxxxx/xxxxxxxxx nevyvolává xxxxx zhoubné nebo xxxxxxxxx účinky.

Při xxxxxxx xxxxxxxxx xxxx xxxx xxx xxxx xxxxxxxxx xxxxxxxx xxxxxxxxxx xxxx xxxxxx xxxx xxxxxxxx xxxx expozicí, pouze xxxx u xxxxxxxx xxxxxx x periferní xxxx (xxxx. 1 — 3 aplikace) xx předpokladu, xx xxxxxxxx xxxxx budou x rozpětí, které xx xx xxxxxxx xxxxxxxxxxx xxxxxxx očekává.

1.5 XXXXXX

1.5.1 Xxxxx a xxxxxxx xxxxxx

Xxxxx exponovaná x xxxxxxxxx xxxxxxx xx xxxx xxxxxxx x alespoň pěti xxxxxxxxxxxxxxxx zvířat pro xxxxx xxxxxxx (11). Xxxxxxxx xxxx x xxxx studie x xxxxxxxxx xxxxx xx xxxxxx xx xxxxxxx xxxxxx a za xxxxxxx xxxxxxxx xxxxxxx xxxxxxxx, xxx prokazují, xx neexistuje xxxx xxxxxxxxx rozdíl x xxxxxxxx, bude postačující xxxxxxxx xxxxxxx xxxxxxx. Xx-xx xxxxxxxx xxxxxxx xxxxxxxxxx xxx xxxxxx xxxxxxx, xxxx xx xxxx například x xxxxxxxxx xxxxxxxxxxxxxxx látek, xxxx by xxx xxxxxxx provedena se xxxxxxxx odpovídajícího pohlaví.

1.5.2 Xxxx xxxxxxxx

Xxxxx doporučit xxxxx standardní plán (xx. xxxxx, xxx xxxx tři aplikace x xxxxxxxxx 24 xxxxx). Xxxxxx xx xxxxxx s prodlouženým xxxxxxx podávání jsou xxxxxxxxxx, xxxxx se x těchto xxxxxx xxxxxxx xxxxxxxxx výsledky, xxxx –v xxxxxxx xxxxxxxxxxx studií — xxxxx xxxx xxxxxxxxx xxxxxxxx nebo xxxx xxxxxxxxx limitní dávka x xxxxxxxx xxxxxxxxx xx xx xxxxxxxx xxxxxx. Xxxxxxxx xxxxx xxxxx být podávány xxxx ve xxxx xxxxxxx, tzn. xxx xxxxx x xxx xxx v xxxxxxx xx více xxx xxxxxxxx xxxxx, aby xxxx xxxxxxxxx xxxxxxxx xxxxxxx xxxxxx xxxxxxxxx.

Xxxx xxxx xxx proveden xxxxx xxxxxxx:

x) xxxxxxxx xxxxx xx xxxxxxxx xxxxxxxx xxxxxx. Xxxxxx xxxxxx dřeně se xxxxxxxx xxxxxxx dvakrát, xxxxxxx první xxxxx xx provede xxxxxxxx 24 hodin xx xxxxxxxx x poslední xxxxxxxxxx 48 xxxxx xx xxxxxxxx x x xxxxxxxxxx xxxxxxxx xxxx xxxxxx. Odběr xxxxx xxx 24 xxxxx po aplikaci xxxx xxx zdůvodněn. Xxxxxx periferní krve xx xxxxxxxx xxxxxxx xxxxxxx, přičemž xxxxx xxxxx se xxxxxxx xxxxxxxx 36 xxxxx xx aplikaci a xxxxxxxx xxxxxxxxxx 72 xxxxx xx xxxxxxxx x xx xxxxxxxxxxxx xx xxxxxx odpovídající xxxxxx. Xx-xx xx xxxxxx xxxxxx pozorována xxxxxxxxx xxxxxxx, není xxxxx odběr xxxxx;

x) xxxx-xx xxxxxxxx xxx xxxx xxxx dávek xxxxx (např. xxx xxxx více dávek x xxxxxxxxx 24 xxxxx), měly xx xxx xxxxxx xxx xxxxxxx kostní xxxxx xxxxxxxx xxxxxx xx 18 až 24 xxxxxxxx xx poslední xxxxxxxx a xxx xxxxxxx xxxxxxxxx xxxx xxxxxx xx 36 xx 48 xxxxxxxx xx poslední aplikaci (12).

Xxxxx potřeby mohou xxx xxxxx použity xxxx xxxx xxxxxx.

1.5.3 Xxxxxxxxx

Xxxxxxx-xx se xxxxx xxxxxxxxxxx xxxxxxxx xxxxxxxxxx xxxxx xxxxxx xxx xxxxxxxx xxxxxxx xxxxx, xxxx xx být xxxxxxxxx xx xxxxxx xxxxxxxxxx, se stejným xxxxxx, xxxxxx, xxxxxxxx x za xxxxxxxx xxxxxx expozice, xxx xx použijí x xxxxxx xxxxxx (13). X případě toxicity xx xxx první xxxxx xxxxxxx xxx xxxxxx dávky. Xxxx xxxxxx xxxxx xx xxxx pokrývat xxxxxxx xxxx xxxxxxxxx xx xxxxxxxxx xxxxxxxxx, případně xxxxxx xxxxxxxxx. Při xxxxxxxxx odběru xxxxx, xxxx xxxx xxxxxxx xxxxx xxxxxxxx xxxxx. Xxxxxxxx xxxxx je xxxxxxxxxx xxxx dávka xxxxxxxxxxxx xxxxxx xxxxxx xxxxxxxx, že vyšší xxxxx by xxxxx xxx xxxxxxx xxxxxx xxxxxxxxx xxxxx očekávání x letalitě. Xxxxx xx xxxxxxxxxxx xxxxxxxxxxx xxxxxxxxx xxx xxxxxxx xxxxxxxxxxx xxxxxxx (např. xxxxxxx x xxxxxxxx) xxxxxx kritériím xxxxxxxxx xxxxx xxxxxxxxx x xxxx xx xxx xxxxxxxxx xxxxxx xx xxxxxxx. Xxxxxxxx dávka xxxx xxx xxxx xxxxxxxxxx xxxx xxxxx xxxxxxxxxxxx v xxxxxx xxxxx xxxxxxx xxxxxx xxxxxxxx (xxxx. xxxxxxx xxxxxx xxxxxxxxx xxxxxxxxxx x xxxxxxxxx množství xxxxxxxxxx v xxxxxx xxxxx nebo v xxxxxxxxx krvi).

1.5.4 Xxxxxxx xxxxxxx

Xxxxxxxx zkouška x xxxxxx xxxxxx o xxxxxxx 2000 xx/xx xxxxxxx xxxxxxxxx xxxxxxx xxxxxxxxxxx xxxx xx xxxx xxxxxxx v xxxxxx xxx nevykazuje xxxxx pozorovatelné xxxxxxx xxxxxx x xxxx-xx xx základě xxxxx x xxxxxxx, které xxxx xxxxxxxx strukturu, xxxxxxxxx genotoxicita, není xxxxxxxxxx xxxxx xxxxxx xx xxxxx xxxxxxxx xxxxx za xxxxxxxxx. X xxxx xxxxxxxxxx xxxxxx xx limitní xxxxxx xxx 14xxxxx xxxxxxxx 2000 xx/xx xxxxxxx xxxxxxxxx/xxx a xxx xxxxx než 14xxxxx aplikaci xx xxxxxxx dávkou 1000 xx/xx tělesné hmotnosti/den. Xxxxxxxxx xxxxxxxx xxxxxxx xxxx znamenat potřebu xxxxxx x limitní xxxxxxx vyšší xxxxxx xxxxx.

1.5.5 Xxxxxxxx xxxxx

Xxxxxxxx xxxxx se xxxxxxx xxxxxx nitrožaludečně, xxxxxxxxx xxxxxx xxxx vhodnou xxxxxxxxx xxxxxxx, nebo xxxxxxxxxxxxxxxxx injekcí. Xxxx xxxxxxx podávání jsou xxxxxxxxxx v xxxxxxxxxxxxxxx xxxxxxxxx. Xxxxxxxxx xxxxx xxxxxxxx, xxxxx xxxx xxx najednou podán xxxxxxxxx xxxxxx xxxx xxxxxxxx, xxxxxx xx xxxxxxxxx xxxxxxxxxxx xxxxxxx. Xxxxx xx xxxxx xxxxxxxxx 2 ml/100 x tělesné hmotnosti. Xxxxxxx xxxxxxx xxxxxx, xxx xx xxxxxxx xxxxx, xxxx být xxxxxxxxxx. Až xx xxxxxxxx x xxxxxx xxxxx, které xxxxxxx xxx xxxxxxx koncentracích xxxxxxxx xxxxxxxx účinky, xx xxxx xxx xxxxxxxxxxx zkušebního xxxxxx xxxxxxxxxxxxxx nastavením xxxxxxxxxxx xxxxxxxxxxx konstantní xxxxx xxx xxxxx xxxxxxxx xxxxx.

1.5.6 Příprava xxxxxx xxxxx xxxx xxxx

Xxxxx xxxxxx xxxxx se xxxxxxx xxxxxxxxx z xxxxxx xxxx xxxxx xxxxx xx xxxxxxxx. Xxxxx xx xxxxxxxx x xxxxxx xxxx xxxxx a xxxxxxxxxx xxxxxxxx se xxxxxxxxx x obarví. Xxxxxxxxx xxxx xx získává x xxxxxx xxxx xxxx xxxx xxxxxx xxxxxx cévy. Krevní xxxxx xx xxxxx xxxxxxxxxxxx xxxxxx (8, 9, 10), xxxx xx xxxxxxxx xxxxxxxxx xxxxxxxx a xxxx xx obarví. Xxxxxxxx xxxxxxx specifického xxx XXX (např. akridinová xxxxx (14) nebo Xxxxxxx 33258 a xxxxxxx-X (15)) xx xxx xxxxxxx některým xxxxxxxxxx xxxxxxxx x xxxxxxxx xxxxxxx xxxxxxxxxxxxxx xxx XXX. Tato xxxxxx xxxxxxx použití xxxxxxxxxxx xxxxxx (xxxx. Xxxxxx). Přídavné xxxxxxx (xxxx. xxxxxxxxxx kolona x xxxxxxxxxx xxxxx xxxxxxxxxxxx jádra (16)) xxx použít xx xxxxxxxxxxx, že se xxxxxxxxx xxxxxxxxxxxx xxxxxxxxx xxxxxx systémů xxx xxxxxxxxx mikrojader v xxxxxxxxxx.

1.5.7 Analýza

Pro xxxxx xxxxx xx stanoví xxxxx nezralých xxxxxxxxxx x xxxxxxxxx (xxxxxxx + xxxxx) množství xxxxxxxxxx, xxxxxxx se x xxxxxxx xxxxxx xxxxx xxxxxxx xxxxxxx xxxxxxx 200 xxxxxxxxxx x x xxxxxxx xxxxxxxxx xxxx alespoň 1000 xxxxxxxxxx (17). Xxxxxxx xxxxxxxxx xxxxxx xxxxxxxxx pozitivních x xxxxxxxxxxx xxxxxxx, xx xxxx xxx před xxxxxxxx xxx xxxxxxxxxxx xxxxxxxxx kódovány. U xxxxxxx xxxxxxx xx xxxxxxx alespoň 2000 xxxxxxxxx erytrocytů xx xxxxxx xxxxxxxxxx v xxxxxxxxxxxxxxxxxxxxx. Xxxxx xxxxxxxxx xxxxx být xxxxxxx xxxxxxxxxx xxxxxxx xxxxxxxxxx xx xxxxxx xxxxxxxxxx. Xxx xxxxxxxxxxxxx xxxxxxx xx xxxxx být xxxxx nezralých xxxxxxxxxx x xxxxxxxxx xxxxxxxx xxxxxxxxxx xxxxx xxx 20 % kontrolní xxxxxxx. Jestliže xxxx xxxxxxx xxxxxxxxxx xxxxxxxxxxx xxxxx xxxxx nebo xxxx, lze také xxxxxxxx xx xxxxxx xxxxxxxxxx xxxxxxx 2000 xxxxxxx erytrocytů xx xxxxx zvíře. Systémy xxx automatickou analýzu (xxxxxxx xxxxxx a xxxxxxxxx cytometrická analýza xxxxxxx xxxxxxxx) xxxx xx xxxxxxxxxxxxx xxxxxxxxxx x xxxxxxxx xxxxxxxxxxxx xxxxxxxxxxxxx xxxxxxxxxx hodnocení.

2. XXXXX

2.1 XXXXXXXXXX XXXXXXXX

Xxxxx xxx xxxxxxxxxx zvířata xx měly xxx xxxxxxxxxx xx xxxxx xxxxxxx. Experimentální jednotkou xx xxxxx. Pro xxxxx xxxxxxxxxxx zvíře xx měl xxx xxxxxx počet xxxxxxxxxxx xxxxxxxxx erytrocytů, počet xxxxxxxxx xxxxxxxxxx x xxxxxxxxxx x xxxxx xxxxxxxxx xxxxxxxxxx x xxxxxxxxx xxxxxxxx xxxxxxxxxx. Xxxxxxxx jsou xxxxxxx xxxxxxxxxx xxxxxxxxxxx xxxxx xxxxx xxxx xxxx, xxxx xx xxx xxxx uvedeny xxxxx x xxxxxxx xxxxxxxxxxxx, xxxx-xx xxxxxxxxxxxxx. Xxx xxxxx xxxxx xx xxxxx xxxxx xxxxxxxxx xxxxxxxxxx x xxxxxxxxx xxxxxxxx xxxxxxxxxx x xxxxxxxx množství erytrocytů x mikrojádry vyjádřené x procentech. Xxxxxxxxxx-xx xxxxx x xxxxxxx x xxxxxxxx xxxx xxxxxxxxx, xxxxx xxx xxx xxxxxxxxxxxx xxxxxxx xxxxx pro xxx xxxxxxx zkombinována.

2.2 HODNOCENÍ X INTERPRETACE XXXXXXXX

Xxx xxxxxxxxx xxxxxxxxxxx xxxxxxxx xxxxxxxx xxxxxxx kritérií, xxxx. xxxxxx počtu xxxxx x mikrojádry x xxxxxxxxxx xx xxxxx xxxx xxxxx xxxxxx xxxxx xxxxx x mikrojádry xxx xxxxxxx s určitou xxxxxx x k xxxxxxxx xxxxxxxx odběru. Xxxxxxxx xx xxxx xxx xxxxxxx xxxxxxxxxx xxxxxxxxx xxxxxxxx. Při xxxxxxxxx xxxxxxxx xxxxxxx xxxxx xxx použity xxxx xxxxxxx prostředek xxxxxxxxxxx xxxxxx (18, 19). Xxxxxxxxxxx xxxxxxxxxx xx neměla být xxxxxxx xxxxxxxxx faktorem xxx xxxxxxxxx xxxxxxx. Xxxxxxxxxx xxxxxxxx by xxxx být xxxxxxxxx xxxxxx xxxxxxxxx, xxxxxxx x xxxxxxx experimentálních xxxxxxxx.

Xxxxxxxx látka, xxxxx xxxxxxxx xxxxxxxxx výše xxxxxxx xxxxxxxx, xx xxxxxxxx v tomto xxxxxxx xx xxxxxxxxxxx.

Xxxxxx xxxxxxx xxxxxxxxxxx poskytne xxxxx pozitivní xxxx xxxxxxxxx výsledky, v xxxxxxxxxxx případech neumožní xxxxxx údajů xxxxxxxx xxxxxxx výrok x xxxxxxxx zkoušené xxxxx. Xxxxxxxx xxxxx zůstat xxxxxxxxxx xxxx xxxxxx xxx ohledu na xx, kolikrát xx xxxxxxxxxx xxxxxxxx.

Xxxxxxxxx xxxxxxxx xxxxx na xxxxxxxxxx xxxxxxxxx, xx xxxxxxxx xxxxx xxxxxxxx mikrojádra, xxx xxxx důsledkem xxxxxxxxxxxxxx xxxxxxxxx xxxx xxxxxxxxx xxxxxxxxxxx aparátu xxxxxxxxxxxx xxxxxxxxxxx xxxxx. Xxxxxxxxx xxxxxxxx xxxxxxxxx, xx xxxxxxxx látka xx podmínek xxxxxxx xxxxxxxxxxx xxxxxxxxxx x xxxxxxxxx xxxxxxxxxxxx xxxxxxxxxxx xxxxx.

Xxxx by být xxxxxxxxxxx xxxxxxxxxxxxxxx, x xxxxx se zkoušená xxxxx xxxx xxxx xxxxxxxxxx xxxxxxxx do xxxxxxxx oběhu, xxxx xxxxxxxxxx xx xxxxxx xxxxx (xxxx. xxxxxxxxx xxxxxxxx).

3. ZPRÁVY

PROTOKOL X XXXXXXX

Xxxxxxxx x zkoušce xxxx xxxxxxxxx xxxx xxxxxxxxx:

Xxxxxxxxxxxx/xxxxxxxxx:

- xxxxxxxxxx volby xxxxxxxx,

- rozpustnost a xxxxxxx xxxxxxxx látky x rozpouštědle/vehikulu, xx-xx xxxxx.

Xxxxxxxxx xxxxxxx:

- xxxxxxx xxxx/xxxx,

- xxxxx, xxxxx x pohlaví xxxxxx,

- xxxxx, xxxxxxxx chovu, xxxxxx xxx.,

- xxxxxxxxxxxx xxxxxxxx zvířat xx xxxxxxx zkoušky, xxxxxx xxxxxxx xxxxxxx xxxxxxxxx, xxxxxxx xxxxxxx x xxxxxxxxxx xxxxxxxx xxx xxxxxx skupinu.

Zkušební xxxxxxxx:

- xxxxx x xxxxxxxxx x negativní (xxxxxxxxx/xxxxxxxxxxxx) xxxxxxxx,

- xxxxx xx xxxxxx xxx xxxxxxxx xxxxxxx, pokud xxxx xxxxxxxxx,

- xxxxxxxxxx xxxxxxxxx xxxxxx dávek,

- údaje x xxxxxxxx xxxxxxxx xxxxx,

- xxxxx x xxxxxxxx zkoušené xxxxx,

- xxxxxxxxxx způsobu podávání,

- xxxxxxxxx xxxxxx ověření, xxx xx xxxxxxxx xxxxx xxxxxxx xx xxxxxxxx oběhu xxxx xx xxxxxx xxxxx,

- xxxxxxxx xxxxxxxx xxxx xxxxxxxxxxx zkoušené xxxxx x xxxxxx nebo xxxx (ppm) na xxxxxxxxxxxx dávku (xx/xx xxxxxxx hmotnosti/den),

- podrobné xxxxx o xxxxxxx xxxxxx a xxxx,

- xxxxxxxx popis xxxxxxx xxxxxxxx a odběru,

- xxxxxx přípravy xxxxxxxxx,

- xxxxxx xxxxxxxxx toxicity,

- xxxxxxxx xxxxxxxxx xxxxxxxxxx x nezralých xxxxxxxxxxxx,

- xxxxx xxxxxxxxxxxxx buněk xx jedno xxxxx,

- xxxxxxxx klasifikace xxxxxx xx pozitivní, xxxxxxxxx xxxx xxxxxxxxxxx.

Xxxxxxxx:

- xxxxxx xxxxxxxx,

- xxxxx nezralých xxxxxxxxxx x xxxxxxxxx xxxxxxxx xxxxxxxxxx,

- xxxxx xxxxxxxxx erytrocytů s xxxxxxxxxx uvedený xxxxxxxxxx xxx každé zvíře,

- xxxxxxx xxxxxxx ± xxxxxxxxxx xxxxxxxx xxxxx xxxxxxxxx xxxxxxxxxx x xxxxxxxxxx ve xxxxxxx,

- xxxxx xxxxxxxx závislost xxxxxxxx xx xxxxx,

- xxxxxxxx xxxxxxxxxxx xxxxxxx x xxxxxx,

- xxxxx x souběžné x xxxxxxxxx negativní xxxxxxxx,

- xxxxx o xxxxxxxx xxxxxxxxx xxxxxxxx.

Xxxxxx xxxxxxxx.

Xxxxxx.

4. XXXXXXXXXX

1) Heddle, X. X. (1973), X Xxxxx Xx xxxx Xxxx xxx Chromozomal Xxxxxx, Mutatation Xxx., 18, 187-190.

2) Schmid, X. (1975), The Xxxxxxxxxxxx Xxxx, Mutatation Xxx., 31, 9-15.

3) Xxxxxx, X. A., Xxxxxxxx, M. X., Xxxx, X., Xxxxxxxx, X., Mavournin, K., XxxXxxxxx, X. X., Xxxxxx, X. W. (1983), Xxx Induction xx Xxxxxxxxxxx x. x. x Xxxxxxx xx Xxxxxxxxxxxx, Mutatation Xxx. 123, 61-118.

4) Xxxxxxxxx, X. X., Xxxxxx, X. X., Xxxxxx, X. X., Xxxxxxxx, X. F., Xxxxxx, J. X. (1990), The Xx xxxx Micronucleus Assay xx Xxxxxxxxx Bone Xxxxxx and Xxxxxxxxxx Xxxxx. A xxxxxx xx xxx U. X. Environmental Xxxxxxxxxx Xxxxxx Xxxx-Xxx Xxxxxxx, Xxxxxxxxxx Xxx., 239, 29-80.

5) MacGregor, J. X., Xxxxxxxx, X., Xxxx, X. X., Xxxx, C. M. (1983), Xxxxxxxxxxx in Xxxxxxxxxxx Erythrocytes: X Xxxxx Xxxxxx xxx Xxxxxxxxxxx Damage Xxxxxx Xxxxxxx Xxxxxxxx Xxxxxxx xx Mice, xx: Xxxxxxxxxxxx xx Science xxx Xxxxxxxx xx Xxxxxxxxxx, xx. A. X. Xxxxx, R. X. Xxxxxxx, X. X. Xxxx. Elsevier, Xxxxxxxxx, 555-558.

6) XxxXxxxxx, X. T., Xxxxxx, X. X. Xxxx, X., Xxxxxxxx, X. X., Xxxxx, C., Xxxxxxxx, M. F., Xxxx, R. X., Xxxx, X. (1987), Xxxxxxxxxx xxx the Xxxxxxx xx Xxxxxxxxxxxx Xxxxxx xx Xxxxxxxxx Xxxx Marrow Erythrocytes, Xxxxxxxxxx Xxx., 189, 103-112.

7) MacGregor, J. X., Xxxx, X. X., Henika, P. X., Xxxxxx, M. X. (1990), Xxx xx xxxx Erythrocyte Xxxxxxxxxxxx Test: Xxxxxxxxxxx xx Xxxxxx Xxxxx Xxxxxxxxx Assay Xxxxxxxxxx xxx Permits Xxxxxxxxxxx xxxx Xxxxxxxx Studies, Xxxxxx. Appl. Xxxxxxx. 14, 513-522.

8) Xxxxxxx, X., Xxxxxx, X., Xxxxxx, X., Xxxxxx, X., Ishidate, X. Xx. (1990), The Xxxxxxxxxxxx Xxxxx with Xxxxx Peripheral Blood Xxxxxxxxxxxxx Xxxxx Acridine Xxxxxx-Xxxxxx Xxxxxx, Mutatation Xxx., 245, 245-249.

9) Xxx Collaborative Xxxxx Xxxxx for the Xxxxxxxxxxxx Xxxx (1992). Xxxxxxxxxxxx Xxxx xxxx Xxxxx Xxxxxxxxxx Xxxxx Xxxxxxxxxxxx by Xxxxxxxx Xxxxxx Supravital Xxxxxxxx: Xxx Xxxxxxx Xxxxxx xx xxx 5xx Xxxxxxxxxxxxx Study xx XXXXX/XXXXX, XXX, Xxxxxxxxxx Xxx., 278, 83-98.

10) Xxx Xxxxxxxxxxxxx Xxxxx Xxxxx for xxx Xxxxxxxxxxxx Test (XXXXX/XXXXX, XXX: Xxx Xxxxxxxxx Xxxxxxxxxxx Study Xxxxx xx the Xxxxxxxxxxxxx Xxxxxxx Society of Xxxxx) (1995), Protocol xxxxxxxxxxx for xxx xxxxx-xxxx mouse xxxxxxxxxx xxxxx xxxxxxxxxxxx test, Xxxxxxxxxxx, 10, 53-159.

11) Xxxxxxx, X., Xxxx, X. X., MacGregor, X. X., Xxxxxxxx, X., Xxxxxxx, X. X., Xxxxxx-Xxxxxxx, X., Xxxxxx, Jr. X. X., Pacchicrotti, X., Xxxxxxx, F., Shimada, X., Xxxxx, X., Xxxxxxx, B. (1994), Xx vivo Xxxxxx Xxxxxxxxxxx Micronucleus Assay, Xxxxx. Res., 312, 293-304.

12) Xxxxxxxxxxx, X., Xxxxx, X. (1995), Xx optimal, xxxxxxxxxxx xxxxxxxx xxxx xx 30 ± 6 x after xxxxxx xxxxxx xx xxx xxxxx peripheral micronucleus xxxx, Mutagenesis, 10, 313-319.

13) Xxxxxxx, X. X., Allen, J. X., Xxxxxx, X. X., Botham, P. X., Xxx, X., Xxxxxxx, X. X., Xxxxxxxxx, X. X., Xxxxxx-Xxxxxx, X., Xxxxxx, X. X., Kirkland, X. J., Xxxxxxx, X. (1992), Xxxxxx xx Xxxxxxx Toxicology Xxxxxxx/XX Xxxxxxxxxxxxx Xxxxxxx Xxxxxxx Xxxxxxx Xxxxx: Xxxx Setting xx Xx vivo Xxxxxxxxxxxx Xxxxxx, Mutagenesis, 7, 313-319.

14) Xxxxxxx, M., Xxxxxx, X., Ishidate, X. Jr. (1983), Xx Xxxxxxxxxxx xx Xxxxxxxx Xxxxxx Xxxxxxxxxxx Xxxxxxxx xx xxx Xxxxxxxxxxxx Test, Xxxxxxxx Xxx., 120, 241-247.

15) XxxXxxxxx, J. X., Xxxx, X. M., Xxxxxxxx, X. X. (1983), X Xxxxxx Xxxxxxxxxxx Xxxxxxxx Xxxxxxxxx xxx Xxxxxxxxxxx and XXX xx Xxxxxxxxxxxx Xxxxx Xxxxxxx 33258 xxx Pyromin Y, Xxxxxxxx Res., 120, 269-275.

16) Xxxxxxx, X., Xxxxxxxxxx, C. X. (1989), Xxx automated xxxx xxxxxx xxxxxxxxxxxx xxxx, Mutatation Xxx., 213, 91-104.

17) Gollapudi, X., XxXxxxxx, X. X. (1995), Xxxxxx Xxxx xxx xxx Xxxxxxxxxx xx Polychromatic xx Xxxxxxxxxxxxxx Xxxxxxxxxxx Xxxxx in the Xxxx Xxxxxx Xxxxxxxxxxxx Xxxx, Mutatation Res., 347, 97-99.

18) Xxxxxxx, X., Xxxxx, J., Xxxxxxx, J., Xxxxxxxx, X., Xxxxxxxxx, D. X., Henderson, X. (1990), In xxxx Xxxxxxxxxxxx Xxxxx, xx: X. J. Xxxxxxxx (xx.), Xxxxx Xxxxxxxxxxxx xxxxx, XXXXX Recommended Xxxxxxxxxx, XXXXX Sub-Committee xx Xxxxxxxxxx for Xxxxxxxxxxxx Xxxxxxx. Report, Xxxx 1, xxxxxxx, Xxxxxxxxx University Xxxxx, Xxxxxxxxx, Xxx York, Xxxx Chester, Xxxxxxxxx, Xxxxxx, 115-141.

19) Xxxxxx, X. X., Xxxxxxxx, X., Xxxxxxxx, X., Xxxxxxxx, X. X., Xxxxx, X., Xxxxxxxx X., Richold, X., Xxxxxxxx, X. X., Xxxxxx, X. X. X. (1989), Xxxxxxxxxx Xxxxxxxx xx Xx xxxx Xxxxxxxxxxx Assays, xx: X. X. Xxxxxxxx (xx.), Xxxxxxxxxxx Xxxxxxxxxx xx Xxxxxxxxxxxx Xxxx Xxxx. UKEMS Xxx-Xxxxxxxxx on Guidelines xxx Xxxxxxxxxxxx Testing. Xxxxxx, Xxxx XXX, Xxxxxxxxx Xxxxxxxxxx Xxxxx, Xxxxxxxxx, New York, Xxxx Chester, Xxxxxxxxx, Xxxxxx, 184-232."

PŘÍLOHA 4D

"B.13/14 XXXXXXXXXX — XXXXXXX XX XXXXXXXX MUTACE S XXXXXXXXXX

1. METODA

Tato xxxxxx xx xxxxxxxx metody XXXX XX 471 — Zkouška xx xxxxxxxx xxxxxx x xxxxxxxxxx (1997).

1.1 XXXX

Xxx xxxxxxx na reverzní xxxxxx x bakteriemi xx xxxxxxxxx xxxxxxxxxxx xxxxx závislé na xxxxxxxxxxxxxxx Xxxxxxxxxx xxxxxxxxxxx x Escherichia xxxx, x xxxxxxx xxxxxxxx xxxxxx, xxxxx xxxxxxxx xxxxxxxxxx, xxxxx a xxxxxx xxxxxxx xxxx xxxxxxxx párů bází XXX (1, 2, 3). Xxxxxxxx xxxx xxxxxxx xx xxxxxxxx xxxxxx s xxxxxxxxxx xxxxxxx x xxxxxxx xxxxxx, xxxxx xxxxxxxxx xxxxxx xxxxxxxx v xxxxxxxxxxx xxxxxxx x xxxxxxxx xxx xxxxxxx xxxxxxxxx xxxxxxxx xxxxxxxxxxxx xxxxxxxxxx xxxxxxxxxxxxx. Xxxxxxxx xx xxxxxxx jsou xxxxxxxxxx díky své xxxxxxxxxx růst v xxxxxxxxxxxxx xxxxxxxxxxxx, které xxxx xxxxxxxxxx mateřským xxxxxxxxxx xxxxxx.

Xxxxxx xxxxxx x podobné xxxx xxxx xxxxxxxx mnoha xxxxxxxxx xxxxxxxxxxx xxxxxx x xxxxxxx a xxxxxxxx xxxxx důkazů x xxx, že xxxxxx xxxxxx x xxxxxxxxxx x x xxxxxx somatických buněk xxxxxxxxx nádory xxxx xxxxx xx xxxxxx xxxxxxxx u xxxxxxx x x xxxxxxxxx xxxxxx. Zkouška na xxxxxxxx xxxxxx s xxxxxxxxxx je xxxxxx, xxxxxxxxxx a xxxxxxxxx xxxxxx. Xxxxx testovacích xxxxx má řadu xxxxxxxxxx, xxxx xxxx xxxx xxxxxxxxxx na xxxxxxx xxxxxx, xxxxxx xxxxxxxxxxxxx sekvencí XXX xx reverzních xxxxxxx, xxxxxxx xxxxxxxxxxxx buněk xxx velké xxxxxxxx x xxxxxxxxx xxxxxxxxxxx xxxxxxx DNA xxxx xxxxxxxx xxxxxxxxxxx xxxxxxx XXX xxxxxxxxxx k xxxxxx. Specifičnost xxxxxxxxxxx xxxxx xxxx xxxxxxxxxx xxxxxxx xxxxxxxx xxxxxxxxx x xxxxxx mutací, xxx xxxx xxxxxxxxxx xxxxxxxxxxxxx xxxxxxxx. Xxx xxxxxxx xx xxxxxxxx xxxxxx s xxxxxxxxxx xx x xxxxxxxxx xxxxx rozsáhlá xxxxxxxx xxxxxxxx pro xxxxxxx xxxxx xxxxxxxx x xxxx byly vyvinuty xxxxx xxxxxxxxxx metody xxxxxxxx chemických xxxxx, xxxxxx těkavých xxxxxxxxx, x různými fyzikálně-chemickými xxxxxxxxxxx.

Xxx také xxxxxx xxxx, část B.

1.2 XXXXXXXX

Xxxxxxx na xxxxxxxx xxxxxx x xxxxxxxxxx Xxxxxxxxxx xxxxxxxxxxx nebo Xxxxxxxxxxx xxxx slouží x detekci xxxxxx x kmeni xxxxxxxxxxx xxxxxxxxxxxxx (xxxxxxxx xxxx. xxxxxxxxx), xxxxxxx vzniká xxxx xxxxxxxxx na xxxxxxx přísunu xxxxxxxxxxxxx.

Xxxxxxxx xxxxxxxxxx xxxx xxxx xxxx xxxxxxxx, xxx xxxxxxxxx xxxxx x xxxxxx DNA. Xxx xxxxxxx xxxxxxxxxx xxxxxx xx xxxxx xxxx xxxxx xxxxxxxxxx na xxxxx původní xxxxxx xxxx xxxxx xxxxx xxxxxxxxxxxxx genomu.

Posunové xxxxxxxx xxxx xxxxxxxx, jež xxxxxxxxx xxxxx xxxx xxxxxx xxxxxxx xxxx xxxx xxxx xxxx XXX x xxxxxxxx xxx čtecí xxxxx XXX.

1.3 XXXXXXX XXXXX

Xxx xxxxxxxxx xx xxxxxxxx xxxxxx x xxxxxxxxxx xx využívají xxxxxxxxxxxxx xxxxx, xxxxx xx xxxx od xxxxx xxxxx xxxxxxx, jako xxxx příjem, xxxxxxxxxxxx, xxxxxxxxxxxx xxxxxxxxx x xxxxxxxxx procesy XXX. Xxxxxxx xxxxxxxxx xx xxxxx xxxxxx vyžadují xxxxxxx vnějšího xxxxxx xxxxxxxxxxx xxxxxxxx. Metabolické xxxxxxxxx xxxxxxx in xxxxx xxxxxxx zcela xxxxxxxxx xxxxxxxx xx xxxx x xxxxx. Xxxxxxx xxxx xxxxxxxxxxx xxxxxx xxxxxxxxx x xxxxxxxxxx a xxxxxxxxxxxxx xxxxxxxxxx látky pro xxxxx.

Xxxxxxx xx reverzní xxxxxx s xxxxxxxxxx xx xxxxxxxxx xxxxxxxxx xxx počáteční xxxxxxxxx xxxxxxxxxxx aktivity, x xxxxxxx aktivity xxxxxxxxxxxx xxxxxx xxxxxx. X xxxxxxxx xxxxxxxx vyplývá, xx mnoho xxxxxxxxxx xxxxx, které xxxx x této xxxxxxx xxxxxxxxx, vykazuje mutagenní xxxxxxxx i x xxxxxx zkouškách. Xxxxxxxx xxxxxxxx xxxxxxxxxxx xxxxxxxx, xxxxx xxxxxx xxxxxxxxxx xxxxx xxxxxxxx. Xxxxxxx xxxxxx xxxxxxxxxxx lze xxxxxxxxx xx specifické xxxxxx xxxxxxxxxxxxxxxxxxxxx jevu, x xxxxxxxxx x xxxxxxxxxxx aktivaci xxxx x xxxxxxxxx x xxxxxxxxxx xxxxxxxxxxx. Xx xxxxx xxxxxx xxxxxxx, xxxxx zvyšují xxxxxxxxx xxxxxxx na xxxxxxxx xxxxxx xx bakteriích, xxxxx vést x xxxxxxxxxxxx xxxxxxxxx xxxxxxxx.

Xxxxxxx xx xxxxxxxx mutace x xxxxxxxxxx xxxxxx xxx xxxxxx pro xxxxxx xxxxx xxxxxxxxxx xxxxx, xxxxxxxxx xxxxxx xxxxxxxxxxxx sloučeniny (xxxx. xxxxxx xxxxxxxxxxx) x xxx chemické xxxxx, x xxxxx xx xxxxxxxxxxx (nebo o xxxxx xx xx), xx xxxxxxxxxx xxxxxxxx xx xxxxxxxxxxxx xxxxxxx xxxxx savců (xxxx. xxxxxxx xxxxxxxxxx topoisomerasy x xxxxxxx analogy xxxxxxxxxx). X takových xxxxxxxxx xxxxx být xxxxxxxxx xxxxxxx xxxxxxxxxx x savců.

Přestože xxxxx xxxxxxxxx, xxx něž xx xxxx zkouška xxxxxxxxx, je xxxxxxxxxxxx xxx xxxxx, xxxx xxxxxxxx absolutní. Xxxxxx xx chemické xxxxx x existuje mnoho xxxxxxxxxxx, xxx xxxxxx xxxxxxxxxx xxxxx xxxxxxxx, xxxxx xxxxxx xxxxxx, xxxxxxxxxxxxxxx xxxxxxxxxx, nebo xxxxxxxxxx, xxxxx x xxxxxxxxxxxxx xxxxxxx xxxxxxxxxx.

1.4 XXXXXXXX XXXXXXXX XXXXXX

Xxxxxxxx xxxxxxxxxxxxx buněk xxxx xxxxxxxxx xxxxxxxx xxxxx, x xx xx xxxxxxxxxxx xxxxxxxx xxxxxxxxxxxxx xxxxxxxxxxx systému a xxx xxxx. Xx xxxxxxxxxxx xxxxxxxx xxxxx xx suspenze xxxxxxxx x vrchním xxxxxx x xxxxx se xxxxxxx xx xxxxxxxxx xxxx. V xxxxxxxxxxxx xxxxxx se xxxxxxxx xxxx inkubuje a xxxx xx xxxx xxxxxxxxx xx minimální xxxx xxxxxx x xxxxxxx agarem. Xxx xxxx xxxxxxxxxx xx xx xxxx xxxx xxxxx xxxxx xxxxxxxx xxxxxxxxx xxxxxxx xxxxxxxxxx x provede xx xxxxxxxx x xxxxxx xxxxxxx spontánních revertantů xx kontrolní xxxxx x rozpouštědlem.

Je xxxxxxx xxxxxxx postupů xxxxxxxxx xxxxxxx na xxxxxxxx xxxxxx x xxxxxxxxxx. Xxxx xxxxx používané xxxxx standardní miskový xxxx (1, 2, 3, 4), xxxxxxxxxxxx xxxxxx (2, 3, 5, 6, 7, 8), xxxxxxxxxx xxxx (9, 10) x xxxxxxxxx xxxxxx (11). Xxxxxx xxx zkoušení xxxxx a xxx xxxx xxxxxxx (12).

Zde xxxxxxx postupy se xxxxxx hlavně xxxxxxxxxxxx xxxxxxxxx xxxxx a xxxxxxxxxxxxxx xxxxx. Xxxxx x nich xx xxxxxxxxxx xxx xxxxxxxxx xxxxxxxxxxx jak x xxxxxxxxxxxx xxxxxxxx, xxx xxx xx. Xxxxxxx xxxxx lze xxxxxxxx xxxxxxxxx xx xxxxxxx xxxxxxxxxxxx xxxxxx. Xxxx xxxxx xxxxx do xxxxxxxxxx tříd, xx xxxxx xxxxx xxxx xxxxx xxxxxx alifatické xxxxxxxxxxx, xxxxxxxxx kovy, xxxxxxxx, xxxxxxxxxx x xxxxxxxxxx sloučeniny, pyrrolizidinové xxxxxxxxx, allylové sloučeniny x nitrosloučeniny (3). Xxxxxx xx xxxxxxxxx, xx určité xxxxx xxxxxxxx xxxxx xxxx xxxxxxxxx standardními xxxxxxx, xxxx xx xxxxxxxxxx xxxxxxx xxxx xxxx xxxxxxxxxxxx xxxxxx. Xxxx xx být xxxxxxxxxx xx "zvláštní xxxxxxx" x x xxxxxx xxxxxxx se xxxxxxx xxxxxxxxxx xxxxxx xxxxxxxxxxxx xxxxxxx. Xx možné xxxxxxxxxxxxx xxxx "zvláštní xxxxxxx" (xxxxxxxx s xxxxxxxx postupů xxxxxx xxxxxxx): azobarviva x xxxxxxxxxx xxxxxxxxxx (3, 5, 6, 13), xxxxx a xxxxxx xxxxxxxx xxxxx (12, 14, 15, 16), x xxxxxxxxx (17, 18). Xxxxxxxx od xxxxxxxxxxxx postupu xxxx xxx vědecky xxxxxxxxxx.

1.5 XXXXX XXXXXXXX XXXXXX

1.5.1 Xxxxxxxxx

1.5.1.1 Xxxxxxxx

Xxxxxxx xxxxxxx xxxxxxxx xx xxxx xxx xxxxxxxxxxx xx xxxxxx xxxxxxxxxxxxx xxxx xxxx xx xxxxx xxxxxxxxxxx xxxx xxxxx (xxxxxxxxx 109 xxxxx xx ml). Buňky x xxxxxx xxxxxxxxxxx xxxx xx neměly xxx xxxxxxx. Je xxxxxxxx, aby xxxx xxxxxxx xxxxxxxx vysoký xxxx xxxxxxxxxxxxxxx bakterií. Xxxx xxxx xxx xxxxxxxx buď xx xxxxxxx xxxxxxxxxxx xxxxxxxxxxx xxxxx x xxxxxxx xxxxxx, nebo pro xxxxxx xxxxxxx xxxxxxxxxx xxxxx xxxxxxxxxxxxxxx xxxxx xx xxxxxxx.

Xxxxxxxxxx xxxxxxxxx xxxxxxx xx 37 °X.

Xxxx by xxx xxxxxxx alespoň pět xxxxx xxxxxxxx. Mezi xxxx xx měly xxx čtyři xxxxx X. xxxxxxxxxxx (XX1535; XX1537 xxxx XX97x xxxx TA97; TA98 x XX100), jejichž xxxxxxx xx xxxxxxx x xxxxxxx xxxxxxxxxxxx xxxx spolehlivá x xxxxxxxxxxxxxxxx. Xxxx čtyři xxxxx X. typhimurium xxxx xxx xxxx XX xx xxxxxxxxx xxxxxxxxx xxxxx a xx známo, že xxxxxx xxxxxxxxxxxxxxx xxxxx xxxxxxxxx určité xxxxxxxx xxxxxxxx, činitele způsobující xxxxxxxxxx xxxxxx XXX x xxxxxxxxx. Tyto xxxxx xxxxx xxx xxxxxxxxxx xxxxx E. xxxx WP2 nebo X. xxxxxxxxxxx TA102 (19), xxxxx mají xx xxxxxxxxx reverzním xxxxx pár bází XX. Doporučená xxxxxxxxx xxxxx xx tedy xxxx:

- S. typhimurium XX1535 x

- X. xxxxxxxxxxx XX1537 xxxx XX97x a

- X. xxxxxxxxxxx TA98 x

- X. xxxxxxxxxxx TA100 x

- E. coli XX2 xxxX, xxxx X. coli XX2 xxxX (pKM101), nebo X. xxxxxxxxxxx TA102.

Pro xxxxxxx xxxxxxxx způsobujících xxxxxxxxxx xxxxxx XXX xxxx být vhodnější xxxxxxx XX102 nebo xxxxxx xxxx E. xxxx x xxxxxxx xxxxxxxxxx xxxxxxxx XXX, (xxxx. X. coli XX2 (pKM101)).

Měly by xxx xxxxxxx xxxxxxxx xxxxxxx přípravy xxxxxxx xxxxxxx, xxxxxxxxxx markeru x xxxxxxxxxx. Potřeba xxxxxxxxxxxxx xxx xxxx xx měla xxx xxxxxxxxx xxx xxxxxx xxxxxxxxx xxxxxxxx xxxxxxx (xxxxxxxx xxx xxxxx X. xxxxxxxxxxx x xxxxxxxxx pro X. xxxx). Xxxxxxx xx xxxx xxx kontrolovány xxxx fenotypové xxxxxxxxxxxxxxx, xxxxxxxxx podle xxxxxxx xxxxxxxxxx nebo xxxxxxxxxxxx X-xxxxxxx xxxxxxxx (xx. xxxxxxxxxxxx xxxxxxxxxx x xxxxx XX98, TA100 x XX97x xxxx XX97, XX2 uvrA x WP2 xxxX (xXX101) a xxxxxxxxxxxx x tetracyklinová xxxxxxxxxx x xxxxx XX102), xxxxxxxxxx xxxxxxxxxxxxxxxxxx mutací (xx. rfa xxxxxx x X. xxxxxxxxxxx xxxxxxxxxx xx xxxxxxxxxxx xxxxxx x uvrA xxxxxx u X. xxxx xxxx xxxX xxxxxx x X. xxxxxxxxxxx xxxxxxxxxx na xxxxxxxxxxxx xxxxxx) (2, 3). Xxxxx xx xxxx xxxxxx xxxxx xxxxx kolonií xxxxxxxxxxx xxxxxxxxxx na misce x xxxxxxx četností xxxxxxxxxxx xx základě xxxxxxxxxxx údajů laboratorních xxxxxxx x xxxxxxx x xxxxxxx xxxxxxxx x literatuře.

1.5.1.2 Xxxxxx

Xxxxxxx xx xxxxxx xxxxxxxxx xxxx (např. xxxxxxxxxx xxxxxxxxx xxxx E (Xxxxx-Xxxxxx) a glukosu) x xxxxxx xxxx xxxxxxxxxx xxxxxxxx x xxxxxx nebo tryptofan xxxxxxxxxx xxxxxxx xxxxxxxxx xxxxxx (1, 2, 9).

1.5.1.3 Xxxxxxxxxxx xxxxxxxx

Xxxxxxxx xx měly xxx xxxxxxxxx xxxxxxxx xxxxx, x to x xxxxxxx xxxxxxxx xxxxxxxxxxx xxxxxxxx x xxx xxxx. Xxxxxxxxxx xxxxxxxxxx xxxxxxxx xx kofaktorem xxxxxxxx xxxxxxxxxxxxxxxxxxx xxxxxx (X9) připravená x xxxxx xxxxxxxx xxxxxxxxxx xxxxxxxxxxx indukujícím xxxxxx, xxxx je Xxxxxxx 1254 (1, 2) xxxx fenobarbitonu x β-xxxxxxxxxxxx (18, 20, 21). Xxxxxxxxxxxxxxxxxxx frakce xx xxxxxxx xxxxxxxxx x koncentracích v xxxxxxx 5 xx 30 % obj. xx směsi X9. Xxxxx x xxxxxxxx xxxxxxxxxxxxx xxxxxxxxxxx xxxxxxx xxxx xxxxxxx na xxxxx xxxxxxxx xxxxxxxx xxxxx. X xxxxxxxxx xxxxxxxxx xxxx xxx xxxxxx použít xxxx xxx xxxxx xxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xxxxxx. X xxxxxxxxx x xxxxxxxxxxxx xxxxxxxxx xxxx být xxxxxxxxx xxxxxxx xxxxxxxxxx xxxxxxxxxxxxx xxxxxxxxxxx xxxxxxx (6, 13).

1.5.1.4 Xxxxxxxx xxxxx xxxx xxxxxxxxx

Xxxxx xxxxxxxx xxxxx xx xxxx být xxxx xxxxxxxx xx xxxxxxxx xxxxxxxxxx xxxx suspendovány xx xxxxxxxx rozpouštědlech xxxx xxxxxxxxxx x xxxxxxxxx zředěny. Xxxxxxx xxxxxxxx xxxxx mohou xxx xxxxxxx xxxxx x xxxxxxxxxx xxxxxxxx x/xxxx mohou být xxxx xxxxxxxx zředěny. Xxxx by být xxxxxxx xxxxxxx xxxxxxxxxx xxxxxxxx xxxxxxxx xxxxx, xxxxx xxxxx x xxxxxxxx xxxxxxxxxxx xxxxxxx xxxxxxxxxx.

Xxxxxxxxxxxx/xxxxxxxxx by xxxx xxx mimo xxxxxxxxx, xx xxxxxxx xx xxxxxxxxx xxxxxx, a xxxx xx xxx xxxxxxxxxx s xxxxxxxx xxxxxxxx x x xxxxxxxxx X9 (22). Xxxx-xx použita xxxx xxx xxxxx rozpouštědla/vehikula, xxxx xx být xxxxxx xxxxxxxx xxxxxxxxx xxxxx o xxxxxx xxxxxxxxxxxxx. Xxxxxxxxxx se xxxxx možno nejdříve xxxxxx použití vodných xxxxxxxxxxxx/xxxxxxx. Při xxxxxxxx xxxxx xxxxxxxxx ve xxxx xx xxxx xxx použita xxxxxxxxx xxxxxxxxxxxx xxxxxxxxxxxx xxxx.

1.5.2 Xxxxxxxx xxxxxxxx

1.5.2.1 Xxxxxxxx xxxxx (viz 1.5.1.1)

1.5.2.2 Xxxxxxxxx xxxxxxxxxxx

Xxxx xxxxxxxx, xxxxx mají xxx xxxxxxxxxx xxx xxxxxxxxx xxxxxxxxxx množství zkoušené xxxxx xxxxx xxxxxxxxxxxx x rozpustnost v xxxxxxx směsi xxx xxxxxxxx.

Xxxx být xxxxxxxx xxxxxxxx xxxxxxxx x xxxxxxxxxxxxx x xxxxxxxxxxx xxxxxxxxxxxxx. Cytotoxicita může xxx xxxxxxxxxx xxxxxxxx xxxxx xxxxxxx revertantů, xxxxxxxxx xxxx zeslabením xxxxxxxxxxxxx xxxxxxxx xxxx xxxxxxxx xxxxxx xxxxxxx xxxxxxxxxxxx xxxxxx. Xxxxxxxxxxxx xxxxx se může xxxxxx v xxxxxxxxxxx xxxxxxxxxxxxx xxxxxxxxxxx systémů. Xxxxxxxxxxxxx xx xxxx xxx xxxxxxxxx xx xxxxxxx xxxxxxxxxxx srážení x konečné xxxxx xx xxxxxxxxxx xxxxxxxxxx xxxxxxxx.

Xxxxxxxxxx xxxxxxxxx zkušební xxxxxxxxxxx pro xxxxxxxxx xxxxxxxxxxxxx xxxxx xx 5 xx/xxxxx xxxx 5 μx/xxxxx. X xxxxxxxxxxxxxxx xxxxx xxxxxxxxxxxxx xxx koncentracích 5 xx/xxxxx xxxx 5 μx/xxxxx xx xxxx xxx xxxxx xxxx xxxx zkušebních xxxxxxxxxxx xxxxxxxx, xxx látky xxxx x xxxxxxx xxxxx xxx xxxxxxxx xxxxxxxxxxx. Xxxxxxxx xxxxx, xxxxx jsou xxxxxxxxxxx xxx xxx xxxxxxxxxxxxx xxxxxxx xxx 5 xx/xxxxx xxxx 5 μx/xxxxx, xx měly xxx xxxxxxxx až xx xxxxxxxxxxx xxxxxxxxxxx. Xxxxxxxxx by neměla xxxxx xxx vyšetřování.

Mělo xx xxx použito xxxxxxx xxx různých xxxxxxxxxxxxxxxx xxxxxxxxxxx xxxxxxxx xxxxx, přičemž xxx xxxxxx xxxxxxxxxxx xx xxxx xxx intervaly xxxx xxxxxxxxxx xxxx xxxxx přibližně xxxxxxxx xxxxx logaritmické stupnice (xx. Ö10). Xxxxx xxxxxxxxx jsou xxxxxx x xxxxxxx, kdy xx xxxxxxxxx xxxxxx xxxxxxxxxx xxxxxxxx xx xxxxxxxxxxx. Xxxxxxxx xxxxxxxxxxx xxxxxxx xxx 5 xx/xxxxx xxxx 5 μx/xxxxx xxxx být xxxxxxx xxx hodnocení xxxxx xxxxxxxxxxxx xxxxxxxx xxxxxxxx potenciálně xxxxxxxxxxx xxxxxxxx.

1.5.2.3 Xxxxxxxxx x xxxxxxxxx kontroly

Součástí xxxxxxx xxxxxxxxx xx xxxx xxx xxxxxxx specifické xxxxxxxxx a xxxxxxxxx (xxxxxxxxxxxx nebo vehikulum) xxxxxxxx s xxxxxxxxxxxx xxxxxxxx x bez xx. Xxx xxxxxxxxx xxxxxxxx by xxxx xxx xxxxxxx xxxxxxxxxxx xxxxxxxxxxx xxxxxxxx xxxxx xxxxxxx.

X xxxxxxx xxxxxxx x xxxxxxxx xxxxxxxxxxxxx xxxxxxxxxxx systému xx xxxx být xxxxx (xxxxx) xxx pozitivní xxxxxxxx vybrána (xxxxxxx) xx xxxxxxx xxxx xxxxxxxxx xxxxx bakterií.

Příkladem xxxxxx pozitivní xxxxxxxx x xxxxxxx s xxxxxxxxxxxx xxxxxxxx xxxx xxxx xxxxx:

Xxxxx

Xxxxx XXX

Xxxxx xxxxx EINECS

9,10-dimethylanthracen

781–43–1

212–308–4

7,12-dimethylbenzo[a]anthracen

57–97–6

200–359–5

benzo[a]pyren

50–32–8

200–028–5

2-aminoanthracen

613–13–8

210–330–9

Cyklofosfamid

50–18–0

200–015–4

cyklofosfamid xxxxxxxxxx

6055–19–2

Xxxx xxxxx je xxxxxxx xxxxxxxxx kontrolou xxx xxxxxx xxxxxxxx xxxxxxxxxxx xxxxxxxx:

Xxxxx

Xxxxx XXX

Xxxxx podle XXXXXX

XX Direct Xxx 28

573–58–0

209–358–4

2-xxxxxxxxxxxxxx by xxxxx xxx xxxxxx xxxx xxxxxx xxxxxxxxx xxxxxxxxx xxxxx X9. Xxx xxxxxxx 2-xxxxxxxxxxxxxxx by xxxx být xxxxx xxxxx S9 xxxxxxxxxxxxxxxx xxxxxxxxx, který xxxxxxxx xxxxxxxxxxxx xxxxxxxx mikrosomálními xxxxxx, xxxxxxxxx benzo[a]pyren xxxx 7,12-xxxxxxxxxxxxx[x]xxxxxxxxx.

Xxxxxxxxx xxxxxxxxxxxxxxxxx xxxxxxxxx xxxxxxxx u xxxxxxx bez xxxxxx xxxxxxxxxxx aktivace xxxx xxxx látky:

Látka

Číslo XXX

Xxxxx xxxxx XXXXXX

Xxxx

xxxx xxxxx

26628–22–8

247–852–1

XX1535 x TA100

2-nitrofluoren

607–57–8

210–138–5

TA98

9-aminoakridin

90–45–9

201–995–6

TA1537, XX97 x XX97x

XXX 191

17070–45–0

241–129–4

XX1537, XX97 a XX97x

Xxxxxxxxxxxxxxxxx

80–15–9

201–254–7

XX102

xxxxxxxxx X

50–07–7

200–008–6

XX2xxxX a XX102

1-xxxxxx-3-xxxxx-1-xxxxxxxxxxxxxxx

70–25–7

200–730–1

XX2, XX2 xxxX x XX2 uvrA (xXX101)

4-xxxxxxxxxxxxx-1-xxxx

56–57–5

200–281–1

XX2, XX2 xxxX x XX2 xxxX (xXX101)

α-[(5-xxxxx-2-xxxxx)xxxxxxxxxx]xxxxx-2-xxxxxxxx (XX2)

3688–53–7

xxxxx xxxxxxxxxx plasmidy

Pro xxxxxxxxx kontrolu xxxxx xxx použity jiné xxxxxx xxxxxxxxxx xxxxx. Xxx xxxxxxxxx xxxxxxxx xx xxxx být xxxxx x xxxxx xxxxxxx xxxxxxxxxx látek xx stejné xxxxxxxx xxxxx, xxxx li x xxxxxxxxx.

Xxxx xx xxx xxxxxxx negativní xxxxxxxx xxxxxxxxxx se xx xxxxxxxxx xxxxxxxxxxxx xxxx xxxxxxxx, xxx xxxxxxxx xxxxx, xxxxxxxxxx xxxxx xxxxxxx xxxxxxxx xxxx xxxxxxxxxx xxxxxxx. Xxxxx xxxx xx xxxx xxx xxxxxxxxxxxx xxxxxxxx xxxxxxx xxxx xxxxx, neexistují-li dosud xxxxxxxxx údaje xxxxxxxxxxx, xx xxxxxxx rozpouštědlo xxxxxxxxxx žádné xxxxxxx xxxx mutagenní xxxxxx.

1.5.3 Xxxxxx

X standardní xxxxxxx xxxxxx (1, 2, 3, 4) xxx xxxxxxxxxxx xxxxxxxx se xxxxxxx smíchá 0,05 xx nebo 0,1 xx xxxxxxxxxx xxxxxxx, 0,1 ml xxxxxxx xxxxxxxxxxx xxxxxxx (xxxxxxxxxx xxxxxxxxx 108 xxxxxxxxxxxxxxx xxxxx) a 0,5 xx xxxxxxxxxx xxxxx x 2,0 xx xxxxxxxx xxxxx. X xxxxxxx zkoušky x xxxxxxxxxxxx xxxxxxxx se xxxxxxx xxxxxx 0,5 xx xxxxxxxxxxx aktivační xxxxx obsahující xxxxxxxxx xxxxxxxx xxxxxxxxxxxxxxxxxxx frakce (x xxxxxxx 5 xx 30 % xxx. x xxxxxxxxxxx xxxxxxxxx směsi) s xxxxxxx xxxxxx (2,0 xx) x xxxxxxx x xxxxxxxxxx x xxxxxxxxx xxxxxx xxxx xxxxxxxxx roztokem. Xxxxx xxxxx xxxxxxxx xx xxxxxxxx x xxxxxxx xxxx povrch minimálního xxxxx na xxxxx. Xxxx xxxxxxxx xx xxxxx xxxxxx xxxx xxxxxxxx.

X xxxxxxxxxxxx xxxxxx (2, 3, 5, 6) xx xxxxxxxx xxxxx xxxx zkoušený xxxxxx před xxxxxxxxx x xxxxxxx xxxxxx x přelitím xxxx xxxxxx xxxxxxxxxxx xxxxx xx misce obvykle 20 xxxxx xxxx xxxx preinkubuje x xxxxxxxxxx kmenem (obsahujícím xxxxxxxxx 108 xxxxxxxxxxxxxxx xxxxx) x xxxxxxxxx xxxxxx xxxx xxxxxxxxxxxx xxxxxxxxxx xxxxxxxx (0,5 xx) xxx 30 — 37 °X. Xxxxxxx se smíchá 0,05 xxxx 0,1 xx zkoušené xxxxx xxxx xxxxxxxxxx xxxxxxx, 0,1 xx xxxxxxxx x 0,5 xx xxxxx X9 xxxx xxxxxxxxxx pufru x 2,0 xx xxxxxxxx xxxxx. Xxxxxxxx xx xxxx být během xxxxxxxx xxxxxxxxxxxxxx xx xxxxxxxx.

X xxxxxxxxxxxx odhadu xxxxxxxx xx xxxx xxx při xxxxx xxxxxx xxxxx použity 3 xxxxx. Xxxxxxx xxxx xxxxx xx xxxxxxxxxx xx xxxxxxxx xxxxxxxxxx. Xxxxxxxx xxxxxx xxxxx nemusí xxxxxxxx xxxxxxxxxxxx xxxxxxx.

Xxxxxx xxxx xxxxxx látky xx xxxx xxx xxxxxxxx xxxxxxxx xxxxxxxx, např. x xxxxx xxxxxxxxxx xxxxxxxxxxxx nádobách (12, 14, 15, 16).

1.5.4 Xxxxxxxx

Xxxxxxx misky x xxxx xxxxxxx by xxxx xxx inkubovány xxx 37 °C xx 48 –72 xxxxxxxx. Po xxxxxxxx xxxxxxxxx xxxx xx xxxxxx počet kolonií xxxxxxxxxx xx misku.

2. XXXXX

2.1 ZPRACOVÁNÍ VÝSLEDKŮ

Předloženými xxxxx by měly xxx xxxxx xxxxxxx xxxxxxxxxx připadající na xxxxx. Xxx xx xxx xxxxxx xxxxxx xxxxx xxxxxxx revertantů xxx xx xxxxxxx x negativní xxxxxxxxx (xxxxxxxx xxxxxxxxxxxx a xxxxxxxx neexponovaná kontrola), xxx xx xxxxxxx x pozitivní kontrolou. Xxxxx xx xxxxxxxxxxxx xxxxxxx, střední hodnoty xxxxx xxxxxxx xxxxxxxxxx xx xxxxx x xxxxxxxxxx xxxxxxxx xx xxxx xxx xxxxxxxxxx xxx xxxxxxxxx xxxxx x xxxxxxxxx x xxxxxxxxx xxxxxxxx (neexponovanou xxxxxxxx a/nebo xxxxxxxx xxxxxxxxxxxx).

Xxxxxxx xxxxx xxxxxxxxx xxxxxxxx xx xxxxxxxxxx. Xxxxxxxxxx xxxxxxxx xx xxxx xxx vyjasněny xxxxxx zkoušením, nejlépe x xxxxxxx xxxxxxxxxxxxxxxx xxxxxxxx. Xxxxxxxxx xxxxxxxx xxxx xxx xxxxxxxxx xxxxxx od xxxxxxx. Xxxxxxxx xx xxxxxxxxx xxxxxxxxxxx výsledků nepovažuje xx xxxxxxxx, mělo xx xxx podáno xxxxxxxxxx. Xxxxx parametrů xxxxxx x cílem xxxxxxxx xxxxxx xxxxxxxxxxxx xxxxxxxx by xxxx xxx xxxxxxx v xxxxxxxxxx xxxxxxxxxxxxx. K xxxxxxxxxx xxxxxx, které xx mohly být xxxxxxx, xxxxx xxxxxxx xxxxxxxxxxx, xxxxxx xxxxxxxxxx (xxxxxxxxxx xxxxxxx xxxxxx xxxx preinkubace x xxxxxxxx xxxxx) x xxxxxxxx xxxxxxxxxxx aktivace.

2.2 XXXXXXXXX A XXXXXXXXXXXX XXXXXXXX

Xxx stanovení xxxxxxxxxxx xxxxxxxx existuje několik xxxxxxxx, xxxx. nárůst xxxxx xxxxxxx xxxxxxxxxx xx misku xxx xxxxxxxxx xxxxxx x xxxxxxx jednoho xxxxx x metabolickým aktivačním xxxxxxxx nebo xxx xxxx, x xx x závislosti xx xxxxxxxxxxx, xxxx xxxxxxxxxxxxxxxx xxxxxx xxxxxx xxxxx xxx xxxxx xxxx xxxx xxxxxxxxxxx (23). Xxxxxxxx by měla xxx xxxxxxx biologická xxxxxxxxx xxxxxxxx. Xxx xxxxxxxxx xxxxxxxx xxxxxxx xxxxx být použity xxxx xxxxxxx xxxxxxxxxx xxxxxxxxxxx metody (24). Xxxxxxxxxxx xxxxxxxxxx xx xxxxxx xxx jediným xxxxxxxxx xxxxxxxx xxx xxxxxxxxx odpověď.

Zkoušená xxxxx, xxxxx xxxxxxxx xxxxxxxxx xxxx xxxxxxx kritéria, xx xxxxxxxx v xxxxx systému xx xxxxxxxxxxx.

Xxxxxx většina xxxxxxxxxxx xxxxxxxx jasně pozitivní xxxx xxxxxxxxx výsledky, x ojedinělých případech xxxxxxxx xxxxxx xxxxx xxxxxxxx konečný xxxxx x aktivitě zkoušené xxxxx. Výsledky xxxxx xxxxxx dvojznačné xxxx xxxxxx xxx xxxxxx xx to, kolikrát xx xxxxxxxxxx xxxxxxxx.

Xxxxxxxxx xxxxxxxx xxxxxxx xx xxxxxxxx xxxxxx x xxxxxxxxxx znamenají, xx xxxxxxxx látka xxxxxxxx x genomu xxxxx Xxxxxxxxxx xxxxxxxxxxx a/nebo Xxxxxxxxxxx xxxx bodové xxxxxx xxxxxxxxxx xxxx xxxx xxxxxxx xxxxxxx xxxxx. Negativní xxxxxxxx xxxxxxxxx, xx zkoušená xxxxx xxxx xx xxxxxxxx zkoušky xxx xxxxxxxxx xxxxx xxxxxxxxx.

3. XXXXXX

XXXXXXXX X ZKOUŠCE

Protokol x zkoušce xxxx xxxxxxxxx xxxx informace:

Rozpouštědlo/vehikulum:

- xxxxxxxxxx volby xxxxxxxxxxxx/xxxxxxxx,

- xxxxxxxxxxx a xxxxxxx xxxxxxxx xxxxx x xxxxxxxxxxxx/xxxxxxxx, xx-xx xxxxx.

Xxxxx:

- xxxxxxx xxxxx,

- xxxxx xxxxx x xxxxxxx,

- xxxxxxxxxxxxxxx xxxxx.

Xxxxxxxx xxxxxxxx:

- xxxxxxxx zkoušené látky xx xxxxx (xx/xxxxx xxxx μx/xxxxx) x xxxxxxxxxxx xxxxxx dávky x xxxxx misek xx koncentraci,

- použitá xxxxx,

- xxx x xxxxxxx xxxxxxxxxxxxx aktivačního xxxxxxx, xxxxxx xxxxxxxx xxxxxxxxxxxxx,

- xxxxxx xxxxxxxx.

Xxxxxxxx:

- xxxxxx toxicity,

- xxxxxx xxxxxxx,

- xxxxx xx xxxxxxxxxxxx xxxxxxx,

- xxxxxxx xxxxxxx počtu kolonií xxxxxxxxxx na xxxxx x xxxxxxxxxx xxxxxxxx,

- xxxxx možnosti xxxxxxxxx xxxxxxxx xx xxxxx,

- xxxxxxxx xxxxxxxxxxx xxxxxxx,

- xxxxx x souběžné xxxxxxxxx (xxxxxxxxxxxx/xxxxxxxxx) a xxxxxxxxx xxxxxxxx x xxxxxxxxx, xxxxxxxxx xxxxxxxxx x xxxxxxxxxxxx odchylkami,

- xxxxxxxxx údaje o xxxxxxxxx (xxxxxxxxxxxx/xxxxxxxxx) x xxxxxxxxx xxxxxxxx s xxxxxxxxx, xxxxxxxxx xxxxxxxxx x směrodatnými xxxxxxxxxx.

Xxxxxx xxxxxxxx.

Xxxxxx.

4. LITERATURA

1) Xxxx, X. X., McCann, X., Yamasaki X. (1975), Xxxxxxx of Xxxxxxxxx Carcinogens and Xxxxxxxx xxxx the Xxxxxxxxxx/Xxxxxxxxx-Xxxxxxxxx Mutagenicity Test, Xxxxxxxxxx Xxx., 31, 347-364.

2) Xxxxx, D. X., Ames, B. X. (1983), Xxxxxxx Xxxxxxx xxx the Xxxxxxxxxx Mutagenicity Test, Xxxxxxxxxx Xxx., 113, 173-215.

3) Xxxxxxxxx, D., Xxxxxxx, X., Cebula, X., Xxxxx, X., Xxxx, L., Matsushima, X., Xxxxxxx, X., Xxxxx, T., Xxxxxx, X., Xxxxxx, X. (1994), Xxxxxxxxxxxxxxx for xxx Xxxxxxxxxxx xx Xxxxxxxxx Xxxxxxxx Assays, Xxxxxxxxxx Res., 312, 217-233.

4) Kier, X. X., Xxxxxxx X. X., Xxxxxxx, X. X., Xxx Xxxxx, X. X., Xxxxx, X. X., Simmon, X. X., Xxxxxx, X., McCann, X., Xxxxxxxxxx, X., Prival, X., Xxx, X. X., Xxx X. (1986), Xxx Salmonella xxxxxxxxxxx/Xxxxxxxxx Xxxxxxxxxx Xxxxx: X Xxxxxx of xxx U. X. Xxxxxxxxxxxxx Protection Xxxxxx Xxxx-Xxx Xxxxxxx, Xxxxxxxxxx Xxx., 168, 69-240.

5) Xxxxxx, X., Xxxxxx, X., Seino, X. X., Matsushima, X., Xxxxx, X., Sugimura, X., Xxxxxxxxx, X. (1975), Xxxxxxxxxxxx of Xxxxxxxxxx Xxx Xxxx xxx their Xxxxxxxxxxx, Xxxxxx Xxxx. 1, 91-96.

6) Matsushima, X., Xxxxxxxx, X., Nagao, X., Yahagi, T., Xxxxxx, X., Xxxxxxxx, X. (1980), Xxxxxxx Xxxxxxxxxx Xxxxxxxxxxxx Xxxxxxxxx Xxxxx, xx: Short-term Xxxx Xxxxxxx xxx Xxxxxxxxx Xxxxxxxxxxx, xx. Xxxxxxx X. X., Xxxxxx, X. C., Xxxxxxxx, Xxxxxx-Xxxxxxxxxx-Xxx Xxxx, 273-285.

7) Xxxxxxxxx, X. X., Rowland, X. X., Xxxxxx, P., Xxxxxxxxx, R. X., Xxxxxx, X. (1980), Xxxxxxxxx Xxxxxxxx Assays, xx: Xxxxx Xxxxxxxxxxxx Xxxxx: UKEMS Xxxx 1 Xxxxxxx, ed. X. J. Xxxxxxxx, Xxxxxxxxx Xxxxxxxxxx Xxxxx, 13-61.

8) Xxxxxxxxxx, X. X., Wolleb, U., Xxxxxxx, X. (1987), Xxxxxx Xxxxxxxxxxxxx Xxxxxxxxxxxx Xxxx for Xxxxx, X. Xxxx Xxxxxx., 8, 167-177.

9) Xxxxx, X. H. X., Xxxxxx, X. X., Xxxxxxx, X. X. (1976), Xxx xx x simplified xxxxxxxxxxx xxxx xx xxxxxx xxx xxxxxx xx xxxxxxxx, Xxxxxxxxxx Xxx., 38, 33-42.

10) Xxxxxxx, X. A., Green, X. H. L., Xxxxxxxxx, D., Xxxxxxx, X. X. (1984), Xxx Xxxxxxxxxxx Xxxx xx Xxxxxxxx, xx: Xxxxxxxx xx Xxxxxxxxxxxx Xxxx Xxxxxxxxxx, 2. xxx., Xxxxxx, B. X., Xxxxxxx, M., Xxxxxxx, X., Xxxxx, X. (xxx.), Xxxxxxxx, Xxxxxxxxx-Xxx Xxxx-Xxxxxx, 141-161.

11) Xxxxxxxx, X. X., Xxxxxxx, X. X. (1981), Xx Xxxxxxxxxxx xx xxx Quantitative Xxxxxxxxxx Assay xxx Xxxxxxxxxxx xxxx Xxxxxxx xx Salmonella xxxxxxxxxxx, Xxxxxxxxxxxxx Mutagenesis, 3, 453-465.

12) Araki, X., Xxxxxxx, T., Xxxx, X., Xxxxxxxxxx, X. (1994), Xxxxxxxx Xxxxxx xxx Mutagenicity Testing xx Xxxxxxx Compounds xx Xxxxx a Xxx Xxxxxxxx Xxx, Xxxxxxxxxx Res., 307, 335-344.

13) Xxxxxx, M. X., Xxxx, X. X., Mitchell, X. X., Xxxxxxx, X. X., Xxxxxxx, X. X. (1984), Mutagenicity xx Xxxxxxxxx xxx Xxxxxxxxx-Xxxxxxxx Xxxx xxx Xxxxxxxx Monoazo Xxxx xx x Xxxxxxxx Xxxxxxxxxx Xxxxx, Mutatation Xxx., 136, 33-47.

14) Xxxxxx, E., Anderson, X. X., Xxxxxxx, X., Xxxxxx, T., Xxxxxxxxxx, K. (1992), Xxxxxxxxxx Xxxxxxxxxxxx Xxxxx. X. Xxxxxxx from xxx Xxxxxxx xx 311 Chemicals, Environ. Xxx. Mutagen., 19, 2-141.

15) Xxxxxx, X., Xxxxxxxx, K., Xxxxxxx, X. G. (1977), Xxxxxxxxx Xxxxxxxx xx Xxxxxxxxx Xxxxxxxxxx xx Xxxxxxxx Xxxxx, in Xxxxxxxx in Xxxxxxx Xxxxxxxxxx, X. Scott, X. Xxxxxxx, X. Xxxxxx (xxx.) Xxxxxxxx, Xxxxxxxxx, 249-258.

16) Xxxxxx, X. J., Xxxxxxx, X. M., Monteith, X. X., Claxton, X. X. (1987), Xxxxxxxxxxxx Xxxxxxxxx to Xxxxxxx Mutagenic Activity xx Xxxxxxxx Xxxxxxx Xxxxxxxxx xx xxx Xxxx/Xxxxxxxxxx Assay, Environmental Xxxxxxxxxxx, 9, 421-441.

17) Xxxxxxxxxx, X., Xxxxxxxxx, X., Xxxxxx, X., Xxxxxxxx, X., Xxxxxxxx, X. (1979), Mutagenicity xx the Xxxxxxxxx Xxxxxxxxx Xxxxxxxxxx Xxxxxxx xxx Xxxxxxxxx Xxxxxxxxxxx Xxxxxxx Conjugates xx Xxxxxxxxxx typhimurium, Xxxxxx Xxx., 39, 3780-3782.

18) Xxxxxx, X., Gold, X., Ferro-Luzzi, X., Xxxx, X. X. (1980), Fecalase: X Xxxxx xxx Activation xx Dietary Xxxxxxxxxx xx Xxxxxxxx xx Xxxxxxxxxx Flora, Xxxx. Xxxx. Xxxx. Xxx. X. X. X, 77, 4961-4965.

19) Wilcox, X., Xxxxxx, A., Xxxx, D. X., Xxxxxxxxx, X. X. (1990), Comparison xx Xxxxxxxxxx typhimurium XX 102 xxxx Escherichia xxxx WP2 Xxxxxx xxxxxxx, Xxxxxxxxxxx, 5, 285-291.

20) Matsushima, X., Xxxxxxxx, M., Xxxx, X., Sugimura, X. (1976), A Xxxx Xxxxxxxxxx xxx Xxxxxxxxxxxxxxx Xxxxxxxxx a. x. xx Xxxxxxx xx Xxxxxxxxx Xxxxxxxxxx Systems, xx: Xx xxxxx Xxxxxxxxx Xxxxxxxxxx in Xxxxxxxxxxx Testing, eds. X. X. de Xxxxxx et xx. Xxxxxxxx, North Xxxxxxx, 85-88.

21) Xxxxxx, X. X., Xxxxxx, X. X., Xxxxxxx, X. X., Xxxxxxxxx, X. X., Xxxxxx, G. X., Mackay, X. X., Xxxx, X. X. (1992), Xxxxxxxxxxxx xx Xxxxxxx 1254-xxxxxxx X9 xx xx xxxxx Xxxxxxxxxxxx Xxxxxx, Xxxxxxxxxxx, 7, 175-177.

22) Xxxxx, X., Katzenellenbogen, X., Xxxx, X. X. (1981), Xxxxxxxxxxxxx xx Xxxxxxx Xxxxxxxx xxxx the Xxxxxxxxxx/Xxxxxxxxx Xxxx, Mutatation Xxx., 88, 343-350.

23) Claxton, X. X., Xxxxx, X., Xxxxxxx, X., Xxxxxxxxxx, X., Xxxxxxxx, X., Xxxxxx, X. (1987), Guide xxx xxx Xxxxxxxxxx xxxxxxxxxxx/Xxxxxxxxx Xxxxxxxxx Xxxxx for Xxxxxxxxx Xxxxxxxxxxxx, Xxxxxxxxxx Xxx., 189, 83-91.

24) Xxxxx, G. X. X., Green, X. X. X., Xxxxxxxxx, X., Xxxxxxx, X., Xxxxxxxx, X. X., Xxxxxx, D. X. (1989), Xxxxxxxx xx Xxxx from Xxxxxxxxx Xxxxxx Assays, xx: XXXXX Sub-Committee on Xxxxxxxxxx for Xxxxxxxxxxxx Xxxxxxx, Xxxx XX. Xxxxxxxxxxx Evaluation of Xxxxxxxxxxxx Xxxx Data, xx. Kirkland, X. X., Xxxxxxxxx Xxxxxxxxxx Xxxxx, 28-65."

XXXXXXX 4X

"X.17 MUTAGENITA — ZKOUŠKA XX XXXXXX XXXXXX V XXXXXXX XXXXX IN XXXXX

1. METODA

Tato xxxxxx xx xxxxxxxx metody XXXX XX 476 — Zkouška na xxxxxx xxxxxx v xxxxxxx xxxxx xx xxxxx (1997).

1.1 ÚVOD

Zkoušku xx xxxxxx xxxxxx x buňkách xxxxx xx vitro xxx xxxxxx pro xxxxxxx xxxxxxxx mutací indukovaných xxxxxxxxxx látkami. Xxxx xxxxxx xxxxxxx xxxxx xxxxx buňky xxxxxxx X5178X xxxx, xxxxxxx xxxxx XXX, XXX-XX52 x V79 xxxxxx xxxxxxxx x xxxxxxxxxxxxxxx xxxxx XX6 xxxxxxx (1). X těchto xxxxxxxxx xxxxx jsou xxxxxxxxxxxxxxx xxxxx xxxxxxxxxxx xxxxxx xxxxxx genů xxx xxxxxxxxxxxxxx (XX) x hypoxanthin-guaninfosforibosyltransferasu (XXXX) x xxxxxxxx xxxxxxx-xxxxxxxxxxxxxxxxxxxxxxxxxxxxx (XXXX). Xxxxxxx xx xxxxxx XX, XXXX x XPRT detekují xxxxx spektrum xxxxxxxxxxx xxxxxxxx. Xxxxxxxxxxx lokace XX a XXXX xxxx xxxxxxx detekci xxxxxxxxxxx xxxxxxxx (např. xxxxxxxx xxxxxx), xxxxx xxxxx detekovat x XXXX xxxxxx xx X xxxxxxxxxxxx (2, 3, 4, 5, 6).

Xx zkoušce xx xxxxxx mutace x xxxxxxx xxxxx xx xxxxx xxx xxxxxx xxxxxxx xxxxxxxxxx xxxxx xxxxx xxxx xxxxxxx xxxxx. Xxxxx se xxxxxxxx xxxxx xxxxxxxxxx xxxxx x xxxxxxx x xxxxxxxx xxxxxxxx xxxxxxxxxxx xxxxxx.

Xxxxxxx xxxxxxxxx xx xxxxx xxxxxx xxxxxxxx použití xxxxxxxx xxxxxx metabolické aktivace. Xxxxx metabolický aktivační xxxxxx xxxxxx xxxxx xxxxxxxxx podmínky in xxxx x xxxxx. Xx xxxxx xx xxxxx vyvarovat xxxxxxxx, xxxxx by xxxxx x xxxxxxxxxx xxxxxxxxx, xxx neodrážejí xxxxxxx xxxxxxxxxx. X xxxxxxxxxx xxxxxxxxx, jež neodrážejí xxxxxxx xxxxxxxxxx, xxxx xxxxx xxxxxx xX, xxxxxxxxxx xxxx xxxxxxxx xxxxxx xxxxxxxxxxxx (7).

Tato xxxxxxx xx používá xx zjištění xxxxxxx xxxxxxxx a xxxxxxxxxxx xxxxx. Mnoho xxxxxxxxx, xxx xxx je xxxx xxxxxxx pozitivní, xxxx xxxxxxxxxxx savců; xxxx touto xxxxxxxx x xxxxxxxxxxxxxx xxxx xxxx xxxxxxxxx xxxxxxxx. Xxxxxxxx xxxxxx xx xxxxxxxx xxxxx x xxxxxxxxx xxxxxx x xxx, xx existují xxxxxxxxxxx, xxxxx xxxxxx xxxxxxxx xxxxx xxxxxxxx, xxxxx xxxxxx působí xxxxxx, xxxxxxxxxxxxxxx mechanismy, xxxx mechanismy, které x bakteriálních xxxxxxx xxxxxxxxxx (6).

Xxx xxxx xxxxxx úvod, část X.

1.2 DEFINICE

Přímá xxxxxx : xxxxxx mutace xxxxxxxxx typu mutované xxxxx, která xxxxxxxxx xxxxx nebo ztrátu xxxxxxxxxxx xxxxxxxx xxxxxxxxxx xxxxxxxx.

Xxxxxxxx xxxxxxxxxx xxxx xxxx : látky, xxxxx xxxxxxxxx xxxxxxxxxx xxxxxxx xxxx xxxx xxxx xxxx x XXX.

Xxxxxxxx xxxxxxxx : xxxxx, xxxxx xxxxxxxxx xxxxx xxxx xxxxxx xxxxxxx xxxx xxxx xxxx xxxx x xxxxxxxx XXX.

Xxxx xxxxxxx xxxxxxxx : xxxx, xxxxx xxx xxxxxx x xxxx xxxxxxxxxx xxxxx nezměněné xxxxxx xxxxxxxx.

Xxxxxxx mutantů : xxxxx xxxxxxxxxxxx mutantních xxxxx xxxxxx xxxxxx xxxxxxxxxxxxxxx xxxxx.

Xxxxxxxxx celkový xxxx : xxxxxx xxxxx xxxxx x xxxx xx xxxxxxxx x kontrolní populací xxxxx; vypočte se xxxx součin poměru xxxxxxxxx růstu v xxxxxxxx x x xxxxxxxxx xxxxxxxx x xxxxxxxxx xxxxxxxxx klonování xxxxxxxx x xxxxxxxxx xxxxxxxx.

Xxxxxxxxx xxxx x xxxxxxxx : xxxxxx xxxxx buněk x xxxxxxx exprese vzhledem x xxxxxxxxx xxxxxxxx.

Xxxxxxxxxxxxxxx : xxxxxxxx xxxxxxxxx xxxxx v okamžiku xxxxxxxx xx xxxxx xx xxxxxxxxxxxx podmínek xx expresi.

Přežití : xxxxxxxx klonování xxxxx xxx xxxxxxxx xx xxxxx na xxxxx xxxxxx xxxxxxxx; xxxxxxx xx obvykle xxxxxxxxx x xxxxxx k xxxxxxx xxxxxxxxx xxxxxxxx xxxxx.

1.3 XXXXXXXX ZKUŠEBNÍ XXXXXX

Xxxxx, xxxxx v xxxxxxxx mutace TK+/-® XX— /- xxxxxxxxxx xxxxxxxxxxxxxx (XX) xxxx xxxxxxxxxxx k xxxxxxxxxxxx xxxxxxx xxxxxxx xxxxxxxxxx xxxxxxxxxxxxxxxxx (TFT). Buňky xxxxxxxxxxx thymidinkinasu xxxx xxxxxxx na TFT, xxx způsobuje xxxxxxxx xxxxxxxxx xxxxxxxxxxx a xxxxxxxxx xxxxx xxxxxxx xxxxxx. Xxxxxxxx xxxxx xxxx tedy schopny xxxxxxxxxxx za přítomnosti XXX, zatímco xxxxxxxx xxxxx, které xxxxxxxx xxxxxxxxxxxxxx xxxx schopnost xxxxxx. Podobně lze x buněk s xxxxxxxxxxxx XXXX nebo XXXX xxxxxxx xxxxxxx xxxxxxxxxxxxxxx rezistence x 6-xxxxxxxxxxx (TG) xxxx 8-xxxxxxxxxx (XX). Xxxxxxxxxx xxxxxxxx látky by xxxx xxx pečlivě xxxxxxx, xxxxxxxx xx xx xxxxxxx xx xxxxxx mutace x xxxxxxx xxxxx zkoušen xxxxxx xxxx xxxx xxxxxxxxxx xxxxxxx xxxxxxxxxx xxxxxxx. Xxxx by xxx xxxxxxxxx xxxxxxxxx xxxxxxxx xxxxxxxxx xx xxxxxxxxxx xxxxxxxx xxxxxxxx xxxxx xxx mutantní xxxx xxxxxxxxxx buňky. Xxx zkoušení xxxxxxxxxx xxxxx, xxxxx xxxx xxxxxxxx xxxxxxxxx xxxx xxxxxxxx činidlo, xxxx xxxx být potvrzena xxxxxxxx systému xxxx xxxxxxx xxx selekci (8).

Xxxxx x xxxxxxxxx xxxx xxxxxxxxxxxxx xxxxxxx xxxx vhodnou xxxx xxxxxxxxx xxxxxxxx xxxxx xxx s metabolickou xxxxxxxx, xxx xxx xx, a subkultivovány xx xxxxxx stanovení xxxxxxxxxxxx x za xxxxxx exprese fenotypu xxxx selekcí xxxxxxx (9, 10, 11, 12, 13). Xxxxxxxxxxxx xx obvykle xxxxxx xxxxxxxxxx relativní účinnosti xxxxxxxxx (přežití) xxxx xxxxxxxxxx xxxxxxxxxxx xxxxxxxxx xxxxx xxxxxx xx xxxxxxxx xxxx xxxxxxxx. Xxxxxxxxxx xxxxxxx xx xxxxxxx v xxxxxxxx xxxxx po vhodnou xxxx charakteristickou xxx xxxxx xxxxxxx xxxxx x xxx xxxxx, xxx nastala přibližně xxxxxxxxx xxxxxxxxxx xxxxxxx xxxxxxxxxxxx xxxxxx. Xxxxxxx xxxxxxx se xxxxxxx xxx, že se xxxxxx xxxxx počet xxxxx xx média xxxxxxxxxxxx xxxxxxxx xxxxxxx xxx xxxxxxx mutantních xxxxx a xx xxxxx xxx selekčního xxxxxxx, aby xxxx xxxxxxxxx xxxxxxxx xxxxxxxxx (xxxxxxxxxxxxxxx). Po xxxxxx xxxxxxxxx xxxx xx xxxxxxxxx xxxxxxx. Xxxxxxx xxxxxxx xx vypočte x xxxxx xxxxxxxxxx xxxxxxx x xxxxxxxxx xxxxx x xxxxx xxxxxxx x xxxxx xxx xxxxxxxxxx činidla.

1.4 XXXXX XXXXXXXX XXXXXX

1.4.1 Xxxxxxxxx

1.4.1.1 Xxxxx

Xxx xxxxxxx x xxxx zkoušce xxxx x xxxxxxxxx xxxxx typy buněk, xxxxxx xxxxxxxx xxxxx X5171X, CHO, XXX-XX52, X79 xxxx TK6. Xxxx xxxxx x xxxx xxxxxxx by xxxx xxxxxxxxx xxxxxxxxx x xxxxxxxxx mutagenům, xxxxxxx klonovací schopnost x xxxxxxxx xxxxxxxxx xxxxxxxxxxx xxxxxx. Xxxxx xx měly xxx xxxxxxxxxxxx, xxx xxxxxx xxxxxxxxxxxxx xxxxxxxxxxxx, a x případě kontaminace xx xxxxxx xxx xxxxxxx.

Xxxxxxx xx měly xxx navrženy xxx, xxx xxxx xxxxxx xxxxxxxxxx xxxxxxxxx x xxxx. Xxxxx použitých xxxxx, xxxxxx x xxxxxxxxxxx zkoušené látky xx měl xxxx xxxxxxxxxx xxxxxxxxx xxxxxxx (14). Xxxxxxxxx xxxxx xxxxx, xxxxx xxxxxxx xxxxxxxx x xxxxx xxxxx xxxxxxx v xxxxxx xxxxxx zkoušky, xx xxx xxx xxxxxxx na četnosti xxxxxxxxxxx mutací. Xxxxxxx xxxxxxxxx xx, xxx xxx xxxxxx počet xxxxx, který xx xxxxxxxxxxxxxx xxxxxxxxxx xxxxxxx xxxxxxxx xxxxxxxxxxx xxxxxx. Xx xxxx xxxxxxxxxx, xxx xxxx xxxxxxx xxxxxxx 106 buněk. Xxxx by být x dispozici xxxxxxxxxx xxxxxxxxx xxxxx o xxxxxxxx buněčném systému, xxx xxxx doložena xxxxxxxxxxxx xxxxxxxxx hodnota xxxxxxx.

1.4.1.2 Xxxxx a xxxxxxxxxx podmínky

Pro xxxxxxxxx xxxxxx by xxxx xxx xxxxxxx vhodná xxxxxxxxxx média a xxxxxxxxx xxxxxxxx (xxxxxxxxxx xxxxxx, koncentrace XX2, xxxxxxx x vlhkost). Xxxxx xx xxxx xxx zvolena podle xxxxxxxxxx xxxxxxx x xxxx buněk použitých xxx xxxxxxx. Je xxxxxxx důležité, xxx xxxxxxxxxx xxxxxxxx xxxx xxxxxxx xxx, xxx xxxx xxxxxxxxx xxxxxxxxx xxxx xxxxx xxxxx xxxxxx exprese a xxxxxxxxx jak xxxxxxxxxx, xxx nemutovaných xxxxx xxxxxx kolonie.

1.4.1.3 Xxxxxxxx xxxxxx

Xxxxx by xxxx xxx získávány x xxxxxxxxx kultur, nasazeny xx kultivačního xxxxx x xxxxxxxxxx xxx 37 °X. Xxxx xxxxxxxx x této xxxxxxx xxxx být xxxxxxxx xxxxxxxxx x xxxxxxx xxx xxxxxxxx xxxxxxxx xxxxx.

1.4.1.4 Metabolická xxxxxxxx

Xxxxx by měly xxx xxxxxxxxx xxxxxxxx xxxxx, x xx x xxxxxxx xxxxxxxx xxxxxxxxxxx xxxxxxxx a xxx xxxx. Xxxxxxxxxx xxxxxxxxxx systémem xx xxxxxxxxxx dotovaná xxxxxxxxxxxxxxxxxxx xxxxxx (X9) připravená x xxxxx xxxxxxxx xxxxxxxxxx xxxxxxxx xxxxxxxxxxx xxxxxx, xxxx xx Xxxxxxx 1254 (15, 16, 17 a 18), xxxx xxxx xxxxxxxxxxxxx a β-xxxxxxxxxxxx (19, 20).

Xxxxxxxxxxxxxxxxxxx xxxxxx xx x xxxxxxxx xxxxxxxxxx médiu obvykle xxxxxxxxx v xxxxxxxxxxxxx 1 — 10 % xxx. Volba x stav metabolického xxxxxxxxxxx systému může xxxxxxx na xxxxx xxxxxxxx látky, která xx zkoušena. V xxxxxxxxx případech xxxx xxx vhodné použít xxxx xxx jednu xxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xxxxxx.

Xxxx xxxxxxxx xxxxxx, xxxxxx xxxxxxxx xxxxxxxxx xxxxxxxxxxxxxx xxxxxxxxx xxxxx exprimujících xxxxxxxxxx xxxxxxxxx xxxxxx, xxxxxxxxx možnosti xxx xxxxxxxxx aktivaci. Xxxxx xxxxxxxxx buněčných linií xx xxxx být xxxxxxx xxxxxxxxxx (xxxx. xxxxxxxxxxx xxxxxxxxx xxxxxxxxxx X450 xxx metabolismus xxxxxxxx xxxxx).

1.4.1.5 Příprava xxxxxxxx xxxxx

Xxxxx xxxxxxxx xxxxx xx měly xxx xxxx aplikací xx xxxxx xxxxxxxxxx xxxx xxxxxxxxxxxx xx xxxxxxxx rozpouštědlech xxxx xxxxxxxxxx x xxxxxxxxx xxxxxxx. Kapalné xxxxxxxx xxxxx xxxxx xxx xxxxxxx xxxxx k xxxxxxxxxx xxxxxxxx x/xxxx xxxxx xxx před xxxxxxxx xxxxxxx. Xxxx xx být xxxxxxx xxxxxxx xxxxxxxxxx xxxxxxxx xxxxxxxx xxxxx, xxxxx xxxxx x stálosti xxxxxxxxxxx možnost skladování.

1.4.2 Xxxxxxxx xxxxxxxx

1.4.2.1 Xxxxxxxxxxxx/xxxxxxxxx

Xxxxxxxxxxxx/xxxxxxxxx xx mělo být xxxx xxxxxxxxx, xx xxxxxxx xx xxxxxxxxx xxxxxx, a xxxx xx být xxxxxxxxxx x přežitím xxxxx x x xxxxxxxxx X9. Xxxx-xx použita xxxx než známá xxxxxxxxxxxx/xxxxxxxx, mělo xx xxx xxxxxx xxxxxxxx xxxxxxxxx xxxxx x xxxxxx kompatibilitě. Xxxxxxxxxx xx xxxxx xxxxx xxxxxxxx zvážit xxxxxxx xxxxxxx rozpouštědel/vehikul. Xxx xxxxxxxx xxxxx xxxxxxxxx xx xxxx xx xxxx být xxxxxxx xxxxxxxxx xxxxxxxxxxxx xxxxxxxxxxxx xxxx. Xxxx xxx xxxxxxxxx xxxxxxxx molekulového xxxx.

1.4.2.2 Xxxxxxxxx koncentrace

Mezi xxxxxxxx, xxxxx xxxx xxx xxxxxxxxxx při xxxxxxxxx xxxxxxxx xxxxxxxxxxx, xxxxx xxxxxxxxxxxx, xxxxxxxxxxx x testovacím systému x xxxxx pH xxxx xxxxxxxxxx.

Xxxxxxxxxxxx xx xxxx být xxxxxxxxx x xxxxxxxxxxxx xxxxxxxx x xxx xx x xxxxxxx xxxxxxxxxxx xx xxxxxxx xxxxxxxx xxxxxxxxxx xxxxxxx integrity x xxxxx, jako xxxx xxxxxxxxx xxxxxxxx xxxxxxxxx (xxxxxxx) nebo xxxxxxxxx celkový xxxx. Xxxx xxx xxxxxxx xxxxxxxx xxxxxxxxxxxx a xxxxxxxxxxx x předběžném xxxxxxxxxxx.

Xxxx xx xxx xxxxxxx xxxxxxx čtyři xxxxxxxxxxxxxx xxxxxxxxxxx. X xxxxxxx xxxxxxxx xx xxxx xxxx xxxxxxxxxxx xxxxxxxx xxxxxxx dané xxxxxxxxx x minimální xxxxxxxxx, xxxxxxxx xxxxxx xxxxxxxxx, což bude xxxxxxx znamenat, že xx xx xxxxxxxxxxx xxxx xxxxx xxxxxxxx 2 až Ö10. Xx-xx xxxxxxxxx xxxxxxxxxxx xxxxxxxx xx xxxxxxxxxxxx, xxxx xx být xxxxxxxxx xxxxxxxxx 10 — 20 % (xxx xxxxxxx 10 %) xxxxxxx (xxxxxxxxx xxxxxxxx xxxxxxxxx) xxxx xxxxxxxxx xxxxxxx xxxx. X případě xxxxxxxxx xxxxxxxxxxxxxxx látek xx xxxx xxx xxxxxxxxx xxxxxxxx koncentrace 5 μx/xx, 5 xx/xx xxxx 0,01 M, xxxxx xxxx, xxxxx x xxxx xx xxxxxxxx.

Xxxxxxxxx xxxxxxxxxxx xxxxx xx xxxx xxx xxxxxxxx xx x xxxx xxxxxxxxxxxx xx xxxxxxxxxxxx podmínek, xxxx xx za xxxx xxx. Xxxx xx xxx stanovena případná xxxxxxxxxxxxx v xxxxxxxx xxxxx, ve kterému xxxx xxxxx xxxxxxxxxx. Xxxx xxx výhodné xxxxxxxx xxxxxxxxxxx na xxxxxxx a na xxxxx xxxxxxxx, neboť xxxxxxxxxxx xx může x xxxxxxx expozice x testovacím xxxxxxx xxxxx v xxxxxxxx xxxxxxxxxxx xxxxx, X9 xxxx, atd. Nerozpustnost xxx zjistit vizuálně. Xxxxxxxxx xx xxxxxx xxxxx xxx xxxxxxxxxxx.

1.4.2.3 Xxxxxxxx

Xxxxxxxx každého xxxxxxxxxxx xx xxxx xxx xxxxxxxxx x xxxxxxxxx (xxxxxxxxxxxx xxxx xxxxxxxxx) xxxxxxxx xxx x xxxxxxxxxxxx aktivací, xxx xxx xx. Xxx xxxxxxx metabolické xxxxxxxx xx xxxx být xxxxxxxxx xxxxxxxxx xxxxxxxx xxxxx, která x xxxxxxxxx odpovědi xxxxxxxx xxxxxxxx.

Xxxxxxxxx xxxxxxxxx xxxxxxxx xxxxx xxx xxxx xxxxx:

Xxxx xxxxxxxxxxx xxxxxxxx

Xxxxx

Xxxxx

Xxxxx XXX

Xxxxx xxxxx Xxxxxx

Xxx xxxxxx xxxxxxxxxxx xxxxxxxx

XXXX

xxxxx-xxxxxxxxxxxxxx

62–50–0

200–536–7

1-xxxxx-1-xxxxxxxxxxxxxxx

759–73–9

212–072–2

XX (xxxx x velké xxxxxxx)

xxxxxx-xxxxxxxxxxxxxx

66–27–3

200–625–0

XXXX

xxxxx-xxxxxxxxxxxxxx

62–50–0

200–536–7

1-xxxxx-1-xxxxxxxxxxxxxxx

759–73–9

212–072–2

X xxxxxx xxxxxxxxxxxx xxxxxxxx

XXXX

3-xxxxxxxxxxxxxxxxx

56–49–5

200–276–4

X-xxxxxxxxxxxxxxxxxxx

62–75–9

200–549–8

7,12-xxxxxxxxxxxxxxxxxxxxxx

57–97–6

200–359–5

XX (malé x xxxxx xxxxxxx)

xxxxxxxxxxxxx

50–18–0

200–015–4

xxxxxxxxxxxxx xxxxxxxxxx

6055–19–2

xxxxx[x]xxxxx

50–32–8

200–028–5

3-xxxxxxxxxxxxxxxxx

56–49–5

200–276–5

XXXX

X-xxxxxxxxxxxxxxxxxxx (xxx xxxxxx úrovně X9)

62–75–9

200–549–8

xxxxx[x]xxxxx

50–32–8

200–028–5

Xxxxx xxx xxxxxxx xxxx xxxx xxxxxxxxxx xxxxx xxx xxxxxxxxx xxxxxxxx, xxxx. má-li xxxxxxxxx xxxxxxxx dosavadních xxxxx o 5-xxxx-2′-xxxxxxxxxxxx (XXX 59–14–3, EINECS 200–415–9), xxxx být xxxx referenční xxxxx xxxxxx xxxxxxx. Xxx xxxxxxxxx xxxxxxxx xx xxxx xxx xxxxx x xxxxx xxxxxxx xxxxxxxxxx xxxxx xxxxx xxxxx xx xxxxxx xxxxxxxx xxxxx.

Xxxx xx xxx použity negativní xxxxxxxx xxxxxxx xxxxxx xxxxxxxxxxx xxxxxxx xxxxxxxxxxxx xxxx vehikulum x xxxxxxxxxx xxxxx xxxxxxx xxxxxxxx jako xxxxxxxxxx xxxxxxx. Xxxxx xxxx xx xxxx xxx xxxxxxxxxxxx xxxxxxxx použity xxxx xxxxx, xxxxxxxxxx-xx xxxxx kontrolní xxxxx xxxxxxxxxxx, že xxxxxxx xxxxxxxxxxxx xxxxxxxxxx xxxxx xxxxxxx xxxx xxxxxxxxx xxxxxx.

1.4.3 Xxxxxx

1.4.3.1 Xxxxxxxx xxxxxxxx látce

Proliferující buňky xx měly xxx xxxxxxxxx xxxxxxxx xxxxx xxx xx přítomnosti xxxxxxxxxxxxx xxxxxxxxxxx xxxxxxx, xxx bez xxxx. Xxxxxxxx xx měla xxxxx xxxxxxx xxxx (xxxxxxx je účinná xxxx 3 až 6 xxxxx). Xxxxxxxxx xxxx xxxx xxx xxxxxxxxxxx xx jeden xxxx xxxx xxxxxxxxx xxxxx.

Xxx xxxxxx xxxxxxxx xxxxxxxxxxx xxxxx xxx xxxxxxx xxxxxxxxxx kultury xxxx xxxxx exponovaná xxxxxxx. Xx-xx xxxxxxx xxxxx kultura, xxx xx být xxxxx xxxxxxxxxxx zvýšen xxx, xxx xxx xxxxxxxx xxxxxxxxxxxx počet xxxxxx xxx xxxxxxx (xxxx. xxxxxxx xxx analyzovatelných xxxxxxxxxxx). Xxxx xx xxx xxxxxxx xxxxxxxxxx xxxxxxxxx xxxxxxxxx xxxxxxx (xxxxxxxx rozpouštědla).

Plynné xxxx xxxxxx xxxxx by xxxx xxx zkoušeny xxxxxxxx xxxxxxxx, např. x těsně uzavřených xxxxxxxxxxxx nádobách (21, 22).

1.4.3.2 Xxxxxxxxx xxxxxxx, xxxxxxxxxxxxxxxx x xxxxxxxx xxxxxx

Xx xxxxx xxxxxxxxx xxxx se xxxxx xxxxxxx x xxxxxxxxx xx xxxxxx stanovení xxxxxxx a xx xxxxxx xxxxxxxx exprese xxxxxxxx xxxxxxx. Xx xxxxxxxxxx xxxxxxxxxxxx xxxxxxxxxxxxxxx xxxxxxxxx xxxxxxxxx xxxxxxxxx xxxxxxxxx (přežití) xxxx xxxxxxxxxxx celkového růstu xxxxxx se započne xxxxxxx po expoziční xxxx.

Xxxxx lokus má xxxxxxxxxx xxxxxxxxx časové xxxxxx, aby umožnil xxxxxxxxx optimální xxxxxxxxxxx xxxxxxx xxxx xxxxxxxxxxxx xxxxxxx (XXXX x XXXX xxxxxxxx xxxxxxx 6 xx 8 xxx, XX alespoň xxx xxx). Xxxxx xxxx xxxxxxxxxxx x xxxxx xx xxxxxxxxx xxxxxxxx (xxxxxxxxxx xxxxxxx) x xxx xxxx (xxx xxxx) xx xxxxxx stanovení xxxxx xxxxxxx x xxxxxxxxx xxxxxxxxx. Xx xxxxxxxxxx xxxxxxxxxxxxxxxx (xxxxxxx pro xxxxxxx četnosti mutantů) xx xxxxxxx xx xxxxx xxxx xxxxxxx xxxxxxxxx na xxxxx xxx selekčního činidla.

Je-li xxxxxxxx xxxxx xxxxxxxxx xx xxxxxxx L5178Y XX+/-, xxxx xx xxx xxxxxxxxx xxxxxxx xx xxxxx ze xxxxxxxxxx xxxxxx (x xxxxxxxx pozitivní xxxxxxxxxxx) x xx xxxxxxxxxxx x xxxxxxxxxxx kontrolách xxxxxxxxx xxxxxxx podle xxxxxxxxx xxxxxxx. Je-li xxxxxxxx látka ve xxxxxxx X5178X XX+/- xxxxxxxxx, xxxx xx xxx xxxxxxxxx xxxxxxx xxxxx xxxxxxxxx kolonií xxxxxxxxx na xxxxxxxxxxx x xxxxxxxxxxx xxxxxxxxxx. Xxx xxxxxxxx xx xxxxxxx XX6 XX+/- xxxx být xxxx xxxxxxxxx xxxxxxxxx xxxxxxx xxxxx xxxxxxxxx kolonií.

2. XXXXX

2.1 XXXXXXXXXX VÝSLEDKŮ

Údaje xx měly xxxxxxxxx xxxxxxxxx xxxxxxxxxxxx x xxxxxxxxxxxxxxxx, xxxxx xxxxxxx x xxxxxxxx xxxxxxx xxx xxxxxxxxxx x xxxxxxxxx kultury. X xxxxxxx xxxxxxxxx xxxxxxxx xx xxxxxxx L5178Y XX+/- xx xxxxxxx xxxxxxxxx xxxxxxx x xxxxx koncentrace xxxxxxxx xxxxx (xxxxxxxx pozitivní xxxxxxxxxxx) x u xxxxxxxxx x xxxxxxxxx xxxxxxxx xx použití xxxxxxxx xxxx xxxxxxx — velká xxxxxxx. Xxxxxxxxxxx x cytogenetická xxxxxx xxx xxxxxxx xxxxxxxxx xxxxx kolonie, xxx xxxxxxx tvořících xxxx xxxxxxx xxxx xxxxxxxx xxxxxxxx (23, 24). Xx zkoušce XX+/- xxxx kolonie xxxxxxxxxxx xx xxxxxxx xxxxxxxx xxxxxxx s xxxxxxxxx xxxxxx (xxxxx) x xxxxxxx x xxxxxxx xxxxxx (xxxx) (25). X mutantních xxxxx, xxxxx utrpěly xxxxxxxxxxxxxx genetické xxxxxxxxx, xx xxxxxxxxxxx doby xxxxxxxx, a xxxxx xxxx xxxx xxxxxxx. Xxxxxxxxx xx obvykle xxxxxx od xxxxx xxxxxx xxxx až xx xxxxxxxxxxxx viditelné xxxxxxxxxxxx aberace. Xxxxxxx xxxxxxx tvořících malé xxxxxxx se xxxxxxx x xxxxxxxxxx látkami, xxxxx xxxxxxxx silné xxxxxxxxxxxx aberace (26). Xxxx xxxxxxx xxxxxxxxx xxxxx xxxxxxx xxxxxx xxxxxxxx xxxxxx jako xxxxxxxx xxxxx x xxxxx xxxxx xxxxxxx.

Xxxx xx být udáno xxxxxxx (xxxxxxxxx účinnost xxxxxxxxx) xxxx relativní xxxxxxx růst. Xxxxxxx xxxxxxx xx xxxx xxx xxxxxxxxx xxxx xxxxx xxxxxxx x xxxxx přeživších xxxxx.

Xxxx xx být xxxxxxx xxxxx xxx xxxxxxxxxx xxxxxxx. Xxxx by xxxx xxx všechny xxxxx shrnuty xx xxxxx xxxxxxx.

Xxxxxxx jasně xxxxxxxxx xxxxxxxx xx xxxxxxxxxx. Xxxxxxxxxx xxxxxxxx xx měly xxx xxxxxxxxx xxxxxx xxxxxxxxx, xxxxxxx x xxxxxxx xxxxxxxxxxxxxxxx xxxxxxxx. Xxxxxxxxx xxxxxxxx xxxx být xxxxxxxxx případ xx xxxxxxx. Xxx, xxx xxxx xxxxxxxxx xxxxxxxxxxx xxxxxxxx xxxxxxxxxx za xxxxx, xx xxxxx xxxxx zdůvodnění. Změna xxxxxxxxx xxxxxx x xxxxx xxxxxxxx xxxxxx xxxxxxxxxxxx xxxxxxxx xx xxxx být zvážena x následných xxxxxxxxxxxxx xxx xxx dvojznačné xxxxxxxx, xxx xxx xxxxxxxxx výsledky. X xxxxxxxxxx studie, xxxxx xx mohly xxx xxxxxxx, xxxxx xxxxxxx xxxxxxxxxxx a xxxxxxxx xxxxxxxxxxx xxxxxxxx.

2.2 XXXXXXXXX X INTERPRETACE XXXXXXXX

Xxx xxxxxxxxx xxxxxxxxxxx výsledku xxxxxxxx xxxxxxx xxxxxxxx, xxxx. xxxxxx xxxxxxxx xxxxxxx v xxxxxxxxxx xx xxxxxxxxxxx, xxxx xxxxxxxxxxxxxxxx nárůst xxxx xxxxxxxx. Xxxxxxxx by xxxx být uvážena xxxxxxxxxx xxxxxxxxx výsledků. Xxx hodnocení xxxxxxxx xxxxxxx mohou xxx xxxxxxx xxxx xxxxxxx xxxxxxxxxx statistické xxxxxx. Xxxxxxxxxxx významnost xx xxxxxx xxx xxxxxxx xxxxxxxxx faktorem xxx xxxxxxxxx xxxxxxx.

Xxxxxxxx xxxxx, xxxxx výsledky xxxxxxxxx xxxx xxxxxxx kritéria, xx x tomto xxxxxxx xxxxxxxx xx xxxxxxxxxxx.

Xxxxxx xxxxxxx experimentů xxxxxxxx xxxxx xxxxxxxxx xxxx xxxxxxxxx xxxxxxxx, x ojedinělých xxxxxxxxx xxxxxxxx xxxxxx xxxxx xxxxxxxx konečný xxxxx x aktivitě xxxxxxxx xxxxx. Xxxxxxxx mohou xxxxxx xxxxxxxxxx nebo xxxxxx xxx xxxxxx xx xx, xxxxxxxx xx experiment xxxxxxxx.

Xxxxxxxxx xxxxxxxx xxxxxxx xx xxxxxx xxxxxx v xxxxxxx xxxxx xx xxxxx znamenají, xx xxxxxxxx xxxxx xxxxxxxx x použitých kultivovaných xxxxxxx savců genové xxxxxx. Xxxxxxxxxxxxxxxx pozitivní xxxxxxxxx xxxxxxxx xx xxxxxxxxxxx xx xxxxx xxxxxxxx. Xxxxxxxxx xxxxxxxx xxxxxxxxx, že zkoušená xxxxx xx podmínek xxxxxxx neindukuje x xxxxxxxxx kultivovaných buňkách xxxxx xxxxxx mutace.

3. XXXXXX

XXXXXXXX X XXXXXXX

Xxxxxxxx x zkoušce musí xxxxxxxxx tyto xxxxxxxxx:

Xxxxxxxxxxxx/xxxxxxxxx:

- xxxxxxxxxx xxxxx xxxxxxxxxxxx/xxxxxxxx,

- xxxxxxxxxxx x xxxxxxx xxxxxxxx xxxxx x xxxxxxxxxxxx/xxxxxxxx, xx-xx xxxxx.

Xxxxx:

- xxx a xxxxx xxxxx,

- xxxxx xxxxxxxxx xxxxxx,

- xxxxxxxx xxxxx xxxxxx,

- xxxxxxxx xxxxxx xxxxxxxxx xxxxxxx kultury,

- xxxxxxxxxxxx xxxxxxxxxxx.

Xxxxxxxx podmínky:

- xxxxxxxxxx výběru xxxxxxxxxxx x xxxxx xxxxxx, xxxxxx např. údajů x cytotoxicitě a xxxxxx xxxxxxxxxxxx, jsou-li x dispozici,

- xxxxxxx xxxxx, xxxxxxxx koncentrace XX2,

- xxxxxxxxxxx xxxxxxxx xxxxx,

- xxxxx vehikula x xxxxxxx zkoušené xxxxx,

- xxxxxxxxx teplota,

- xxxxxxxxx xxxx,

- délka xxxxxxxx,

- případně xxxxxxx xxxxx xxxxx xxxxxxxx,

- xxx x xxxxxxx xxxxxxxxx xxxxxxxxxxxxx xxxxxxxxxxx xxxxxxx, xxxxxx xxxxxxxx xxxxxxxxxxxxx,

- pozitivní a xxxxxxxxx xxxxxxxx,

- xxxxx xxxx xxxxxxx (xxxxxxxx xxxxxx xxxxx nasazených xxxxx, xxxxxxxxx x xxxxxx média),

- xxxxxxxx xxxxxxx,

- xxxxxxxx xxxxxxxxxxx xxxxxxx xx pozitivní, xxxxxxxxx xxxx xxxxxxxxxxx,

- xxxxxx xxxxxxx x xxxxxxxx xxxxxxxxxxxxxxx x xxxxxxxxxx xxxxx,

- xxxxxxxx xxxxxxx xxxxx xxxxxxxxx x typu (případně xxxxxx xxxxxxxx pro "xxxx" x "velké" xxxxxxx).

Xxxxxxxx:

- xxxxxx xxxxxxxx,

- xxxxxx srážení,

- xxxxx x xX a xxxxxxxxxx xxxxx expozice xxxxxxxx látce, xxxxx xxxx xxxxxxxxx,

- xxxxxxxx xxxxxxx, xxxx-xx xxxxxxxxxxx, xxxxxxx xxx negativní x pozitivní xxxxxxxx,

- xxxxxxxxx xxxxxxxxxxx laboratoře xxxxxxxxx xxxxxxx tvořící xxxx xxxxxxx xxxxxxxx X5178X TK+/-,

- xxxxx xxxxxxxx závislost odpovědi xx xxxxx,

- případné xxxxxxxxxxx xxxxxxx,

- údaje x xxxxxxxx xxxxxxxxx (xxxxxxxxxxxx/xxxxxxxxx) a xxxxxxxxx xxxxxxxx,

- xxxxxxxxx xxxxx x xxxxxxxxx (xxxxxxxxxxxx/xxxxxxxxx) x pozitivní xxxxxxxx x xxxxxxxxx, středními xxxxxxxxx x xxxxxxxxxxxx xxxxxxxxxx,

- četnost xxxxxxx.

Xxxxxx xxxxxxxx.

Xxxxxx.

4. XXXXXXXXXX

1) Xxxxx, X. X., XxXxxxxx, X. M., XxXxxxxx, X. X., Xxxxxx, X. R. (xxx.) (1987), Xxxxxxx Report 28; Xxxxxxxxx Cell Xxxxxxxxxxx, Cold Spring Xxxxxx Xxxxxxxxxx, Xxx Xxxx.

2) Chu, X. X. Y., Xxxxxxx X. V. (1968), Xxxxxxxxx Xxxx Xxxxxxxx. XX. Xxxxxxxx Xxxxxxxxx xx Xxxxxxxx Xxxxx Xxxxxxxxx xx Chinese Xxxxxxx Xxxxx Xx xxxxx, Xxxx. Xxxx. Xxxx. Xxx. X. X. X, 61, 1306-1312.

3) Xxxxx, H. X., Thilly, W. X. (1982), Xxxxxxxx Xxxxx xx xxx Xxxxxxxxx Xxxxxx Xxxxx xx Diploid Xxxxx Xxxxxxxxxxxx, Xxxxxxxx Xxx. 94, 467-485.

4) Xxxxx, X. M., Harington-Brock, X., Xxxxx, X. X., Xxxxxxxxx, X. X. (1989), Xxxxxxxxxxxx Xxxxxx Quantitation xx xxx Xxxxx Xxxxxxxx XX xxx XXX XXXXX Xxxx, Xxxxxxxxxxx, 4, 394-403.

5) Xxxxx, X. S., Xxxxxxxxxx, Xx. X. F., (1989), Xxxxxxxxxx xx xxx XX52/XXXX xxx xxx CHO/HPRT Assays: Xxxxxxxxxx xx Xxx Xxxx Xxxxxxxxxx, Mutatation Xxx. 223, 121-128.

6) Xxxxx, C. S., Xxxxxxxxxx, X., Xxxxx, X. R., Moore, X., Nishi, X., Xxxxxxxxxx, Xx. X. X., Theiss, J., Xxxxxxxx, E. (1994), Xxxxxxxxx Xxxx Xxxx Xxxxxxxx Xxxxxx Working Xxxxx Report. Xxxxxx xx the Xxxxxxxxxxxxx Xxxxxxxx xx Xxxxxxxxxxxxxxx xx Genotoxicity Xxxx Xxxxxxxxxx. Xxxxxxxx Res. 312, 235-239.

7) Xxxxx, X., Xxxxxxxx, X. X., Marshall, R. X., Xxxxxxxx, X., Xxxxxxx, X., Xxxxx, X., Myhr, X. X. (1991), Xxxxxxxxxxxx Xxxxx Extreme Xxxxxxx Xxxxxxxxxx. X xxxxxx xxxx XXXXXX Xxxx Xxxxx 9, Xxxxxxxx Xxx. 257, 147-204.

8) Xxxxx, X., McCuen, X., Spector, X. X. X., Piper, X., Xxxxxxxxx, X. X. (1983), Xxxxxxxx Xxxx Xxxxxxxxx in X5178X Xxxxx in Xxxxxxx. A Xxxxxx xx xxx X. X. Environmental Xxxxxxxxxx Xxxxxx Xxxx-Xxx Xxxxxxx, Xxxxxxxxxx Res., 115, 225-251.

9) Xx, A. X., Xxxxx, X. X., Heflich, X. X., Xxxxxx, X. X. (1988), A Xxxxxx xxx Analysis xx the Chinese Xxxxxxx Xxxxx/Xxxxxxxxxxxx Guanine Xxxxxxxxxxxxxx Transferase Xxxxxx xx Determine xxx Xxxxxxxxxxxx xx Xxxxxxxx Xxxxxx: A Report xx Phase III xx xxx X. X. Environmental Xxxxxxxxxxx Xxxxxx Xxxx-Xxx Xxxxxxx, Xxxxxxxxxx Xxx., 196, 17-36.

10) Xx, X. X., Xxxxxx, X. X., Xxxx, X. X., Xxxx, X. X., Xxxxx, X. X., Loveday, X. X., X'Νxxxx, X. X., Riddle, X. X., Xxxxxxxxxx, L. X. Xx., Xxxx, X. X. (1987), X Guide for xxx Xxxxxxxxxxx of xxx Chinese Xxxxxxx Xxxxx Xxxx/Xxxxxxxxxxxx-Xxxxxxx Phosphoribosyl Xxxxxxxxxxx Xxxx Xxxxxxxx Xxxxx, Xxxxxxxxxx Xxx., 189, 135-141.

11) Xxxxx, X. X., Xxxxxxx, X. X., Xxxxxx, X. B. (1989), X Xxxxxxxxxx of Xxxxxxxx Xxxxxxxxx xx xxx TK xxx XXXX Loci xx Xxxxx Xxxxxxxxxxxxxx Xxxxx: Xxxxxxxxxxxx Xxxxxxxxxxx are Xxx to an Xxxxxxxxxx Xxxxx xx Xxxxxxxxx xx the Xxxxxxxxx TK Xxxxx, Xxxxxxxxxx Xxx., 216, 9-17.

12) Stankowski, L. X. Jr., Tindal, X. X., Xxxx, X. X. (1986), Xxxxxxxxxxxx and Xxxxxxxxx Xxxxxxxx xx Ethyl Xxxxxxxxxxxxxxxxx xxx XXX 191-Xxxxxxx Xxxxxxxxx Xxxxxxxx xx Xxxxx Xxxxxxxxxxxxxxxxx xxx ICR 191 Xxxxxxx Mutation xx XX52 Xxxxx, Xxxxxxxxxx Xxx., 160, 133-147.

13) Xxxxxx, X. X., Xxxxxx, X. X., Xxxxx, X. (1984), Xxxxxxxxx xxx xxx X5178X/XX+/--XX+/- Mouse Lymphoma Xxxx Mutagenicity Assay, xx: Xxxxxx, X. X. xx xx (xxx.) Xxxxxxxx of Xxxxxxxxxxxx Xxxx Procedures, Xxxxxxxx Science Xxxxxxxxxx, Xxx Xxxx, 239-268.

14) Xxxxxx, X. X., Xxxxx, X. X., Xxxxxx, G. X., Xxxxx, X. X. X., Xxxx, J., XxXxxxxx, X. B., Xxxxxxx X. X. (1989), Xxxxxxxxx Xxxx Xxxx Mutation Xxxxxx Xxxxx upon Colony Xxxxxxxxx, xx: Xxxxxxxxxxx Xxxxxxxxxx of Xxxxxxxxxxxx Xxxx Xxxx, Kirkland, X. X., xx., Xxxxxxxxx Xxxxxxxxxx Xxxxx, 66-101.

15) Xxxxxxxxxxxx, X., Xxxxxxx, X., Xxxxx, X., Fiorio, X., Xxxxxxxx, N., Mazzaccoro, X. (1977), Induction xx 6-Xxxxxxxxxxx-Xxxxxxxxx Xxxxxxx xx V79 Chinese Xxxxxxx Xxxxx by Xxxxx-Xxxxx Xxxxxxxxx-Xxxxxxxxx Xxxxxxxxxxxxxxxxxxx, Xxxxxxxxxx Xxx. 46, 365-373.

16) Xxxx, X. X., XxXxxx, J., Xxxxxxxx, E. (1975), Xxxxxxx xxx Xxxxxxxxx Xxxxxxxxxxx and Xxxxxxxx xxxx the Salmonella/Mammalian-Microsome Xxxxxxxxxxxx Xxxx, Mutatation Xxx. 31, 347-364.

17) Xxxxx, X., Xxxxxxx, X. X., Xxxxxxx, X. F. X., Xxxxxx A. G., Xxxxx M. X. X. (1979), Xxxxxxxxxx xxx Xxxxxxxxxxxxxxxx xx xxx X5178X/XX+/--Xxxxx Xxxxxxxx Xxxxxxx Xxxxx Xxxxxx, Xxxxx. Xxx. 59, 61-108.

18) Maron, D. X., Ames, X. X. (1983), Xxxxxxx Xxxxxxx xxx the Xxxxxxxxxx Xxxxxxxxxxxx Test, Xxxxxxxxxx Xxx. 113, 173-215.

19) Xxxxxxx, X. X., Xxxxxx, R. X., Elcombe, X. X., Gatehouse, X. X., Gibson, X. X., Mackay, X. X., Wolf, X. X. (1992), Alternatives xx Xxxxxxx 1254-Induced X9 in: Xx xxxxx Xxxxxxxxxxxx Xxxxxx, Xxxxxxxxxxx 7, 175-177.

20) Xxxxxxxxxx, X., Xxxxxxxx, X., Hara, X., Xxxxxxxx, T. (1976), X Xxxx Substitute xxx Polycholrinated Xxxxxxxxx x. x. xx Xxxxxxx xx Metabolic Xxxxxxxxxx Systems, V: Xx vitro Xxxxxxxxx Xxxxxxxxxx xx Xxxxxxxxxxx Xxxxxxx, de Serres, X. J., Xxxxx, X. R., Xxxx, X. X., Philpot, X. M. (eds), Xxxxxxxx, Xxxxx-Xxxxxxx, 85-88.

21) Xxxxx, X. F., Xxxxxx, X. X., XxXxxxx, K. X. (1982), XXX/XXXXX Mutation Xxxxx: Evaluation xx Xxxxx xxx Xxxxxxxx Xxxxxxx, xx: Xxxx, X. X., Costa, X. X., Xxxxxxx, X. X. (xxx), Xxxxxxxxx Effects xx Xxxxxxxx Agents, New Xxxx, Xxxxxx, 91-103.

22) Xxxxxx, P. X., Xxxxxx, X. X., Xx, X. P., Xxxxxx, A. L. (1983), Evaluation xx xx Exposure Xxxxxx Xxxxx Xxxxx Xxxxx xx Collagen Xxxx xxx Xxxxxxxxx Xxxxxx Xxxxxxxx Xxxxxxxx xx xxx XXX/XXXXX Xxxxxxxx Xxxxx, Environ. Xxxxxxxxxxx, 5, 795-801.

23) Applegate, X. L., Moore, X. M., Broder, X. X., Xxxxxxx, X., Hozier, J. X. (1990), Molecular Xxxxxxxxxx xx Mutations xx xxx Heterozygous Xxxxxxxxx Xxxxxx Xxxxx xx Mouse Lymphoma Xxxxx, Proc. Natl. Xxxx. Sci. U. X. X, 87, 51-55.

24) Xxxxx, X. X., Xxxxx, X., Xxxxxx, X. C., Xxxxxx, B. X., Xxxxxx, X. X., Xxxxxx, N. X., Xxxxxx, X. (1985), Xxxxxxxx xx Xxxxxxxxxxxxxxxxxx, Xxxxxxxxx (XXX+) Mutants xx L5178Y/TK+/--Mouse Xxxxxxxx Xxxxx, Xxxxxxxxxx Xxx. 151, 161-174.

25) Yandell, X. X., Xxxxx, X. P., Xxxxxx, X. X. (1990), Xxxxxxxxx Xxxxxxx Xxxxxxxx xx Xxxxxxxxx Xxxxxxxxx xx x Heterozygous Xxxxxxxxx Xxxxx in Xxxxx Xxxxx, Mutatation Xxx. 229, 89-102.

26) Xxxxx, X. X., Xxxxx, X. X. (1990), Comparison xx Xxxxxxxxxx Aberration Xxxxxxxxx xxx Small Colony XX-Xxxxxxxxx Mutant Xxxxxxxxx xx X5178X/XX+/- 3.7.2X Xxxxx Xxxxxxxx Xxxxx, Xxxxxxxxxxx, 5, 609-614."

XXXXXXX 4F

"B.23 XXXXXXX XX XXXXXXXXXXXX XXXXXXX XX SPERMATOGONIÍCH XXXXX

1. XXXXXX

Xxxx xxxxxx je xxxxxxxx metody OECD XX 483 — Xxxxxxx xx xxxxxxxxxxxx xxxxxxx ve spermatogoniích xxxxx (1997).

1.1 XXXX

Xxxxxx xxxxxxx xx chromozomové xxxxxxx xx spermatogoniích xxxxx in xxxx xx xxxxxxxxxxxxx takové xxxxx, xxxxx xxxxxxxxx xxxxxxxxxx xxxxxxxxxxxx xxxxxxx xx xxxxxxxxxxxxxxx xxxxx (1, 2, 3, 4, 5). Xxxxxxxxx xx xxx xxxx xxxxxxxxxxxx xxxxxxx: xxxxxxxxxxxx x xxxxxxxxxxxx. U xxxxxxx chemických mutagenů xxxx indukované xxxxxxx xxxxxxxxxxxxxx typu, xxxxx xxxxxxxxxxxx xxxxxxx se xxxxxx xxxxxxxxx. Xxxx xxxxxx xxxx určena xx xxxxxxxxx numerických xxxxxxx x xxxx x xxxxxx účelu xxxxxxx xxxxxxxxx. Xxxxxxxxxxxx xxxxxx x xxxxxxx xxxx xxxx xxxxxxxx xxxxx geneticky podmíněných xxxxxx u xxxxxxx.

Xxxxx xxxxxxxx se xxxxxxxxx xxxxxxxxxxxx xxxxx xx xxxxxxxxxxxxxxx x předpokládá xx xxxx, xx xxxx xxxxxxx xxxxxxxx xxxxxxxxx indukce xxxxxxxxx xxxxxx x xxxxxxxxxxxx xxxxxxx.

X této xxxxxxx xxxx xxxxxxx xxxxxxxxx xxxxxxxx. Touto xxxxxxxxxxxxxx xxxxxxxx xx xxxx xx detekují xxxxxxxxxxxx xxxxxxx xxx mitose xxxxxxxxxxxxx. Xxxx xxxxxx xxxxx xxxxxx xxxxxxxxx xxxx xxxxxxx.

Xxx xxxxxxx xxxxxxx xxxxxxxxxxxxxx typu xx spermatogoniích xx xxxx xxx — xxxxx xxx xxxxx xx xxxxxx xxxx — xxxxxxxxx xxxxx xxxxxxxxx xxxxxxx xxxxxx, xxxxx xxxxxxxxx xx xxxxxxxx. Další xxxxxxxxx x xxxxxxxxxxxx spermatogoniálních xxxxxxxxx buněk xxx xxxxxx xxxxxxxxxx xxxxxxxxxxxxx xxxxxxxx aberací xxxxxxxxxxxxxx xxxx x xxxxxxxxx-xxxxxxxx X, xxx se xxxxxxxxxx xxxxx xxxxxxx xxxxxxxxxxxx.

Xxxx xxxxxxx in xxxx xx xxxxxxxx xxx xxxxxxxxx, xxx xxxx xxxxxxxx xxxxxxxxxxx xxxxx xxxxxxx také x xxxxxxxxxxxx xxxxxxx. Xxxxx je xxxx xxxxxxx se xxxxxxxxxxxxxxx xxxxxxxx xxx xxxxxxxxx xxxxxxxxx mutagenese, neboť xxxxxxxx xxxxxxxxx xxxxxxx xxxxxxxxxxx xx xxxx, xxxxxxxxxxxxxxx x procesy xxxxxxxx XXX.

Xx varlatech xx přítomna xxxx xxxxxxxx xxxxxxxxxxxxx x xxxxxx xxxxxxxxxx xx xxxxxxxx xxxxxxxx látce. Xxxxxxxxxx xxxxxxx xxxx xxxxxxxxxxx xxxxxxxxx odpověď xxxxxxxxxx xxxxxxxx xxxxxxxxxxxxx x xxxxxxxxxxxxxx diferencovanými xxxxxxxxxxxxxxx. X xxxxxxxxxx xx xxx xxxxxx xx varlatech, xxxxx xxxx nemusí xxx xxxxx xxxxxxxx spermatogonií xxxxxxxxxx celkovému krevnímu xxxxx x důsledku xxxxxxxxx x xxxxxxxxxxxx xxxxxxx Xxxxxxxxx xxxxx x bariéry xxxx xxxxxxx oběhem a xxxxxxx.

Xxxxxxxx xxxxxxxx xxxxx x xxx, xx xx xxxxxxxx xxxxx xxxx reaktivní xxxxxxxxxx xxxxxxxxxx xx xxxxxx xxxxx, xxxx xxxxxx xxxx zkoušku xxxxxx.

Xxx xxxx xxxxxx xxxx, xxxx X.

1.2 XXXXXXXX

Xxxxxxxxxxxx xxxxxxx : xxxxxxxxxx xxxxxxxxx xxxxxxxxxx x xxxxxx zlomu jednotlivých xxxxxxxxx xxxx zlomu x opětného xxxxxxx xxxxxxxxx.

Xxxxxxxxxxxx xxxxxxx : xxxxxxxxxx xxxxxxxxx xxxxxxxxxx x xxxxxx xxxxx xxxx zlomu a xxxxxxx xxxx xxxxxxxxx x xxxxxx místě.

Gap : xxxxxxxxxxxx xxxx xxxxx než xxxxx xxxxx chromatidy x x xxxxxxxxx xxxxxxxxx xxxxxxxxx.

Xxxxxxxxx xxxxxxx : xxxxxxxx xxxxx xxxxxxxxxx xx normální xxxxxxx x xxxxxxxxx buněk.

Polyploidie : xxxxxxx xxxxxxxxxxx xxxxx chromozomových xxx (x), xxxx xxx xxxxxxxxx (tj. 3 x, 4 x xxx.).

Xxxxxxxxxx xxxxxxx : xxxxxxxxxxxxx pozorovatelné xxxxx xxxxxxxxx xxxxxxxxxx xxx xxxxxxxx xxxxxx ve xxxxxx xxxxxxxx xxx xxxxxxxxxxx, xxxx se xxxx xxxxxx x xxxxxxxxx, xxxxxxxxxxxxxxxxxx xxxx xxxxxxxxxxxxxxxxxx xxxxx.

1.3 XXXXXXXX XXXXXXXX XXXXXX

Xxxxxxx jsou xxxxxxx xxxxxxxx xxxxxxxxxx xxxxxxxx xxxxx a xx xxxxxx době xx xxxxxxxx xxxxxxxx. Xxxx usmrcením xx xxxxxxxx podá látka xxxxxxxxxxx metafázi (např. xxxxxxxxx xxxx Xxxxxxxx®). X xxxxxxxxxxxx xxxxx xx poté xxxxxxxx xxxxxxxxx xxxxxxxxxx, xxxxxx xx x analyzují xx xxxxxxxxxxxx xxxxxxx xxxxxxxxxxxxxx buněk.

1.4 POPIS XXXXXXXX XXXXXX

1.4.1 Xxxxxxxxx

1.4.1.1 Xxxxx xxxxx xxxxxxx

Xxxxx xxxx xxxxxxxxx xxxxx xxxxxx xxxxxxxx x xxxx; lze však xxxxxx xxxxx xxxxxxxxxx xxxxxx xxxxxxxx druhu xxxxx. Xxxx xx xxx xxxxxxx xxxxx xxxxxxx xxxxxxxxxxx xxxxx xxxxxxx xxxxxxxx xxxxxxxx xxxxxxxxx xxxxxx. X xxxxxxxx xxxxxxxx xxxxxx xx měla xxx xxxxxxxx x xxxxxxxxx xxxxxx xxxxxxxxx a xxxxxx xx xxxxxxxxx ± 20 % xxxxxxx xxxxxxx xxxxxxxxx.

1.4.1.2 Xxxxxxxx xxxxx x xxxxxx

Xxxxx xxxxxx podmínky xxxxx xxxxxxxx úvodu x xxxxx X, xxxxxxx xx xxxx xxx xxxxxxxx vlhkosti xxxxxxx 50 – 60 %.

1.4.1.3 Xxxxxxxx xxxxxx

Xxxxxx xxxxx pohlavně xxxxxxx samci xx xxxxxxxx xxxxxxx xxxxxxx xx kontrolní xxxxxxx x xxxxxxx, xxxxx xx exponuje. Xxxxx xx měly být xxxxxxxxxx xxx, xxx xxx xxxx jejich xxxxxx xxxxxxxxxxxxx. Xxxxxxx xx xxxxxxxxxxx xxxxxxxxxxxx. Xxxx xxxxxxxxx xxxxxx xx nechají x xxxxxxxxxxxxx podmínkách xxxxxxx xxx dní xxxxxxxxxxxxx.

1.4.1.4 Xxxxxxxx dávek

Pevné xxxxxxxx xxxxx xx měly xxx xxxx xxxxxxxx xxxxxxxx rozpuštěny nebo xxxxxxxxxxxx ve xxxxxxxx xxxxxxxxxxxxxx xxxx xxxxxxxxxx x xxxxxxxxx xxxxxxx. Xxxxxxx zkoušené xxxxx xxxxx xxx xxxxxxxx xxxxx nebo xxxxx xxx xxxx xxxxxxx xxxxxxx. Měly xx xxx xxxxxxx xxxxxxx xxxxxxxxxx zkoušené xxxxxxxx xxxxx, xxxxx xxxxx x stálosti xxxxxxxxxxx xxxxxxx xxxxxxxxxx.

1.4.2 Xxxxxxxx xxxxxxxx

1.4.2.1 Xxxxxxxxxxxx/xxxxxxxxx

Xxxxxxxxxxxx/xxxxxxxxx xx xxxxxx xxx xxx xxxxxxxxx xxxxxxxxx xxxxx xxxxxxx účinky a xxxx xx xxx xxxxxxxxx xxxxxxxxx, xx xxxxxxx xx xxxxxxxxx xxxxxx. Jsou-li xxxxxxx xxxx xxx xxxxx xxxxxxxxxxxx/xxxxxxxx, mělo by xxx xxxxxx xxxxxxxx xxxxxxxxx xxxxx x xxxxxx kompatibilitě. Doporučuje xx xxxxx možno xxxxxxxx xxxxxx použití xxxxxxx xxxxxxxxxxxx/xxxxxxx.

1.4.2.2 Xxxxxxxx

Xxxxxxxx xxxxxxx xxxxxxxxxxx by xxxx xxx souběžné xxxxxxxxx x xxxxxxxxx (xxxxxxxxxxxx/xxxxxxxxx) kontroly. X xxxxxxxx xxxxxxxx zkoušené xxxxx by xxxx xxxxxxx xxxxxxxxx xxxxxxx xxxxxxxxxx identický proces xxxx zvířata xx xxxxxxxxx, x xxxxx xxxxx x expozici.

Pozitivní xxxxxxxx xx xxxx xxxxxxxxxx xxxxxxxxxx xxxxxxx xx xxxxxxxxxxxxxxx xx xxxx při xxxxxxxxxxx xxxxxxxx, x xxxxx xx předpokládá, že xxxxxxxxx detekovatelný xxxxxx xxx pozadí.

Dávky xxxxxxxxx xxxxxxxx xx měly xxx zvoleny xxx, xxx xxx xxxxxx xxxxxxxx, xxx xxx xxx xxxxxx xxxxxxx xxxxx xxxxxx xxxxxxxx xxxxxxxxxxxx xxxxxxxxx. Xx xxxxxxxxxx, xxx xxxx xxxxxxxxx xxxxxxxx xxxxxxxx xxxxx způsobem než xxxxxxxx látka x xxx xxx xxxxx x jejím případě xxxxxxxx xxx xxxxxx. Xxx xxxxxxxxx xxxxxxxx xxxx být navíc xxxxx v xxxxx xxxxxxx chemických látek xx stejné xxxxxxxx xxxxx, xxxx-xx x xxxxxxxxx. Xxxxxxxx xxxxx xxx xxxxxxxxx xxxxxxxx:

Xxxxx

Xxxxx XXX

Xxxxx xxxxx Xxxxxx

xxxxxxxxxxxxx

50–18–0

200–015–4

xxxxxxxxxxxxx xxxxxxxxxx

6055–19–2

xxxxxxxxxxxxxx

108–91–8

203–629–0

xxxxxxxxx X

50–07–7

200–008–6

xxxxxxxxx (xxxxxxx)

79–06–1

201–173–7

2,4,6-xxxx(xxxxxxxx-1-xx)-1,3,5-xxxxxxx

51–18–3

200–083–5

X xxxxxxxx každého odběru xx xxx xxx xxxxxxxx xxxxx x xxxxxxx xxxxxxxxx xxxxxxxx, xxxxx xx xxxxxxxxxx xxxxx xxxxxxxxxxxx xxxx xxxxxxxxx x která xxxxx xxxxxxxxxx xxxxxx xxxxxx xxxx xxxxxxxxxx xxxxxxx, pokud xxxxxx x xxxxxxxxxxx xxxxxxxxxxx xxxxx x xxxxxxxxx xxxxxxxxxx xxxxx x xxxxxxxxxxx xxxxxx x xxxxxxxx xxxxx s xxxxxxxxxxxxxx aberacemi. Kromě xxxx xx xxxx xxx neexponované xxxxxxxx xxxxxxx také xxxxx, xxxxxxxxxx-xx xxxxx kontrolní xxxxx xxxxxxxxxxx, xx xxxxxxx rozpouštědlo/vehikulum xxxxxxxxxx xxxxx xxxxxxx nebo xxxxxxxxx xxxxxx.

1.5 XXXXXX

1.5.1 Xxxxx xxxxxx

Xxxxx xxxxxxxxxx x xxxxxxxxx skupina xxxx zahrnovat xxxxxxx xxx analyzovatelných samců.

1.5.2 Xxxx xxxxxxxx

Xxxxxxxx látky xx xxxx xxx xxxxx xxxxx xxxxxxxx xxxxxxxxxxx nebo xxxxxxxxx (xx. xxx xxxxx xxxxxxxx xxxx xxxx xxxxxxxxxx). Xxxxxxxx xxxxx xxxxx xxx podávány xxxx ve xxxx xxxxxxx, xxx. xxx xxxxx x xxx xxx v rozmezí xx více xxx xxxxxxxx xxxxx, aby xxxx usnadněno xxxxxxxx xxxxxxx xxxxxx xxxxxxxxx. Xxxx xxxxxx xxxxxxxx xx xxxx být xxxxxxx zdůvodněny.

Ve xxxxxxx x nejvyšší dávkou xx xxxx xxx xx expozici xxxxxxxxx xxx odběry. Poněvadž xxxxxxxx buněčného cyklu xxxx být zkoušenou xxxxxx xxxxxxxxx, xxxxxxx xx xxxxx časný xxxxx x xxxxx xxxxxxxx xxxxx xxxxxxxxx 24 x 48 xxxxx xx expozici. X případě jiné xxx xxxxxxxx dávky xx xxx xxx xxxxx xxxxxxxx xx 24 xxxxx nebo xx takové době xxxxxxxx, xxxxx xxxxxxxx 1,5xxxxxxx xxxxx xxxxxxxxx xxxxx, pokud není xxxxx xxxx vhodnější xxxx pro detekci xxxxxx (6).

Navíc xxxxx xxx odběry provedeny xxxx v xxxx xxxx. Xxxxxxxxx x xxxxxxx xxxxxxxxxx xxxxx, xxxxx mohou indukovat xxxxxxxx xxxxxxxxx (xxxxxxx) xxxxxxxxxx xxxx xxxxx xxxxxxxxxx X-xxxxxxxxx xxxxxx, xxxx xxx xxxxxxxxx xxxxxxxx xxxxx (1).

Xxxxxxxx xxxxx xxxxxxxxx xxxxxxxx xxxx být určena xxxxxx xx xxxxxxx. X případě plánu x xxxxxxxxxx xxxxxxxx xx xxxx být xxxxxxx xxxxxxxx 24 xxxxx (1,5násobek xxxxx xxxxx) xx poslední xxxxxxxx. Podle xxxxxxx xxxxx xxx prováděny xxxxx odběry v xxxx xxxx.

Xxxx xxxxxxxxx xx xxxxxxxx xxxxxxxxxxxxxxxxx xxxx vhodná dávka xxxxx xxxxxxxxxxx metafázi (xxxx. Xxxxxxxx® nebo xxxxxxxxx). Xxxx xx xx vhodné době xxxxxxx x zvířat xxxxx. X xxxx xx tato doba xxxxxxxxx 3 — 5 hodin; x xxxxxx čínského xx xxxx xxxx přibližně 4 — 5 xxxxx.

1.5.3 Dávkování

Provádí-li xx xxxxx xxxxxxxxxxx xxxxxxxx xxxxxxxxxx údajů studie xxx xxxxxxxx rozsahu, xxxx xx být xxxxxxxxx xx xxxxxx xxxxxxxxxx, xx xxxxxxx xxxxxx x xxxxxx x za stejného xxxxxx xxxxxxxx, xxxxx xx xxxxxxx x xxxxxx xxxxxx (7). X xxxxxxx xxxxxxxx xx xxx xxxxx xxxxx xxxxxxx tři xxxxxx xxxxx. Xxxx xxxxxx dávky xx xxxx xxxxxxxx rozmezí xxxx xxxxxxxxx x xxxxxxxxx toxicitou, xxxxxxxx xxxxxx xxxxxxxxx. Xxx xxxxxxxxx xxxxxx xxxxx, xxxx bude xxxxxxx xxxxx xxxxxxxx xxxxx. Xxxxxxxx xxxxx xx xxxxxxxxxx xxxx xxxxx xxxxxxxxxxxx xxxxxx xxxxxx xxxxxxxx, xx xx xxxxx xxxxx vedly xxx stejném režimu xxxxxxxxx podle xxxxxxxxx x xxxxxxxx.

Xxxxx xx xxxxxxxxxxx biologickou xxxxxxxxx xxx nízkých xxxxxxxxxxx xxxxxxx (xxxx. hormony x xxxxxxxx) xxxxxx xxxxxxxxx xxxxxxxxx xxxxx xxxxxxxxx a xxxx xx xxx xxxxxxxxx xxxxxx od xxxxxxx. Xxxxxxxx xxxxx může xxx xxxx xxxxxxxxxx xxxx xxxxx xxxxxxxxxxxx xx xxxxxxxxxxxxxxx xxxxxxx xxxxxx xxxxxxxx (xxxx. xxxxxxx xxxxx xxxxxxxxxxxxx x xxxxxx xxxxxxxx x xxxxx x xxxxx xxxxxxxxx xxxxxxxx; xxxx xxxxxxx xx xxxxxx překročit 50 %).

1.5.4 Xxxxxxx zkouška

Jestliže xxxxxxx s xxxxxx xxxxxx alespoň 2000 xx/xx xxxxxxx xxxxxxxxx xxxxxxx jednorázově nebo xx xxxx xxxxxxx x jednom dni xxxxxxxxxx žádné pozorovatelné xxxxxxx xxxxxx x xxxx-xx xx xxxxxxx xxxxx o látkách, xxxxx mají podobnou xxxxxxxxx, očekávána xxxxxxxxxxxx, xxxxxxxxxx se xxxxx xxxxxx xx xxxxx xxxxxxxx xxxxx za xxxxxxxxx. Xxxxxxxxx xxxxxxxx xxxxxxx xxxx xxxxxxxx xxxxxxx xxxxxx x xxxxxxx xxxxxxx xxxxx xxxxxx xxxxx.

1.5.5 Xxxxxxxx xxxxx

Xxxxxxxx xxxxx se xxxxxxx xxxxxx xxxxxxxxxxxxxx, xxxxxxxxx xxxxxx xxxx xxxxxxx xxxxxxxxx kanylou, xxxx xxxxxxxxxxxxxxxxx injekcí. Xxxx xxxxxxx xxxxxxxx xxxx xxxxxxxxxx, xxxx-xx xxxxxxxxxxxxx. Xxxxxxxxx xxxxx xxxxxxxx, který může xxx najednou xxxxx xxxxxxxxx xxxxxx nebo xxxxxxxx, xxxxxx na xxxxxxxxx xxxxxxxxxxx zvířete. Xxxxx by xxxxx xxxxxxxxx 2 xx/100 x xxxxxxx xxxxxxxxx. Xxxxxxx vyšších objemů, xxx je xxxxxxx xxxxx, xxxx xxx xxxxxxxxxx. Xx na xxxxxxxx x xxxxxx xxxxx, které xxxxxxx xxx xxxxxxx koncentracích xxxxxxxx zesílené xxxxxx, xx xxxx být xxxxxxxxxxx zkoušeného objemu xxxxxxxxxxxxxx xxxxxxxxxx xxxxxxxxxxx xxxxxxxxxxx konstantní xxxxx xxx xxxxx úrovních xxxxx.

1.5.6 Xxxxxxxx xxxxxxxxx xx xxxxxxx xxxxxxxxxx

Xxxxx xx xxxxxxxx xx x xxxxxxx xxxx xxxx varlat xxxxx xxxxxxx xxxxxxxx, hypotonizuje xx a xxxxxx. Xxxx se xxxxxx xx xxxxxxxx xxxxxxx x xxxxxx xx.

1.5.7 Xxxxxxx

X každého zvířete xx xxxx xxx xxxxxxxxxxx xxxxxxx 100 xxxxx x xxxxx xxxxxxxxxxxx xxxxxxxx (xx. xxxxxxxxx 500 metafází xx skupinu). Xxxxx xxxxx xxx xxxxxx, xx-xx xxxxxxxxx xxxxx xxxxx xxxxxxx. Xxxxxxx xxxxxxxxx xxxxxx xxxxxxxxx xxxxxxxxxxx x negativních xxxxxxx, by xxxx xxx xxxx xxxxxxxxxxxxxx xxxxxxxx xxxxxxxxx kódovány. Xxxxxxxx xxx xxxxxx xxxxx xxxxxxx xx xxxxxxxxxxxxxx xxxxxx nebo xxxxxx chromozomů x xxxxx metafází, xxxx xx xxxxxxxxxxx xxxxx xxxxxxxxx xxxxxxxxxx v xxxxx odpovídajícímu číslu 2 x ± 2.

2. ÚDAJE

2.1 XXXXXXXXXX XXXXXXXX

Xxxxx pro jednotlivá xxxxxxx xx xxxx xxx xxxxxxxxxx xx xxxxx xxxxxxx. Xxxxxxxxxxxxxx xxxxxxxxx xx zvíře. Xxx každé xxxxx xx xxx xxx xxxxxxxxxx xxxxx xxxxx xx xxxxxxxxxxxx chromozomovými xxxxxxxxx x xxxxx xxxxxxxxxxxxxx xxxxxxx xx xxxxx. Xxx exponované x kontrolní xxxxxxx xx měly xxx xxxxxxx xxxxx typy xxxxxxxxxxxx chromozomových xxxxxxx x jejich počtem x četností. Gapy xx xxxxxxxxxxxxx xxxxxxxx x xxxxxxx xx, xxx xxxxxx xx xxxxxxxxxx xx xxxxxxx xxxxxxxx aberací.

Je-li xxxxxxxxxx xxxxxx x xxxx xxxxxx, xxx xx xxx pro xxxxxxxxx xxxxxxx xxxxxxxxxxxxx účinků xxxx míra cytotoxicity xxxxxxxx u xxxxx xxxxxxxxxxxx xxxxxx x xxxxxx sloužících jako xxxxxxxxx xxxxxxxx xxxxx xxxxxxxxxxxxx x xxxxxx xxxxxxxx k xxxxx x druhé meiotické xxxxxxxx, x xx x xxxxxxxx vzorku 100 xxxxxxxx se xxxxx xx xxxxx xxxxx. Pokud xx xxxxxxxxx xxxxx xxxxxx, xxxxxxx v 1000 xxxxxxx na zvíře xx měl být xxxxxxxx mitotický xxxxx.

2.2 XXXXXXXXX A INTERPRETACE XXXXXXXX

Xxx xxxxxxxxx xxxxxxxxxxx xxxxxxxx xxxxxxxx xxxxxxx xxxxxxxx, xxxx. xxxxxx xxxxx buněk x xxxxxxxxxxxxxx xxxxxxxxx x xxxxxxxxxx xx xxxxx xxxx jasný nárůst xxxxx xxxxx s xxxxxxxxx xxx xxxxxxx x xxxxxxx xxxxxx x x určitému xxxxxxxx xxxxxx. Xxxxxxxx xx xxxx být xxxxxxx xxxxxxxxxx xxxxxxxxx xxxxxxxx. Xxx hodnocení xxxxxxxx zkoušky xxxxx xxx použity xxxx xxxxxxx xxxxxxxxxx xxxxxxxxxxx xxxxxx (8). Statistická xxxxxxxxxx by xxxxxx xxx xxxxxxx xxxxxxxxx xxxxxxxx pro pozitivní xxxxxxx. Xxxxxxxxxx xxxxxxxx xx xxxx xxx xxxxxxxxx xxxxxx xxxxxxxxx, xxxxxxx s xxxxxxxx xxxxxxxxxxxxxxxx xxxxxxxx.

Xxxxxxxx látka, xxxxx xxxxxxxx xxxxxxxxx xxxx xxxxxxx xxxxxxxx, xx x tomto xxxxxxx xxxxxxxx xx xxxxxxxxxxx.

Xxxxxx xxxxxxx xxxxxxxxxxx xxxxxxxx xxxxx xxxxxxxxx xxxx xxxxxxxxx výsledky, x xxxxxxxxxxx xxxxxxxxx xxxxxxxx xxxxxx xxxxx xxxxxxxx xxxxxxx xxxxx x xxxxxxxx zkoušené xxxxx. Xxxxxxxx xxxxx xxxxxx xxxxxxxxxx xxxx xxxxxx xxx xxxxxx xx xx, kolikrát xx xxxxxxxxxx xxxxxxxx.

Xxxxxxxxx xxxxxxxx xxxxxxx na xxxxxxxxxxxx xxxxxxx ve xxxxxxxxxxxxxxx xxxxx xx xxxx xxxxxxxxx, že xxxxxxxx xxxxx indukuje x germinálních xxxxxxx xxxxxxxxxxx xxxxx xxxxxxxxxx xxxxxxxxxxxx xxxxxxx. Xxxxxxxxx xxxxxxxx xxxxxxxxx, xx xxxxxxxx xxxxx xx xxxxxxxx zkoušky xxxxxxxxxx x xxxxxxxxxxxx xxxxxxx xxxxxxxxxxx xxxxx xxxxxxxxxxxx xxxxxxx.

Xxxx xx xxx xxxxxxxxxxx xxxxxxxxxxxxxxx, x xxxxx xx xxxxxxxx xxxxx xxxx xxxx xxxxxxxxxx xxxxxxxx xx xxxxxx xxxxx.

3. ZPRÁVY

PROTOKOL X ZKOUŠCE

Protokol x xxxxxxx musí xxxxxxxxx xxxx xxxxxxxxx:

Xxxxxxxxxxxx/xxxxxxxxx:

- xxxxxxxxxx xxxxx xxxxxxxx,

- xxxxxxxxxxx x xxxxxxx zkoušené xxxxx x rozpouštědle/vehikulu, xx-xx xxxxx.

Xxxxxxxxx xxxxxxx:

- xxxxxxx xxxx/xxxx,

- xxxxx x xxxxx xxxxxx,

- xxxxx, xxxxxxxx chovu, xxxxxx xxx.,

- xxxxxxxxxxxx xxxxxxxx xxxxxx xx xxxxxxx xxxxxxx, xxxxxx xxxxxxx tělesné xxxxxxxxx, xxxxxxx xxxxxxx a xxxxxxxxxx xxxxxxxx xxx xxxxxx skupinu.

Zkušební xxxxxxxx:

- xxxxx xx xxxxxx xxx zjištění xxxxxxx, xxxxx xxxx provedena,

- xxxxxxxxxx xxxxxxxxx xxxxxx xxxxx,

- xxxxxxxxxx xxxxxxx xxxxxxxx,

- údaje x xxxxxxxx xxxxxxxx xxxxx,

- xxxxx x xxxxxxxx xxxxxxxx xxxxx,

- zdůvodnění xxx xxxxxxxx,

- případně xxxxxxxx xxxx koncentrací xxxxxxxx látky v xxxxxx xxxx xxxx (xxx) na odpovídající xxxxx (xx/xx xxxxxxx xxxxxxxxx/xxx),

- xxxxxxxx xxxxx x xxxxxxx krmiva x xxxx,

- xxxxxxxx xxxxx xxxxxxx xxxxxxxx x xxxxxx,

- xxxxxx xxxxxxxxx xxxxxxxx,

- xxxxxxxxxxxx xxxxx zastavující metafázi, xxxx koncentrace x xxxxx aplikace,

- metody xxxxxxxx preparátů,

- xxxxxxxx xxxxxxxxx xxxxxxx,

- xxxxx xxxxxxxxxxxxx xxxxx xx xxxxx xxxxx,

- kritéria xxxxxxxxxxx studie xx xxxxxxxxx, xxxxxxxxx xxxx xxxxxxxxxxx.

Xxxxxxxx:

- xxxxxx xxxxxxxx,

- xxxxxxxxx xxxxx,

- xxxxx xxxxxxxxxxxxx x xxxxxx xxxxxxxx k první x druhé metafázi xxxxxx,

- xxx a xxxxx aberací xxxxxxx xxxxxxxxxx pro xxxxx xxxxx,

- xxxxxxx xxxxx xxxxxxx xx xxxxxxx,

- xxxxx buněk s xxxxxxxxx xx xxxxxxx,

- xxxxx možnosti xxxxxxxxx xxxxxxxx xx xxxxx,

- xxxxxxxx xxxxxxxxxxx xxxxxxx,

- xxxxx x souběžné xxxxxxxxx kontrole,

- xxxxxxxxx xxxxx x xxxxxxxxx xxxxxxxx x rozpětími, xxxxxxxxx xxxxxxxxx x xxxxxxxxxxxx odchylkami,

- údaje x souběžné xxxxxxxxx xxxxxxxx,

- xxxxx ploidie, xxxxx xxxx pozorovány.

Rozbor xxxxxxxx.

Xxxxxx.

4. LITERATURA

1) Xxxxx, X. X., (1986), Xxxxxxxxxxx Xxxxxxxxx xx Xxxxx Spermatogonia xx Xxxxxxxx Xxxxxxxx Xxxxxxx xx xxxxx Xxxx-Xxxxx Xxxxxxxxxxxxxx, xx: Genetic Xxxxxxxxxx xx Environmental Xxxxxxxxx, Part X: Xxxxxxx Effects xxx Xxxxxxx Xxxxxxxxxxx, Xxxxx, X., Xxxxxxx, X., Xxxxxxxxx, X. (eds) Xxxx, Xxx Xxxx, 477-484.

2) Adler, I. X., (1984), Xxxxxxxxxxx xxxxx xx Mammals, xx: Xxxxxxxxxxxx Xxxxxxx: x Xxxxxxxxx Xxxxxxxx, (xx.) S. Venitt, X. X. Parry, XXX Xxxxx, Xxxxxx, Xxxxxxxxxx DC, 275-306.

3) Xxxxx, X. P., Xxxxxxx, G., Xxxx, X. E. (1964), Xx Xxx-xxxxxx Xxxxxx xxx Xxxxxxx Preparations xxxx Xxxxxxxxx Testes, Xxxxxxxxxxxx Xxxx Genetics, 3, 289-294.

4) Xxxxxxx, X., Xxxxx, J., Xxxxxxxx, X., Xxxxxxxxx, X. X., Xxxxxxxxx, X. (1990), In xxxx Xxxxxxxxxxx Assays, xx: X. X. Xxxxxxxx (ed.), Basic Xxxxxxxxxxxx Tests, XXXXX Xxxxxxxxxxx Procedures. XXXXX Xxxxxxxxxxxx xx Xxxxxxxxxx xxx Xxxxxxxxxxxx Xxxxxxx. Xxxxxx. Xxxx I xxxxxxx, Cambridge Xxxxxxxxxx Xxxxx, Xxxxxxxxx, Xxx Xxxx, Xxxx Chester, Xxxxxxxxx, Sydney, 115-141.

5) Xxxxxxxx, X., Xxxxxxx, X. (1978), A Xxx Xxxxxx xxx Xxxxxxxxxxx xx Xxxxxxxxx Xxxxxxxxxxxxxx Xxxxxxxxxxx, Xxxxxxxxxx Xxx., 52, 207-209.

6) Xxxxx, X. X., Xxxxxx X. D., Xxxxxxx, J., Xxxxx, X., Xxxxxxxx, X., Xxxxxxxxxxxx, F., Xxxxxxx, X., Tanaka X. (1994), Xxxxxxxxxxxxx Workshop xx Standardisation xx Xxxxxxxxxxxx Xxxx Procedures. Xxxxxxx Xxxxxx xx xxx Working Xxxxx xx Xxxxxxxxx Xxxx Xxxx Tests, Xxxxxxxxxx Xxx., 312, 313-318.

7) Xxxxxxx, R. X., Xxxxx, J. X., Xxxxxx, X. R., Xxxxxx, P. X., Xxx, J., Esdaile, X. X., Xxxxxxxxx, X. X., Hodson-Walker, X., Xxxxxx, X. X., Xxxxxxxx, X. X., Xxxxxxx, M. (1992), Xxxxxx xx Xxxxxxx Toxicology Xxxxxxx/XX Xxxxxxxxxxxxx Xxxxxxx Xxxxxxx Xxxxxxx Xxxxx: Xxxx Xxxxxxx xx Xx xxxx Mutagenicity Xxxxxx, Xxxxxxxxxxx, 7, 313-319.

8) Xxxxxx, D. X., Xxxxxxxx, X., Xxxxxxxx, X., Xxxxxxxx, X. X., Clarc, X., Xxxxxxxx, R., Xxxxxxx, X., Papworth, X. X., Savage X. X. X. (1989), Xxxxxxxxxxx Analysis xx Xx xxxx Xxxxxxxxxxx Xxxxxx, xx: X. X. Xxxxxxxx (ed.), Xxxxxxxxxxx Xxxxxxxxxx xx Xxxxxxxxxxxx Test Data. XXXXX Xxxxxxxxxxxx xx Xxxxxxxxxx xxx Xxxxxxxxxxxx Xxxxxxx, Report, Xxxx XXX. Xxxxxxxxx Xxxxxxxxxx Xxxxx, Xxxxxxxxx, Xxx Xxxx, Xxxx Chester, Xxxxxxxxx, Sydney, 184-232."

XXXXXXX 4G

"B.39 ZKOUŠKA XX XXXXXXXXXXXX SYNTÉZU XXX (UDS) V XXXXXXXXX BUŇKÁCH XXXXX XX VIVO

1. XXXXXX

Xxxx xxxxxx je xxxxxxxx xxxxxx OECD TG 486 — Xxxxxxx xx xxxxxxxxxxxx xxxxxxx XXX (UDS) x xxxxxxxxx buňkách xxxxx xx vivo (1997).

1.1 XXXX

Xxxxxx xxxxxxx xx xxxxxxxxxxxx xxxxxxx XXX (XXX) x jaterních xxxxxxx savců xx xxxx je xxxxxxxxxxxxx xxxxxxxx xxxxx, xxxxx xxxxxxxx xxxxxxxx XXX x jaterních xxxxxxx xxxxxxxxxxxx zvířat (1, 2, 3, 4).

Xxxx xxxxxxx xx xxxx xxxxxxxxx metodu vyšetření xxxxxxxxxxxxx xxxxxx xxxxxxxxxx xxxxx v xxxxxxx. Xxxxxxxxxxx xxx je xxxxxxxxxx poškození XXX x xxxxxxxx xxxxxxxx x xxxxxxxxx xxxxxxx. Xxxxx xxxx xxxxxxx xxxxxxx xxxxxx, xxx xxxx xxxxxxxxxxx sloučeniny xxxxxxxxxxxxxx. Jsou tedy xxxxxxx místem xxx xxxxxxxxx míry xxxxxxxxx XXX xx vivo.

Jestliže xxxxxxxx xxxxx x xxx, xx se xxxxxxxx xxxxx nedostane xx xxxxxx xxxxx, xxxx xxxxxx xxxx xxxxxxx xxxxxx.

Xxxxxx xxxxxxxxxxx xxxxxxx XXX (XXX) xx zhodnotí xxxxxxxxxx xxxxxxxxxxx xxxxxxxxx xxxxxxxxxx xx buněk, které xxxxxxxx xxxxxxxxxx xxxxxxxx XXX (X-xxxx). Xxxxxxxxxxxxxxx xxxxxxxxx xx xxxxxxxxxxxxxxxxx xxxxxxxxx inkorporace thymidinu xxxxxxxxx xxxxxxx (3X-XxX). Xxx xxxxxxx xx XXX xx vivo xx přednostně xxxxxxxxx xxxxx potkana. Jiné xxxxx xxx játra xxxxx být xxxxxx xxxxxxx, nejsou xxxx xxxxxxxxx této metody.

Detekce xxxxxxxx XXX xxxxxx xx xxxxx xxxx XXX xxxxxxxxxxx x xxxxxxxxxxx x xxxxx xxxxxxxxx. Zkouška xx XXX je xxxx xxxxxx zvláště pro xxxxxxx dlouhých xxxxxxxx ("xxxx-xxxxx repair") (20 xx 30 xxxx) xxxxxxxxxxxx látkou. Xxxxxx xxxxxx ("xxxxx-xxxxx repair") (xxxxx xx xxx xxxx) xxxx xxxxxxx xxxx detekovány s xxxxxx xxxxx citlivostí. Xxxxx může xxxxxxxxx xxxxxxxxxxxxx reparace, xxxxxx xxxxxxxx xxxx xxxxxx xxxxxxxxx xxxx XXX xxxxx k xxxxxxxxxx xxxxxxxxx. Xxxxxx odpovědi XXX neposkytuje žádnou xxxxxxxxx x xxxxxxxx xxxxxxxxxxx procesů. Xxxxx xx xxxxx, xx xxxxxxx xxxxxxx x XXX, xxx poškození XXX není opraveno xxxxxxxxxxx xxxxxxxx. Xxxxxxxxxx xxxxxxxxxxxx xxxxxxxxx, xxxxx xxxx zkouška xxxxxxxxx x xxxxxxxxx aktivitě, xx vyvážen xxxxxxxxxxx xxxxxxxxxx xxxxxx xxxx, xxxxx xx vyšetřován x celém xxxxxx.

Xxx xxxx obecný úvod, xxxx X.

1.2 XXXXXXXX

Xxxxxxxxxx xxxxx : xxxxx xxxxx xxx xxxxxxxxxxxxxx xxxxxxxx jádrům (XXX), xxxxx než xxxxxxxxxx xxxxxxx xxxxxxxxx xxxxxxxxxx xxxxxxxxxxx xxxxxxx.

Xxxxx počet xxx xxxxxxxxxxxxxx xxxxxxxx xxxxxx (XXX) : xxxxxxxxxxxxx míra UDS xxxxxxxx xxxxx v xxxxxxxxxxxxxxxxx xxxxxxx xx XXX, vypočtená xxxxxxxxx xxxxxxxxxx xxxxx zrn x cytoplasmatických xxxxxxxxx (XX) xxxxxxxxxxxxxx xxxxxx xx počtu xxx xxxxxxxxxxxxxx xxxxxxxx xxxxxx (XX): NNG = XX — CG. Xxxxxxx XXX xx xxxxxxx xxx jednotlivé xxxxx, xxxx xxxxxxxx xxx xxxxx v xxxxxxx, v xxxxxxxxxxx xxxxxxxxx atd.

Neplánovaná xxxxxxx XXX (UDS) : Xxxxxxx reparací XXX xx vyštěpení x xxxxxxxxxx xxxxx DNA xxxxxxxxxxxx xxxxxx x xxxxxxxxxx indukovaným chemickými xxxxxxx xxxx fyzikálními xxxxxxxx.

1.3 XXXXXXXX XXXXXXXX XXXXXX

Xxxxxxx na XXX x xxxxxxxxx buňkách xxxxx xx xxxx xxxxxxxx xxxxxxx xxxxxxxx XXX xx xxxxxxxxx x odstranění xxxxx XXX obsahujícího region x poškozením indukovaným xxxxxxxxxx xxxxxxx nebo xxxxxxxxxxx činiteli. Xxxxxxx xx obvykle xxxxxxxx xx xxxxxxxxxxx 3X-XxX xx DNA jaterních xxxxx, xxx xx xxxx xxxxxxx xxxxx x X-xxxx xxxxxxxxx xxxxx. Inkorporace 3X-XxX xx xxxxxxx stanoveno xxxxxxxxxxxxxxx, jelikož xxxx xxxxxxxx xxxx xxx xxxxxxx na vliv X-xxxx buněk jako xxxx. xxxxxxx scintilační xxxxxxxxxxxxx.

1.4 POPIS XXXXXX

1.4.1 Xxxxxxxxx

1.4.1.1 Xxxxx xxxxx xxxxxxx

Xxxxx xx xxxxxxxx xxxxxx, xxxxxx xxx xxxxxx xxxxxxxx xxxxxx xxxx xxxxx. Xxxx xx xxx použity xxxxx xxxxxxxxx laboratorní xxxxx xxxxxxx xxxxxxxx xxxxxxxx xxxxxxxxx xxxxxx. X okamžiku zahájení xxxxxx by xxxx xxx xxxxxxxx v xxxxxxxxx xxxxxx minimální x xxxxxx xx xxxxxxxxx ± 20 % xxxxxxx xxxxxxx xxxxxxxxx xxx obě xxxxxxx.

1.4.1.2 Xxxxxxxx chovu x xxxxxx

Xxxxx xxxxxx xxxxxxxx xxxxx obecného xxxxx x části X, xxxxxxx by xxxx xxx xxxxxxxx xxxxxxxx vzduchu 50 - 60 %.

1.4.1.3 Xxxxxxxx zvířat

Zdravá xxxxxxxx xxxxxxx xxxxxxx xx xxxxxxxx xxxxxxx rozdělí xx xxxxxxxxx xxxxxxx x xxxxxxx, xxxxx xx exponuje. Xxxxx xx měly být xxxxxxxxxx tak, xxx xxx vliv xxxxxx xxxxxx minimalizován. Xxxxxxx xx xxxxxxxxxxx identifikují x xxxx xxxxxxxxx xxxxxx xx xxxxxxx x xxxxxxxxxxxxx podmínkách xxxxxxx xxx dní xxxxxxxxxxxxx.

1.4.1.4 Xxxxxxxx xxxxxxxx xxxxx

Xxxxx xxxxxxxx xxxxx xx xxxx xxx xxxx xxxxxxxx zvířatům xxxxxxxxxx nebo suspendovány xx vhodných rozpouštědlech xxxx xxxxxxxxxx x xxxxxxxxx xxxxxxx. Kapalné xxxxxxxx látky xxxxx xxx podávány přímo xxxx xxxxx xxx xxxx podáním zředěny. Xxxx xx xxx xxxxxxx xxxxxxx připravené xxxxxxxx xxxxxxxx xxxxx, xxxxx xxxxx x xxxxxxxx xxxxxxxxxxx xxxxxxx xxxxxxxxxx.

1.4.2 Xxxxxxxx podmínky

1.4.2.1 Xxxxxxxxxxxx/xxxxxxxxx

Xxxxxxxxxxxx/xxxxxxxxx xx xxxxxx xxx při xxxxxxxxx xxxxxxxx xxxxx toxické xxxxxx x mělo xx xxx xxxxxxxxx xxxxxxxxx, že xxxxxxx xx xxxxxxxxx látkou. Xxxx-xx xxxxxxx xxxx xxx xxxxx rozpouštědla/vehikula, xxxx xx xxx xxxxxx xxxxxxxx podloženo xxxxx o jejich xxxxxxxxxxxxx. Doporučuje se xxxxxxxx xxxxxx použití xxxxx xxxxx xxxxxxx xxxxxxxxxxxx/xxxxxxx.

1.4.2.2 Xxxxxxxx

Xxxxxxxx xxxxx xxxxxxxxx xxxxxxxxx xxxxx xxxxxxxxxxx xx xxxx xxx xxxxxxxx xxxxxxxxx x xxxxxxxxx (xxxxxxxxxxxx/xxxxxxxxx) xxxxxxxx. X xxxxxxxx xxxxxxxx xxxxxxxx xxxxx xx měla xxxxxxx xxxxxxxxx xxxxxxx xxxxxxxxxx xxxxxx xxxxxx xxxx xxxxxxx xx skupinách, x xxxxx xxxxx x xxxxxxxx.

Xxxxxxxxxxx xxxxxxxxxx xx měly xxx xxxxx, x xxxxx xx xxxxx, xx xxxxxx podávání x xxxxxxxxxxx expozičních xxxxxxxxxxxxx xxxx k xxxxxxx XXX xxxxxxxxxxxxxxx xxx xxxxxxx. Pozitivní xxxxxxxx xxxxxxxxxx metabolickou xxxxxxxx xx xxxx xxx xxxxxxx v xxxxxxx xxxxxxxxxxxx mírnou xxxxxxx (4). Dávky mohou xxx xxxxxxx tak, xxx byl xxxxxx xxxxxxxx, xxx xxx xxx xxxxxx nevyšla xxxxx xxxxxx xxxxxxxx xxxxxxxxxxxx preparátu. Xxxxxxxx xxxxx pro xxxxxxxxx xxxxxxxx:

Xxxx xxxxxx

Xxxxx

Xxxxx XXX

Xxxxx xxxxx Einecs

Časné xxxx xxxxxx (2 xx 4 h)

N-nitrosodimethylamin

62–75–9

200–249–8

Pozdní doby xxxxxx (12 až 16 x)

X-(xxxxxxx-2-xx)xxxxxxxx (2-XXX)

53–96–3

200–188–6

Xxxxx xxx xxxxxxx také xxxx látky xxx xxxxxxxxx xxxxxxxx. Je xxxxxxxxx, xxx byla xxxxxxxxx xxxxxxxxx xxxxx xxxxxxxx xxxxx xxxxxxxx, xxx xxxxxxxx xxxxx.

1.5 XXXXXX

1.5.1 Xxxxx a xxxxxxx zvířat

Měl xx xxx xxxxxx xxxxxxxxxx xxxxx xxxxxx, xxx xxxx zohledněno xxxxxxxxx xxxxxxxxxx xxxxxxxx odpovědi xx xxxxxxx. Každá xxxxxxx by xx xxxx xxxxxxx alespoň xx xxx xxxxxxxxxxxxxxxx xxxxxx. Jestliže xxxx xxxxxxxxxxx dostatečné xxxxxxxxx xxxxx, xx xxx xxxxxxxxx x xxxxxxxxx xxxxxxxxx xxxxxxx nezbytné xxxxx xxxxx xx xxx zvířata.

Jestliže xxxx x xxxx xxxxxx x xxxxxxxxx údaje xx xxxxxx xx xxxxxxx druhem x xx použití stejného xxxxxxx xxxxxxxx, xxx xxxxxxxxx, xx neexistuje xxxx xxxxxxxxx rozdíl x xxxxxxxx, xxxx xxxxxxxxxxx xxxxxxxx xxxxxxx xxxxxxx, nejlépe samců. Xx-xx expozice xxxxxxx xxxxxxxxxx pro určité xxxxxxx, xxxx je xxxx například x xxxxxxxxx farmaceutických xxxxx, xxxx xx xxx xxxxxxx provedena xx xxxxxxxx xxxxxxxxxxxxxx xxxxxxx.

1.5.2 Xxxx expozice

Zkoušené xxxxx xxxx xxxxxxxxx xxxxxxxx xxxxxxxxxxx.

1.5.3 Dávkování

Za xxxxxxxxxx xxxxxxxx xx používají xxxxxxx dvě xxxxxx xxxxx. Xxxxxxxx xxxxx xx xxxxxxxxxx xxxx xxxxx vyvolávající xxxxxx xxxxxx toxicity, xx xxxxx xxxxx xx xxxxx xxxxx xxxxxxxxx xxx stejném režimu xxxxxxxxx k xxxxxxxx. Xxxxx xxxxx xx xxxx být zpravidla 50 % až 25 % vyšší xxxxx.

Xxxxx xx specifickou xxxxxxxxxxx xxxxxxxxx xxx xxxxxxx xxxxxxxxxxx dávkách (xxxx. xxxxxxx x xxxxxxxx) xxxxxx xxxxxxxxx xxxxxxxxx dávky xxxxxxxxx x xxxx xx xxx xxxxxxxxx xxxxxx xx xxxxxxx. Provádí-li xx xxxxx xxxxxxxxxxx xxxxxxxx xxxxxxxxxx údajů xxxxxx xxx xxxxxxxx xxxxxxx, měla xx xxx provedena xx xxxxxx xxxxxxxxxx, se xxxxxxx druhem, kmenem, xxxxxxxx a xx xxxxxxxx režimu xxxxxxxx, xxx xx xxxxxxx x xxxxxx studii.

Nejvyšší xxxxx xxxx xxx xxxxxxxxxx také jako xxxxx xxxxxxxxxxxx známky xxxxxxxx x xxxxxxx (xxxx. pyknotická jádra).

1.5.4 Xxxxxxx xxxxxxx

Xxxxxxxx zkouška x xxxxxx dávkou x alespoň 2000 xx/xx tělesné hmotnosti xxxxxxx xxxxxxxxxxx xxxx xx dvou xxxxxxx x xxxxxx xxx xxxxxxxxxx žádné pozorovatelné xxxxxxx xxxxxx a xxxx-xx xx základě xxxxx x látkách, xxxxx xxxx xxxxxxxx xxxxxxxxx, xxxxxxxxx genotoxicita, xxxxxx xxx úplná xxxxxx nezbytná. Xxxxxxxxx xxxxxxxx xxxxxxx xxxx xxxxxxxx xxxxxxx xxxxxx x limitní xxxxxxx xxxxx úroveň xxxxx.

1.5.5 Xxxxxxxx xxxxx

Xxxxxxxx látka xx xxxxxxx xxxxxx xxxxxxxxxxxxxx, xxxxxxxxx xxxxxx xxxx xxxxxxx xxxxxxxxx xxxxxxx. Jiné xxxxxxx xxxxxxxx xxxx možné, xxx-xx je xxxxxxxxx. Xxxxxxxx xxxxxxxxxxxxxxxxx xx xxxx xxxxxxxxxxxx, xxxxx xx xxxxx xxxxx xxx xxxxxxxxxx zkoušené xxxxx xxxxx a xxxxxx prostřednictvím xxxxxxxxx xxxxxxx. Maximální objem xxxxxxxx, xxxxx může xxx najednou xxxxx xxxxxxxxx sondou xxxx xxxxxxxx, xxxxxx xx xxxxxxxxx xxxxxxxxxxx xxxxxxx. Xxxxx by neměl xxxxxxxxx 2 xx/100 x xxxxxxx xxxxxxxxx. Xxxxxxx vyšších xxxxxx, xxx je uvedený xxxxx, xxxx xxx xxxxxxxxxx. Xx xx xxxxxxxx x žíravé xxxxx, xxxxx xxxxxxx xxx xxxxxxx xxxxxxxxxxxxx xxxxxxxx xxxxxxxx xxxxxx, xx xxxx xxx xxxxxxxxxxx zkušebního objemu xxxxxxxxxxxxxx xxxxxxxxxx xxxxxxxxxxx xxxxxxxxxxx xxxxxxxxxx xxxxx xxx všech úrovních xxxxx.

1.5.6 Příprava jaterních xxxxx

Xxxxxxx buňky xx xxxxxxxxxx z xxxxxxxxxxxx xxxxxx xxxxxxxxx 12 xx 16 hodin xx xxxxxx xxxxx. Xxxxxxxxxx xxxxxxxx xxxxxxxx xxxxxx (xxxxxx xxx xx čtyři hodiny xx xxxxxxxx) xx xxxxxxxx, xxxx-xx xx 12 až 16 xxxxxxxx xxxxx xxxxxxxxx xxxxxxx. Xxxxx xxxx xxx xxxxxxx xxxx xxxx xxxxxx, jsou-li xxxxxxxxxx na xxxxxxx xxxxxxxxxxxxxxxxx xxxxx.

Xxxxxxxxxx xxxxxxx xxxxxxxxx xxxxx xxxxx xx xxxxxxxxx xxxxxxxxx xxxxxxx xxxxx xxxxxxxxxxx xx xxxx x xxxxxx xx, xxx xx xxxxxxx disociované xxxxxxx xxxxx xxxxxxxxx xx xxxxxxx xxxxxxx. Xxxxxxx buňky x xxxxxxxxx xxxxxxxx xx xxxx vykazovat xxxxxxxxxxxxxxx (5) alespoň 50 %.

1.5.7 Xxxxxxxxx UDS

Čerstvě xxxxxxxxx jaterní buňky xxxxx se xxxxxxx xxxxxxx dobu, např. xxx xx xxx xxxxx, xxxxxxxx s xxxxxx xxxxxxxxxxx 3X-XxX. Xx xxxxx xxxxxxxxx xxxx xx mělo xxx médium z xxxxx xxxxxxxxxx x xxxxx poté xxxxx xxx xxxxxxxxxx s xxxxxx xxxxxxxxxxx přebytek xxxxxxxxxxx xxxxxxxxx, xxx xxxx xxxxxxx neinkorporovaná xxxxxxxxxxxxx ("xxxx chase"). Xxxxx xx xxxx xxxxxxx, xxxxxx x xxxxxx. Xxx xxxxx xxxxxxxxx době nemusí xxx snížení radioaktivity xxxxxxxx. Preparáty xx xxxxxx xx autoradiografické xxxxxx, xxxxxxxx xx x xxxxx (např. x xxxxxx 7 xx 14 xxx), xxxxxxxx xx, obarví x xxxxxxxxx xx xxxxxxxxxx xxxx stříbra. X xxxxxxx zvířete xx připraví xxx xx xxx preparáty.

1.5.8 Xxxxxxx

Xxxxxxxxx xx xxxx xxxxxxxxx xxxxxxxxxx xxxxx xxxxxxxxxxxx xxxxxxxxxx buněk, xxx mělo xxxxxxxxx XXX výpovědní hodnotu. Xxxxxxxxx xx xxx xxxxxxxxxxx prohlédnou na xxxxxx xxxxxx cytotoxicity (xxxx. xx xxxxxxx, xxxxxxxx úroveň značení xxxxxxxxxxxxx xxxxxxxx).

Xxxx xxxxxxxxx xxx by xxxx xxx preparáty xxxxxxxx. Xxxxxxxxx xx xxxxxxxxx 100 buněk na xxxxx xxxxx xxxxxxx xx xxxx xxxxxxxxx; xxxxxxxxx xxxx než 100 buněk/zvíře by xxxx být zdůvodněno. Xxx počítání xxx xx xxxxx x X-xxxx nevyšetřují, xxx xxxxx xxxxx v X-xxxx může být xxxxxxxxxx.

Xxxxxxxx 3X-XxX xxxxxxxxxxxxxxx xx jader a xxxxxxxxxx xxxxxxxxxxxx xxxxxxxxxx xxxxx xxxxxxxx navrstvením xxx stříbra xx xxxx být xxxxxxxxx xxxxxxx xxxxxxx.

Xxxxx buněk xx xxxxxxx z xxxxx zrn odpovídajících xxxxxxxx xxxxŭx (ng) x x prŭměrného xxxxx xxx v xxxxxxxxxxxxxxxxx xxxxxxxxx (cg) xxxxxxxxxxxxxx jádrŭm. xxxx xxxxxxx xx xx xxxxxxx buď počet xxxxx pro xxxxxxxxxx xxxxxxxxx xxxxxx xxxxxxxxxx, xxxx xxŭxxxxx xxxxxxx xxxx až xxx xxxxxxx xxxxxxxxx xxxxxxx x blízkosti xxxxxxxxx xxxxxxxxx xxxxx. xx xxxxxxxxxxxxx zdŮvodnění xxxxx xxx xxxxxxx x xxxx postupy xxxxxxxxx xxxxx xxxxx (xxxx. xxxxxxxx xxxxxx xxxxx) (6).

2. ÚDAJE

2.1 ZPRACOVÁNÍ XXXXXXXX

Xxxx xx být xxxxxxx xxxxx xxx xxxxxxxxxx xxxxxxxxx a xxxxxxx. Xxxxx xx xxxx být xxxx xxxxxxx xx xxxxx xxxxxxx. Xxxxxxxxx xxxxxxx XX xx hodnoty XX xx xxx xxx xxxxxxxx pro xxxxxx xxxxx, pro xxxxx zvíře x xxx xxxxxx xxxxx x xxx xxxxx xxxxx zrn xxxxxxxxxxxxxx xxxxxxxx xxxxxx (XXX). Xxxxxxxx jsou xxxxxxxx "xxxxxxxxxx" buňky, měla xx být xxxxxxxx xxx xxxxxxxxxx "xxxxxxxxxxxx" xxxxx xxxxxxxxxx a xxxxxxxx na dosavadních xxxx souběžných xxxxxxx x negativních kontrolách. Xxxxxxxxx xxxxxxxx xxxxx xxx zhodnoceny xxxxxxxxxxxxx xxxxxxxx. Mají-li xxx xxxxxxx, xxxx xx xxx xxxxxxxxxxx testy xxxxxxx x xxxxxxxxxx xxxx xxxxxxxxxx studie.

2.2 XXXXXXXXX X XXXXXXXXXXXX XXXXXXXX

Xxxx xxxxxxxx xxxxxxxx xxx pozitivní nebo xxxxxxxxx xxxxxxx xxxxx:

xxxxxxxxx

x)

xxxxxxx XXX leží xxx xxxxxxxx xxxxxx, která xx xxxxxxxxxx xx xxxxxxx dosavadních xxxxx xxxxxxxxxx;

xxxx

xx)

xxxxxxx XXX xx xxxxxxxx xxxxx xxx xxxxxxx pro xxxxxxxxx xxxxxxxx;

xxxxxxxxx

x)

xxxxxxx NNG leží xx xxxxxxxxx xxxxxxx xxxxxxx xxxx pod xx;

xxxx

xx)

xxxxxxx XXX není xxxxxxxx xxxxx xxx xxxxxxx xxx souběžnou xxxxxxxx.

Xxxx xx xxx xxxxxxxxx xxxxxxxxxx xxxxxxxxx xxxxx, xx. xxxx xx být xxxxx x úvahu xxxxxxxxx, xxxx jsou xxxxxxxxxxx xxxxxx, vztah xxxxx x odpovědi a xxxxxxxxxxxx. Xxx xxxxxxxxx xxxxxxxx xxxxxxx xxxxx xxx xxxxxxx xxxx xxxxxxx xxxxxxxxxx statistické xxxxxx. Xxxxxxxxxxx xxxxxxxxxx xx xxxx xxxxxx xxx jediným určujícím xxxxxxxx xxx pozitivní xxxxxxx.

Xxxxxx většina xxxxxxxxxxx xxxxxxxx jasně xxxxxxxxx xxxx negativní xxxxxxxx, x ojedinělých případech xxxxxxxx xxxxxx xxxxx xxxxxxxx konečný xxxxx x xxxxxxxx xxxxxxxx xxxxx. Xxxxxxxx mohou xxxxxx xxxxxxxxxx xxxx xxxxxx xxx xxxxxx xx xx, xxxxxxxx xx xxxxxxxxxx xxxxxxxx.

Xxxxxxxxx xxxxxxxx xxxxxxx xx XXX v jaterních xxxxxxx xxxxx xx xxxx xxxxxxxxx, že xxxxxxxx xxxxx xxxxxxxx x jaterních xxxxxxx xxxxx xx xxxx xxxxxxxxx DNA, xxxxx xxx opravit xxxxxxxxxxxx xxxxxxxx XXX xx xxxxx. Xxxxxxxxx výsledky xxxxxxxxx, xx xxxxxxxx xxxxx za podmínek xxxxxxx xxxxxxxxxx xxxxxxxxx XXX, které lze xxxxxxxxx touto zkouškou.

Měla xx xxx xxxxxxxxxxx xxxxxxxxxxxxxxx, x jakou xx xxxxxxxx látka xxxxxxx xx xxxxxxxx xxxxx xxxx. xx xxxxxx xxxxx (např. xxxxxxxxx xxxxxxxx).

3. XXXXXX

XXXXXXXX X XXXXXXX

Xxxxxxxx x xxxxxxx xxxx xxxxxxxxx xxxx xxxxxxxxx:

Xxxxxxxxxxxx/xxxxxxxxx:

- zdůvodnění xxxxx vehikula,

- xxxxxxxxxxx x xxxxxxx xxxxxxxx xxxxx x xxxxxxxxxxxx/xxxxxxxx, xx-xx xxxxx.

Xxxxxxxxx zvířata:

- xxxxxxx xxxx/xxxx,

- počet, xxxxx x xxxxxxx xxxxxx,

- xxxxx, xxxxxxxx xxxxx, xxxxxx xxx.,

- xxxxxxxxxxxx xxxxxxxx xxxxxx xx xxxxxxx xxxxxxx, xxxxxx xxxxxxx tělesné xxxxxxxxx, střední xxxxxxx x xxxxxxxxxx xxxxxxxx xxx každou xxxxxxx.

Xxxxxxxx xxxxxxxx:

- xxxxxxxxx a xxxxxxxxx (vehikulum/rozpouštědlo) xxxxxxxx,

- xxxxx xx xxxxxx xxx xxxxxxxx xxxxxxx, xxxxx xxxx xxxxxxxxx,

- xxxxxxxxxx xxxxxxxxx xxxxxx xxxxx,

- xxxxx x xxxxxxxx zkoušené látky,

- xxxxx x xxxxxxxx xxxxxxxx látky,

- xxxxxxxxxx xxxxxxx xxxxxxxx,

- xxxxxxxxx xxxxxx xxxxxxx, zda xx xxxxxxxx xxxxx xxxxxxx xx xxxxxxxx xxxxx xxxx xx xxxxxx xxxxx,

- xxxxxxxx xxxxxxxx xxxx xxxxxxxxxxx xxxxxxxx xxxxx x xxxxxx xxxx xxxx (xxx) xx xxxxxxxxxxxx xxxxx (xx/xx tělesné xxxxxxxxx/xxx),

- podrobné údaje x kvalitě xxxxxx x xxxx,

- xxxxxxxx xxxxx xxxxxxx expozice x odběru,

- xxxxxx xxxxxxxxx toxicity,

- xxxxxx xxxxxxxx a kultivace xxxxxxxxx buněk,

- xxxxxxx xxxxxxxxxxxxxxxxx xxxxxxxx,

- počet xxxxxxxxx x xxxxx xxxxxxxxxxx xxxxx,

- xxxxxxxx xxxxxxxxx,

- xxxxxxxx klasifikace xxxxxx xx pozitivní, xxxxxxxxx nebo xxxxxxxxxxx.

Xxxxxxxx:

- xxxxxxx xxxxxxx xxxxx xxx xxxxxxxxxxxxxx xxxxxxxx xxxxxx a xxxxx xxx odpovídajících xxxxxxxxxx, x čistý xxxxx xxx, xxxxxxxxxx xxx xxxxxxxxx, xxxxxxx a xxxxxxx,

- podle xxxxxxxx xxxxxxxxx odpovědi na xxxxx,

- případné xxxxxxxxxxx xxxxxxxxx,

- xxxxxx xxxxxxxx,

- xxxxx x souběžné xxxxxxxxx (xxxxxxxxxxxx/xxxxxxxxx) x xxxxxxxxx kontrole,

- xxxxxxxxx xxxxx x xxxxxxxxx (xxxxxxxxxxxx/xxxxxxxxx) x pozitivní xxxxxxxx s xxxxxxxxx, xxxxxxxxx xxxxxxxxx x xxxxxxxxxxxx xxxxxxxxxx,

- xxxxx xxxxx "xxxxxxxxxxxx" buněk, xx-xx xxxxxxxx,

- xxxxx xxxxx x X-xxxx, xx-xx xxxxxxxx,

- xxxxxxxxxxxxxxx xxxxx.

Xxxxxx xxxxxxxx.

Xxxxxx.

4. XXXXXXXXXX

1) Xxxxx, X. Xxxxxxx, X. X., Xxxxxxxxx, X., Penman, X. X. (1985), Xx Xxxxxxxxxx of xxx Xx vivo Rat. Xxxxxxxxxx XXX Xxxxxx Xxxxx, Xxxxxxxxxx Xxx., 156, 1-18.

2) Xxxxxxxxxxx, X. X., Xxxxx, X., Bermudez, E., Xxxxxxxx, X., Mirsalis, X., Xxxxxx, G., Xxxxxxxx, X. (1987), X Xxxxxxxx xxx Xxxxx xxx xxx Xx vivo Rat Xxxxxxxxxx XXX Xxxxxx Xxxxx, Mutatation Xxx., 189, 123-133.

3) Xxxxxxxx, X. X., Xxxxxx, X., Xxxxx, J., Xxxxxxx, X. A., Xxxxxxxxx, B., Benford, X. X., Dean, X. X., Mitchell, X. xx G. (1993), Xx xxxx Xxx Xxxxx UDS Xxxxx, xx: Xxxxxxxx X. X., Xxx X., (eds), Xxxxxxxxxxxxx Xxxxxxxxxxxx Tests: UKEM Xxxxxxxxxxx Xxxxxxxxxx. UKEMS Xxxxxxxxxxxx on Xxxxxxxxxx xxx Xxxxxxxxxxxx Testing. Xxxxxx. Xxxx XX xxxxxxx, Xxxxxxxxx Xxxxxxxxxx Xxxxx, Xxxxxxxxx, New Xxxx, Port Xxxxxxx, Xxxxxxxxx, Sydney, 52-77.

4) Xxxxx, S., Dean, X. X., Xxxxxx, X., Xxxxxxxxx. G., Xxxxxxxxx, X., Xxxxxxxxx, X. J., Furihata, X., Xxxxxxx, X., XxXxxxx, X. X., Xxxx, X. (1993), Xxxxxxxxxxxxxxx xxx xxx Xxxxxxxxxxx xx XXX Xxxxx Xx vitro xxx Xx xxxx, Xxxxx. Xxx., 312, 263-285.

5) Fautz, X., Xxxxxxx, X., Efstathiou, X., Xxxxxxxxxxxx-Xxxxxx, X. (1993), Xxxxxxxxxx xx xxx Relation Xxxxxxx xxx Xxxxxxx Viability xxx xxx Xxxxxxxxxx xx Xxxxxxx Isolated Xxx Xxxxxxxxxxx Used xxx the Xx xxxx/Xx xxxxx XXX Xxxxxx Xxxxx (XXX), Xxxxxxxxxx Xxx., 291, 21-27.

6) Xxxxxxxx, X. X., Tyson, X. X., Xxxxxxxxxxx, X. X. (1982), Xxxxxxxxx xx Genotoxic Carcinogens xx xxx Xx xxxx/Xx xxxxx Hepalocyte XXX Xxxxxx Xxxxx, Xxxxxxx.Xxxxxxx. 4, 553-562."

XXXXXXX 5

OBECNÉ XXXXXXXXX XX KLASIFIKACI X XXXXXXXXXX XXXXXXXXXXXX XXXXX X XXXXXXXXX

Xxx směrnice Xxxxxx 2001/59/XX, Xx. xxxx. X 332, 28. 12. 2000, x. 81.

XXXXXXX 6

"

PŘÍLOHA IX

ČÁST X

xxxxxxxx xxxxxxxx xx xxxxxxx xxxxxxxx proti xxxxxxxx xxxxx

Xxxxx ustanovení xx. 22 xxxx. 1 xxxx. e) xxxx xxxxxxxx, xxxx xxx xxxxx o xxxxxxxxx objemu obsahující xxxxx, x nimiž xx spojeno riziko xxx xxxxxxxxxx (Xx; X 65) x xxxxx jsou xxxxxxxxxxxxx x xxxxxxxx xxxxx xxxx 3.2.3 xxxxxxx XX xxxx xxxxxxxx, x xxxxxxxx xxxxx xxxxxxxxx na trh xx xxxxx xxxxxxxx xxxx v xxxxxxxx xxxxxxxxxx aerosolovým xxxxxxxxxxxxx, xxxxxxxx uzávěry odolnými xxxxx xxxxxxxx dětmi.

1. Xxxxxxxxx uzavíratelné xxxxx

Xxxxxxx xxxxxx xxxxx xxxxxxxx xxxxx xxxxxxx xx xxxxxxxxx xxxxxxxxxxxxxx obalech xxxx splňovat požadavky xxxxx XXX 8317 (xxxxxx xx dne 1. xxxxxxxx 1989) "Xxxxx odolné xxxxx — Požadavky na xxxxxxxxx xxxxxxxxxxxx xxxxx x xxxxxx jejich xxxxxxxx" xxxxxxxx Xxxxxxxxxxx xxxxxxxxxx xxx xxxxxxxxxxx (XXX).

2. Opakovaně neuzavíratelné xxxxx

Xxxxxxx xxxxxx xxxxx xxxxxxxx xxxxx xxxxxxx xx xxxxxxxxx xxxxxxxxxxxxxxxx xxxxxxx xxxx xxxxxxxx xxxxxxxxx xxxxx XXX XX 862 (xxxxxx x xxxxxx 1997) "Xxxxx — Obaly xxxxxx xxxxx — Xxxxxxxxx x xxxxxxxx xxxxxxx pro xxxxxxxxx xxxxxxxxxxxxxx xxxxx jiných xxx xxxxxxxxxxxxxxx xxxxxxx" xxxxxxxx Xxxxxxxxx výborem xxx normalizaci (XXX).

3. Xxxxxxxx

1. Prokázání shody x výše xxxxxxxxx xxxxxxx xxxxx osvědčovat xxxxx xxxxxxxxxx, xxxxx xxxxxxx xxxxxxxx xxxxx xxxx XX 45000.

2. Xxxxxxxxxx případy

Je-li zřejmé, xx xxxx xx xxxxxxxxxx bezpečný xxx xxxx, neboť se xxxxxxx dostat k xxxxxx xxx xxxxxx xxxxxxxx, xxxxxx xxx xxxxxxx provedena.

Ve xxxxx xxxxxxxxx případech a xxxxx xxxxxxxx oprávněné xxxxxx x pochybám x bezpečnosti uzávěru xxx xxxx, xxxx xxxxxxxxxxxx xxxxx xxxxxxxxx, xxx osoba xxxxxxxxx xx uvedení xxxxxxx xx xxx xxxxxxxxxx xxxxxxxxxx xxxxxx xxxxxxxxxx xxxxx xxxx. 3 xxxx 1 xxxxxxxxxxxx, xx xxx

- xxx xxxxxxx je xxxxxx, xx xxx není xxxxxxxx xxxxxxx podle xxxx xxxxxxxxx norem XXX a CEN,

nebo

- xx xxxxxx byl xxxxxxx x xxx xxxxxxx xxxxxxxxxxx podle xxxx xxxxxxxxx xxxxx.

XXXX X

Xxxxxxxx týkající xx xxxxxxxxxxxx výstrah

Technické xxxxxxxxxxx xxx hmatatelné výstrahy xxxx xxx x xxxxxxx s xxxxxx XX ISO 11683 (xxxxxx z roku 1997) "Xxxxx — Xxxxxxxxxx výstrahy xxxx xxxxxxxxxx — Požadavky".

"