Экспрессия генов = Gene expression 5-02-001890-2
В монографии рассмотрены современные представления о строении и механизмах функционирования генов прокариот и эукариот,
241 100 9MB
Russian Pages 830 Year 2000
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1 97
575 28.04 20
. . : . . . .
. . .– ISBN
.:
, 2000. – 000 .,
.
5-02-001890-2
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. -97- -№ 123 Patrushev L.I. Gene Expression. – Moscow: Nauka, 2000. – 000 p., il. ISBN 5-02-001890-2
2
This monograph consisting of two parts presents a comprehensive view of the structure and functioning mechanisms of genes for prokaryotes and eukaryotes as well as the basic methods used for their studies. Its first part discusses the genome structure of prokaryotic and eukaryotic organisms, also covering the mechanisms of transcription, translation, replication, DNA repair and their regulation. The second part of the monograph deals with the principles of the techniques employed in the gene research. The book devotes particular attention to current genetic engineering tools. It embraces the key aspects of recent developments of molecular genetics studies on site-directed mutagenesis, protein engineering, antisense RNA, ribozymes and deoxyribozymes, transgenosis and gene therapy, DNA diagnostics and genotyping human genome. The book will act as authoritative references for researchers, postgraduates, and students specializing in chemistry and biology. ISBN 5-02-001890-2 ©
"
", 2000
3
................................................................................. 9 ..................................................................................... 12
I. ................................. 17 18 1.
................................................................................................ 25
1.1.
.......................................................................... 28
1.2.
.............................................................................. 30
1.2.1. 1.2.2. 1.2.3. 1.2.4. 1.3.
.................................................................................... 31 ...................................................... 32 .......................................................................... 35 ............ 37 ................................................................................ 40
1.3.1. 1.3.2. 1.3.3.
........ 41 ............................................................................................ 45 ................................................... 55
2. ...................................................................... 60 2.1.
................................................................................... 61
2.1.1. 2.1.2. 2.1.3. 2.1.4. 2.2.
-
-
.................................................... 62 ( ) ......................................... 72 .......................................................................... 80 .................................................. 112
................................................................................................ 124 2.2.1. 2.2.2. 2.2.3. 2.2.4.
2.3.
............................................................ 125 ............................................................. 131 ................................ 143 , II ............................................................................ 163 ......................... 168 -
-
2.3.1. 2.3.2. 2.3.3. 2.3.4. 2.3.5. 2.4.
................................................... 169 ........................................................................................... 171 ............................. 173 .............................................................. 176 ...................................................... 178 .................................... 180
2.4.1.
......................................................................................... 180
4 2.4.2. 2.4.3. 2.5.
................................................................. 187 ...................... 197 ................................................................. 200
,
2.5.1. 2.5.2. 2.5.3. 2.5.4. 2.5.5. 2.5.6.
......... 201 .... 202 ................................................... 212 ................................................................. 213 ........................................................... 215 ............................................................ 219
3.
............ 223
3.1. .................................................................................... 225 3.1.1. 3.1.2. 3.2.
............................ 225 ....... 229 ....................................................................................... 238
3.2.1. 3.2.2. 3.2.3. 3.2.4. 3.2.5. 3.2.6. 3.3.
.............................. 241 ......................... 259 ......................... 297 .......................................................................................... 304 ...................................................................................... 318 ........................... 319 ............. 330
3.3.1. 3.3.2. 3.3.3. 3.4.
, ............................................................... 330 .............................. 343 .................................................. 353 .............. 358
3.4.1. 3.4.2. 3.4.3. 3.5.
................................................. 358 ................... 367 ............................................... 370 ........... 371
,
3.6.
................. 373
3.6.1. .......................................................................................... 373 3.6.2. ........................................................................................ 376 3.6.3.
-
3.6.4. 3.6.5.
.................................................................... 377 ............................................................................ 381 ...................... 386
4.
........... 390
4.1.
............................................................................. 390
5 4.1.1. 4.1.2. 4.1.3. 4.2.
, E. coli
........................................ 391 T4 ........................... 394 400 ......................................................... 403
4.2.1. 4.2.2. 4.3.
E. coli .................... 405 ColE1........................................ 414 .......................... 421
4.3.1. 4.3.2. 4.3.3. 4.3.4.
..................................................... 422 .................................................................... 425 ... 427 ............. 429 Щ
5. 5.1.
................................. 432 ........................................................................................... 433
5.1.1. 5.1.2. 5.1.3. 5.1.4. 5.1.5. 5.1.6. 5.2.
................................................................................. 435 .............................................................. 449 ...................................................................... 453 ................................................................................. 456 ....................................................................... 460 ......................................... 464 ............................................................................... 465
SOS-
5.2.1. 5.2.2. 5.2.3. 5.2.4. 5.2.5. 5.3.
................. 466 .............................. 468 ............................ 481 ............................. 483 (ADP) ..... 486 ..................................................................... 490
5.3.1. .................................................................................................... 491 5.3.2. ............................................................ 495 .......................................... 500
5.3.3. 5.3.4. 5.3.5.
............................................................................... 508 ..................................................... 516
6.
............................................ 522
II. .......................................................................................................... 531 7.
............................................. 532
7.1. 7.1.1. 7.1.2. 7.1.3. 7.1.4.
, -
-
... 539
......................................................... 539 .......................................................................... 548 .................................... 549 ............................................................................ 556
6 7.2.
........................................................................................... 558 ...................................................................... 559 λ .............................................................. 563 ........................................................................ 568 YAC, BAC PAC ........................................ 570 ( ) ....................... 574
7.2.1. 7.2.2. 7.2.3. 7.2.4. 7.2.5. 7.2.6. 7.2.7. 7.3.
................................................................... 577 ......... 593 ............................................................................. 596
7.3.1. 7.3.2. 7.3.3. 7.4.
.............................................................. 596 ...................................... 599 .................................................. 600 , ............................................ 602
7.4.1. 7.4.2. 7.4.3. 7.4.4. 7.4.5. 7.4.6. 7.5.
( ( ,
7.5.1. 7.5.2. 7.5.3. 7.6. 7.6.1. 7.6.2. 7.6.3. 7.6.4. 7.7.
............................................................ 615 .............................................................. 618 ......................................................................... 619 ................ 621 ............................................. 621 " ............................................. 622 ........................................................... 624 ..................................................................................... 625 ............................................. 626
" S1-
8.
... 629
8.1. 8.1.1. 8.1.2. 8.1.3.
............................ 630 ........................................................ 630 ..................................................................... 633 ..................................................................... 635 ....... 642 ..................................................................... 646
8.1.4. 8.2. 8.2.1. 8.2.2. 8.2.3. 8.2.4. 8.2.5. 8.3.
( CHO)....................... 604 Sp2/0) ...................................... 607 MEL) .......................................... 608 ( COS) ................. 610 ......................... 611 .. 612 ........................ 613
-
................................................... 646 ........................................... 655 ......................................................................... 656 ......................................... 662 ............................................ 666 .................................................................. 670
7 9.
, .......................................................................................................... 679
9.1.
................................ 679
9.1.1. 9.1.2. 9.1.3. 9.1.4.
...................................... 680 ............................................. 682 ................................................... 687 : .................................... 690 ................................................... 692
9.2. 9.2.1. 9.2.2. 9.2.3. 9.2.4.
............................................................................... 692 ........................................................................ 694 ......................................... 698 , ......................................... 704 ............................................................................ 708 ........................................................................................ 710
9.2.5. 9.3. 9.4.
.................................................. 713
9.4.1. 9.4.2.
-
10.
...................................... 714 ... 717 ............................... 722
10.1. ....................................................................................................... 722 10.2.
................................................................ 725
10.3.
................................... 726
10.3.1. 10.3.2.
............................ 727 .................................................................. 728
10.3.3. ............................................ 729 10.3.4. .................................................................................... 732 .................................................................. 735
10.4. 10.5.
....................................................................................................... 737 10.5.1. 10.5.2. 10.5.3.
-
..................... 738 ......... 743
.............................................................................. 746 ............. 750 ..................... 752
10.5.4. 10.5.5. 10.5.6.
, ............................................................................... 753
11.
-
-
.............................. 755
8 11.1.
................................................................................ 759
11.1.1. 11.1.2. 11.2. 11.2.1. 11.2.2. 11.3. 11.3.1. 11.3.2. 11.3.3.
.................. 759 ............................................................ 761 ........................................................................... 774
-
........................................... 775 : ............................................................ 778 .............................................. 786 .......................................... 787 ..................... 790 ..................................................... 792
12. ...................................................................... 796 12.1. 12.1.1. 12.1.2. 12.1.3. 12.1.4. 12.2.
.......... 796 ................................................... 797 ..................................... 802 ...................................... 804 ................................... 807 ...................................................................................... 809
12.3.
.................................... 810 .................................................................................................. 813 .................................................................. 818
9
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– .
S. cerevisiae N-
.
H4
,
49 . 3
4
( 3)2( 4)2,
2
2
–
. ,
,
2 / 2 , 3/ 4.
.
. (1997
.)
.
,
27–28 . ., 140 , 4 . .
B-
ó 0,25–0,35
. ./
, – 10,5
. ./
: ,
10,2 . ./
(
-
). ,
ó
. N-
,
-
, .
, N-
3 ,
ó 4
.
,
121
. .
H3. N-
H3 ,
,
N-
H2A .
, .
H2B
50 , 15
10–
40 . .
.
I.2
(
)
N-
3
135
-
41
25
Ac-K9, P-S10, Ac-K-14, Ac-K18, Ac-K23, Ac-K27
H4
102
32
–
P-S1, Ac-K5, Ac-K8, Ac-K12, Ac-K16, Ac-K20
H2A
129
24
16
P-S1, Ac-K5, Ac-K9
H2B
125
30
23
Ac-K12, Ac-K15, Ac-K20, Ac-K24, P-S32, P-S36
H1
213
36
92
S-
: P-S145, P-S173, P-S180 : P-S16, P-T17, P-T136,
P-S145, P-S173, P-S180 . Ac –
, P –
Lys, Arg, Thr
Ser
; K, R, T
S –
. .
"
"
in vitro 1
. 1, ,
, 30
,
.
, in vivo. 25~30
,
51
(∼100
NaCl),
. . 30 .
,
,
, "
(10
. .
,
" (super-beads).
.
∼6
)
,
, 10
~6
,
–
40
.
,
,
. . ,
, . 1, ó
30
. 1,
1,
1 ,
1 ,
5, . 1,
,
ó . 1
, ,
ó ,
.
1,
, . , .
,
, ,
1 ,
52 . , . -
. , ,
, ,
100
50–
. . .
,
(
)
.
. I.2).
. , , ,
~5
. . . (
, , (
) –
,
.
,
, MAR (Matrix Associated Region)
Associated Region)
SAR (Scaffold
MAR/SAR-
. MAR/SAR. , ,
-
II,
, .
(∼10 . . .),
"
,
"
, ,
, . I.2).
( , MAR/SAR-
.
, ,
. MAR/SAR-
53 . 200–350 . .,
(dT).
(dA)⋅ -
AATAAAT/CAAA
-
:
-
–
– TTA/TTT/ATTT/CAAA,
MAR/SAR-
,
. –
ATATTT
AATATTTT,
MAR/SAR, . MAR/SAR-
,
. .
MAR/SAR-
(1995 .):
300–1000 . .; -
AT-
; MAR/SAR-
, ,
; MAR/SAR-
3–112
. . ., , -
; MAR/SAR.
,
; MAR/SAR,
Z-
I. ,
MAR/SAR-
H-
,
54
.
,
, , , .
MAR/SAR( ,
.
), 3.2.4. -
, MAR/SAR-
. ,
. . .
. .
(1998
.)
,
,
SAR-
,
,
, .
,
MAR/SAR,
,
,
,
. .
. , (high mobility group – HMG). . ~10 : 14/17, 1/2
,
HMG.
I/Y.
HMG 14/17 10–12
, . N-
55 , –
.
-
ó
HMG 14/17, . HMG-
H1 . In vivo ~10% HMG 14/17. HMG 1/2 25–30
. ,
,
, . ,
(
)
.
1/2
,
HMG
in vitro, ,
. HMG I/Y
-
,
1.
,
1 in vivo (
.
2.1
4.1).
HMG, . ,
, ,
.
-
, . 1.3.3.
-
, , ,
, .
56 , ( -
). I
II.
-
I,
,
. I.3.
II
. 5'-
. VM26, mAMSA, II,
– ;L– .
. ,
,
-
II
ATP( Tyr, .
. I.3).
57 5'-
3'-
.
. I
-
Tyr
,
-
II , .
,
,
-
I – IA
,
IB,
, , .
-
IA
, ,
,
-
III. -
IA
, Mg2+
, 5'-
é
.
-
IA
II
,
.
,
IB
-
, , 3'-
.
IB
( ). -
IB/III
(camptothecin), .
I–
, .
. -
-
II
58 . , (
,
). -
II
I. -
II
, .
-
II
,
. -
II ,
.
,
.
-
II
.
-
. ,
-
II ,
MAR/SAR-
.
II
, .
,
in vivo
, : ,
, MAR/SAR-
.
– -
,
II
59 .
,
-
II
, , , .
β)
(α
,
-
,
.
, ,
.
, . ,
-
,
.
. , ,
. ,
(
MAR/SAR)
, .
, .
,
-
,
, ,
(
.
5.3).
, (
) .
60
2.
, , , .
↔
:
.
→
,
,
. . , ,
(
)
(
– messenger RNA, mRNA),
. , . ,
,
(
), .
( ,
), ,
,
.
,
. "
"
, ,
,
. .
,
,
61
.
, -
: , ,
. .
, (
).
. . 2.1. , , (ATP, GTP, CTP '
UTP)
'
3 –5 . ,
, -
-
, –
,
–
–
. , -
.
62
. 2.1.1.
-
.
, ,
–
,
-
SP6
T7.
, .
-
, , .
, .
,
-
-
.
,
,
-
in vivo , . -
E. coli. -
E. coli. .
(
165
), β- (155
α- (35
),
)
ββ‘αα,
(σ70)).
70
σ- (
(enzyme), )
: β‘-
(
-
E. coli, ,
(
,
.
).
σ-
,
,
,
63 -
–
,
,
.
σ70-
,
σ . 70
(
)
E. coli.
,
(
54
gln
,
nif –
σ70
)
σ70
-
Eσ54.
σ-
,
.
-
-
,
σ54
, β-
α.
β‘-
.
,
,
. , ,
α-
,
,
.
, (
),
, ,
–
, ,
.
. – – . ( )
.
. ,
,
,
64 σ-
, –
-
. -
I 18S , (
28S
-
;
.
-
(
),
-
II
III
), 5S
. , (120–220
)
5–13
(10–100
)
. -
.
,
β-
,
β’-
, .
α-
, -
, , I
II,
,
-
III.
-
,
, -
, ,
, -
. -
I
(Pol I). ,
: ,
.
.
65
. I.4. -
I( ) ( )
66 – , , -
.
Iα-Iδ
-
I.
, Mg2+).
( ,
.
– , . , .
↔ ,
(RPA194
RPA116)
, , → – 5′-
. , Eσ70,
I , . tss –
.
.
in vitro . , Pol I
. I.4,
,
'-
E. coli.
-
I
,
11
.
Pol I 194
, ), 15–60
.
Pol I 53
Pol I Pol I*)
116
(
14
53),
-
,
PAF53 (polymerase associated factor Pol I
RPA49
,
-
,
RPA49
.
RPA35.5 (
67 poly[d(A-T)],
.
, (
.
). Pol I
,
,
,
,
Pol I
, .
Pol I . TIF-IB (Pol I-specific transcription initiation factor B), ,
D, (
– rSL1
Pol I
).
hSL1,
X. laevis – Rib 1.
TIF-IB/SL1 Pol I .
TIF-IB/SL1
,
TBP, -
(
. .
2.1.3.) 110, 63
48
TBP-
TAFI, TBP,
,
. TIF-IB/SL1
UBF ( .
TAFI48 .
),
TAFI63
TAFI110
TAFI TAFII,
,
Pol II. TBP
TBP
TAFI
TAFII (
), .
TAFI48
TBP
-
,
TATAPol II-
, ,
–
,
Pol II. ,
Pol I, UBF (upstream
binding factor)
. UBF ,
-
68 HMG-
(high mobility group domain) – .
80
-
, α-
HMGL,
,
-
L.
UBF 97
– UBF1 95
UBF2
,
. UBF1
HMG-
,
N-
C,
.
HMG-
UBF
,
UBF
(
).
,
HMG-
,
UBF.
,
– Pol I
TIF-IB/SL1, .
-
UBF
Ser .
,
HMG-
,
.
UBF, . CPBF (core promoter binding factor), , (
.
2.1.2.). CPBF, USF1
Pol I,
USF2 USF1
Pol I,
44
39
.
USF2 USF1/USF2
,
in vitro.
CPBF
Pol I in vivo.
TIF-IA –
Pol I, . ,
,
. TIF-IA
69
. 70
TIF-IA
. TIF-IA
70–80
. , , .
,
TIF-IC
Pol I.
, .
, .
TIF-IC TFIIF (RAP30/74) Pol II (
-
II
(Pol II).
.
).
Pol II
10
,
. (GTFs – general transcription factors). Pol II .
. .
, .
,
,
Pol II
14 . I.3.
,
70 I.3 -
Pol II
II
-
,
,
TFIIB
Pol II
TFIIF
TBP
,
Pol II, Pol II,
TFIIH
SRB/
-
ATP
,
,
-
CTD-
SRB2, SRB5
, , TBP, SRB/
GAL11/SPT13
, , SRB/
SUG1
SRB/
SRB9, SRB10, SRB11
,
SRB/
SRB4, SRB6, SRB7, SRB8,
,
CTD-
, Pol II
71 , ,
, SRB-
(suppressor of RNA polymerase B). Pol II
. SRB, -
CTD-
Pol II ( -
II). SRB.
,
SRB-
in vivo. SRB,
CTD-
Pol II,
-
,
. Pol II
GAL4–VP16, Pol II. ,
Pol II
,
.
SRB-
,
,
CTD,
∼10
, TFIIF, GAL11/SPT13, SUG1 -
Pol II, ,
. . Pol II
(
.
3.2.2).
-
,
,
. ,
,
,
.
,
-
, .
,
T-
,
72 , -
-
,
,
T7. -
, ,
-
-
-
,
,
-
,
,
.
,
,
,
-
, .
, ,
-
. ,
(
)
-
,
T7, . .
.
.
,
, -
, .
,
,
,
-
,
(β –
)
,
,
,
. 2.1.2.
( -
) in vivo
,
, –
.
, ,
, . ,
"
. "
"
"
73 "
",
.
,
,
, . , .
,
, -
,
. . (
)
,
, -
, , . .
1964 .
.
lac-
,
.
.
E. coli. , -
,
.
,
: 1) ; 2)
-
-,
,
; 3)
, , .
,
(
)
. , ,
74 –
.
(Eσ70)
-
. I.4, . :
-35,
–30 –10,
–7
–35,
–10 (
"
"
, ,
+1). σ70,
σ4.2
.
17
σ2.4.
. .
.
,
, ,
–
UP-
-
, P1
α-
–52
rrnB,
.
-
.
TG-
(
–
–15
–14),
. –10
–35
,
,
, . , ,
in vivo, –43 ( –1
USR – upstream region), +20 (
DSR – downstream region). -
(
.
,
). .
, ,
.
75
3.1. . , (
)
. -
Eσ. -
II.
,
-
II, . ,
ó
, (
.
. I.4, ). :
TATA-
,
25–30
(
– TATAa/tAa/t),
(Inr), (
– PyPyA+1NT/APyPy). , , Py –
,N–
.
, (
).
TATA-
.
-
II .
. ,
(
50
), (
), 60 . . .
76 , .
. I.5.
II
1–
n
– ,
1– n – , – , +1 –
,
-
–
II . I.5.
–
– . CA, +1.
, ,
TATA-
.
10–15 . ., .
,
,
, (
).
.
, , "
"
. -
(
.
. I.4, ).
1-
III.
,
III, 5S
,
,
77 (internal control region – ICR). ICR, TFIIIA,
+50
+64.
TFIIIA–ICR
TFIIIA
(
.
1
TFIIIC,
2.1.3
3.2).
,
2,
,
. . A B.
+10 30–60
+20,
B
. .
3’-
. TFIIIC,
.
,
,
TFIIIC–
, –25
+75.
. ,
U6-
,
, . -
–30
PSE (proximal sequence element) –60.
-
,
, PSE
. -
II
-
,
PSE,
. ,
.
PSESNAP -
PTF. (TBP).
,
78 TFIIIB, -
. PSE-
,
,
PSE-
,
TFIIIB.
U6-
,
III,
-
U2-
,
II,
-
U2-
. ,
U6 Pol II-
.
-
, II
Pol III-
,
III
,
-
, -
.
I.
,
,
,
, ,
,
. ( ). ,
,
,
/ .
,
,
.
, .
-
ό
I
(CPE – core promoter element), –30
+1 (
.
–75
–50,
. I.4, ).
TBP-
SL1 (
),
,
,
(TBP
associated factor – TAF),
(
. TBP
I.
2.1.3) ,
-
79 I
TATA-
, TAFI63
.
TAFI110,
SL1,
-
. 7.6.4)
(
,
.
SL1 -
I.
SL1 -
UBF,
UCE (upstream control element), –90 SL1
–150.
UBF
-
I .
, Pol I,
, . CPE
,
.
UCE -
I.
,
, UCE
,
UBF .
, -
II
TFIIB. BRF -
-
I
.
,
.
,
– CPBF,
ó
binding factor),
III.
1, – E1BF (enhancer 1Pol I.
80 2.1.3. 4 :
1)
; 2)
; 3)
; 4)
.
, ,
,
,
.
-
, .
, – . ,
, .
.
, ; . , . I.6. . ,
II
,
.
,
, . ,
,
,
(
. ) .
-
81 ,
.
,
in vivo, in vitro,
.
. I.6.
-
. .
,
-
, , . , ,
E. coli,
α-
β-
σ.
-
E. coli (
.
, ,
-
σ-
)
82
−35-
α-
. .
~50
.
. , -
.
-
E. coli , -
II
. -
II. (
)
.
,
Pol II ,
.
, , .
(
. I.4). , , .
.
,
.
83 I.4
(GTF)
-
II
(GTF) (
TFIIA
)
,
37 (α) TBP
19 (β) 13 (γ) TFIIB
,
TAF
TATA-
,
35
Pol II/TFIIF
, TFIID
-
38 (TBP)
, -
,
250 (TAFII250) 150 (TAFII150)
3’-
135 (TAFII135) 95 (TAFII95) 80 (TAFII80)
H4
55 (TAFII55) 31 (TAFII31)
H3
28 (TAFII28) 20 (TAFII20)
H2B
HMG-
,
84 1.4 (
)
(GTF) (
TFIIE
)
56
Pol II (
34
– RAP),
Zn-
, , TFIIH
TFIIF
58 (RAP74)
,
σ-
in vivo
-
E. coli,
26 (RAP30)
TFIIH
89 (ERCC3)
3’→5’-
,
;
80 (ERCC2)
5’→3’-
,
;
62 (p62) 44 (hSSL1)
Zn-
40 (cdk7)
,
-
Pol II (CTDcdk7-
37 (
H)
(CAK)
Zn-
,
Zn-
;
hSSL1 34 (p34) CAK 32 (MAT-1) TFII I
120
INRTBP
(
),
),
85
. I.7.
-
II
–
;
–
, ,
. (
,
, TAF-
–
(TAB-associated factors)) ,
86 ,
. 3.2.2. TATATFIID (transcription factor II D),
,
TATA-
(TBP), (
.
. I.7, ).
TBP
-
I
III,
.
TBP
TATA, .
TATA-
TFIID TFIIA
TFIIB
.
-
TFIIB. II
II TFIIE, TFIIF,
TFIIH
TFIIJ, (
.
. I.7, ).
,
,
, –
. ,
. .
,
. TFIIB,
TFIIE
σ70-
TFIIF -
E. coli. .
-
, .
,
β-
β‘-
E. coli , -
87 . −10
+3
.
, (
7–8
)
, ,
(
-
). . ,
σ-
-
E. coli ,
,
.
-
.
. -
I
III),
-
E. coli ( II
(
52
) CTD (carboxy terminal domain), . , Ser
CTD
Thr.
,
in vitro CTD, TFIIH.
, cdk7,
.
in vivo
,
CTDII
-
,
, . " (promoter clearance (escape)) (
" .
. I.7, ).
,
88 ,
-
II,
ATP-
. , ,
, .
,
(
)
TFIIH (
.
. I.4,
5.2.2).
. .
. -
σ-
E. coli:
, ,
-
. -
, .
, , ,
,
–
(
-
(
CTD-
II).
). .
-
: , . . -
, .
89
. I.8.
E. coli ( )
: .
– I
II, ,
( ) I
II – ,D U– , – 3′-
–
.
:
(1), (2) (3). I (
II – ; III –
.)
; IV – (
-
;
.) ,
90 –
-
I; –D – -
3′( . .)
, (
∼ 17
,
2000 . . .
),
,
. -
, –
–
. ,
,
-
,
+4 . , . -
, , . ,
(walking). , . . .
,
,
-
,
, -
-
.
in vitro
200–400
/ .
– 50–100
/ ,
in
-
vitro
II 5–10
in vivo
/ .
91 ∼20–30
/ . ,
-
,
. 10-3–
10-5.
,
,
,
3’→5’-
-
5’→3’-
.
3’(
, .
).
, .
,
.
, , . .
,
,
-
-
(
.
. I.8). ,
-
,
.
,
,
,
. ,
, (transcription bubble),
-
. , (
)
, .
,
, -
.
, 3’-
-
92
.
,
. ,
,
2–12 . .
, . , , -
, .
-
,
,
-
. .
, .
-
E. coli
, ,
–
(
)
,
. . .
-
, (pause),
(arrest),
.
, .
,
,
, .
,
-
,
, , -
,
– .
93
. ,
, . ,
.
, , . , – . , -
. , ; ,
. -
, ,
90%. ,
100%. 7
,
. ,
-
, , , . -
, .
é
94 -
,
-
.
I, II
III
,
, (
.
3.2).
é
,
-
,
. ,
.
in vitro .
,
, . , ,
,
.
é , .
in vivo.
, ,
,
, .
-
, . , . ,
,
95 . ,
,
.
,
.
-
, .
,
, .
,
,
, .
,
,
. ,
IMP
GMP, ,
,
, .
,
, .
, -
,
.
3'-
.
, . ,
.
,
,
17 ,
.
, . -
.
E. coli -
.
, . ,
96 .
, ,
,
.
,
,
-
. ,
GMP
IMP,
, . ,
, . , .
.
,
,
. I
,
-
II
,
.
-
, ,
-
. .
-
II
. , .
, ,
.
, . . ,
. , ,
97 ,
.
,
-
, -
,
.
-
. ,
, .
,
,
. .
Z-
,
, .
,
-
E. coli .
7-
1–5
.
24
,
.
, .
, 3’-
-
,
,
: 3’-
,
3’-
-
. ,
.
-
,
-
-
E. coli, 3’-
.
5’,
3’-
.
-
-
,
, . ,
,
5’-
,
98 5'-
.
E. coli GreA
GreB,
TFIIS ,
.
, 3’1
,
17
.
.
, ,
. , ,
,
,
. ,
, ,
5’-
,
,
. -
, ,
, 5’-
3’-
, .
, , . .
, ,
, :
. .
,
GreA
TFIIS,
, .
-
. ,
, -
, 3’-
5’-
99 . 3’-
,
.
3’. -
,
3’3’→5’-
-
E. coli.
I
.
,
,
(
)
3’-
.
,
,
, . -
,
.
,
,
GreA
GreB -
. .
-
,
, .
in vivo, , -
, (transcriptional
–
( ),
(U)
( ). 10–20
slippage),
100 . Mn2+
Mg2+
. ,
,
,
.
. ,
.
-
3
2
.
-
.
,
(A)
E. coli
(U)
10
,
dT
dA,
.
in vivo, .
,
, , ,
( )-
(
5'-
pyrBI
,
codBA). ,
, , .
, E. coli
.
101
. .
1992 . ,
.
,
-
. -
,
-
,
∼ 10 II –
(
.
.
. I.8).
I
,
.
,
:
,
. , 12-
,
–
-
∼10
-
,
.
,
,
30–40
.
, -
II I
-
I
, (
.
. I.8, ,1).
. -
3’-
-
I
. ,
-
I ( ,
-
.
. I.8, ,1). I
II
102 . ,
-
-
II I .
-
I,
. ,
,
,
. .
,
, . -
, .
, , . ,
,
, :
, , ,
(
.
. I.8, ,2),
. 3’(
.
. I.8, ,3).
3’-
,
, ,
. -
II
,
-
,
,
10
,
in vivo. . ,
II.
103 :
(general)
. , ,
,
. -
II
. I.5. P-TEFb (positive transcript elongation factor b)
SII, -
II
.
P-TEFb, I.5 -
II
,
P-TEFb
124, 43 ,
SII (TFIIS)
38 ,
TFIIF
30, 70
, (SIII) A, B 110 18 15 ELL
80
. DRB – 5,6-
-1-β-D-
DRB
104 Drosophila, – DRB.
. DRB , , , -
II .
P-TEFb
,
.
-
II,
. -
P-TEFb,
, II
. SII, ,
-
II
, . -
,
DRB-
SII
. 3’-
,
,
II
.
-
,
α-
,
–
-
,
II
.
SII
, 6-
,
,
, GTP
, UTP.
,
, -
.
,
II
105 . : (SIII)
ELL,
,
-
TFIIF,
, . ,
, .
.
, -
,
TFIIF
II 3’-OH-
,
.
,
TFIIF
3’-OH-
.
TFIIF , -
,
II
.
. (SIII) ,
A, ~150, 18
(SIII)
A-
15
B
C
. A-
,
. C,
B,
,
(SIII). (SIII)
(
-
,
) von Hippel–Lindau (VHL), .
VHL
BC,
106 .
, , BC.
ELL
(eleven–nineteen
,
lysine-rich
leukemia)
19 (19p13.1), MLL (mixed lineage
leukemia)
11 (11q23) ,
.
MLL .
"
",
, ELL,
N-
MLL.
ELL
, , 11, , . . .
,
,
. ,
(
)
. , . .
, -
,
E. coli
GC-
,
, , A,
– .
(A)-
. ,
-
GC-
107 , –
-
.
. I.9.
E. coli
,
– 3’-
-
, (U)-
(dA)-
. -
,
-
.
108 σ-
.
:
, ,
, ,
,
,
.
E. coli
,
-
ρ,
. 46
, .
,
.
,
:
ρ ,
(rut sites,
. rut – .
,
ρ-
),
.
,
-
ρ-
,
-
. E. coli ,
. ,
Trp
(
.
. I.9).
Trp
-
,
, ,
180 . .
. ,
. -
,
Trp ,
,
,
, Trp. , .
, ,
, ,
109 , .
,
2/3,
1/2
3/4
. .
ρ-
3/4
, .
(U). 3/4 . , , Trp
.
Trp
,
1, 1/2,
2/3. , . , ,
2/3, 3/4,
. . ,
–
-
I, II
III.
,
N-TEF -
II, ATP.
Reb-1
, -
I
, . Reb-1-
3’-
in vivo.
TTF-1, ,
-
110 -
I
.
L -
,
, III, . Pol I. 565 28S 21 . .
. .
. 3'-
18-
,
Sal-
(AGGTCGACCAGA/TT/ANTCCG), .
, , .
11
(GGGTCGACCAG),
. . 5'-
.
,
, , . , TTF-I
Sal-
Pol I. ,
,
,
C-
-
80
,
-
c-Myb. N,
TTF-I , .
TTF-I
Rib-1 . Pol I. , TTF-I
111 .
, Pol I, (
-
ρ-
E. coli
). Pol I,
PTRF (polymerase and transcript release factor), Pol I,
TTF-I. TTF-I
.
,
To,
170 . .
.
To
TTF-I
, . .
2.1.4. , ,
, .
, , 3’,
-
II (
.
). -
. , ,
.
MTTERM -
in vivo ,
.
MTTERM
,
-
, H-
L-
.
112
. 2.1.4. -
,
.
.
in vivo . ,
in vitro.
,
,
,
, . ,
. , . . , , .
,,
,
, , ,
.
, ,
-
,
.
:
.
113 ,
. :
,
,
1) ; 2) ,
,
; 3) . , .
,
"
"
.
.
, .
H3
H4
CAF-I (chromatin assembly factor I), 150, 60 H3
50
.
H4
, 150
,
WDTrp
(
Asn
D – ).
H2A .
ó ,
W
H2B, in vitro
H3/H4 , .
,
,
H2A/H2B, (
GAL4,
USF
Sp1).
, H1, .
in vivo
114 ,
. (
3.2.4).
,
.
Ura3 ,
Ppr1,
G2/M
.
. ,
.
,
. , , . ,
GAGA-
,
TATA. .
, . ,
, . , .
,
,
.
, 3.2.2,
,
.
,
115 , . .
.
,
-
, , . ,
TFIID,
, , ( .
3.2.2).
,
.
(HAT – histone acetyltransferase) .
Lys
N-
, (
.
. I.2).
ó .
, ,
in vitro ,
.
-
,
.
,
,
116 . . – HAT A
HAT B.
HAT A
.
.
ó HAT B ,
, . .
HAT A ,
ó HAT B
,
,
H3
H4
Lys. ,
HAT1,
-
, , HAT A. HAT A Tetrahymena
GCN5,
(Gcn5),
,
. ,
, .
Gcn5
– Ada2
Ada3, Gal4–V 16
Gen4.
Gcn5–Ada2–Ada3
-
, .
-
. Gcn5–Ada .
-
,
, . ,
-
,
117 . , , .
, ,
,
-
.
,
,
,
, ,
. Gcn5–Ada. .
HAT
(histone deacetylase – Hd), ,
.
, . - HdA (350 )
HdB (600
). HdA , .
HdB
10
HdA
,
75 HDA1
HDA3
.
Rpd3,
71
HdB ,
, ,
. HdA
Rpd3-
;
, HdA
,
,
HdB H3
H4 in vivo.
.
118 ,
,
, .
, .
:
white, .
.
,
(Lys-12
H4).
,
,
,
β. ,
, .
. –
, ,
. , . , . Swi/Snf , . NURF (nucleosome remodeling
119
I.6
Swi/Snf
NURF
,
Swi/Snf
Swi1
2000
-
Swi2 (Snf2) Swi3 Snf3 Snf5 Snf6 p78 p68 p50 p47 p25 NURF
215 140 55 38
500
,
120 factor)
(
. I.6). ,
ATP . ,
ATP
.
, . ,
Swi/Snf
,
. SWI
SNF,
,
, .
Swi/Snf, ,
, ,
.
,
. I.6, ,
(p78–p25) – .
Swi/Snf
in vitro ATP-
.
H3
H4, ,
Swi/Snf in vivo. Swi/Snf
-
II,
. ,
SWI/SNF
,
.
Swi/Snf
,
,
II
CTD-
,
Swi/Snf, . NURF GAGA, hsp70. In vivo
-
121 200–300 , TATA-
GAGA
–
HSF (heat shock factor
). , GAGAGAGA
ATP.
ATP
, NURF.
HSP70
GAGA.
NURF
,
,
,
ATP
. NURF
, ,
ATP
Swi2.
140
ATP
,
Swi2, .
,
. ATP,
, . , . ,
Swi/Snf
-
II, .
,
,
.
,
-
, . /
,
,
122
, . .
, ,
.
-
,
SP6
T7,
in vitro, ,
.
,
in vitro -
II
III,
in vivo.
,
, . ,
. -
–
,
.
. ,
.
,
. . ,
,
,
-
,
. .
123 .
,
.
,
,
.
. .
,
,
-
II,
.
, ,
,
,
. , ,
70 .
,
,
,
. , , , .
,
,
POL II
, YY1,
NMP-1,
.
,
. , ,
, .
-
, .
,
, ,
124
. , .
,
,
.
2.2.
–
.
,
,
–
-
, , .
, (
(
)
), . .
.
-
. , .
,
-
,
,
. 5’,
"
" –
5’-
. –
.
3’,
( )-
. .
,
125 , , , . . 2.2.1. ,
(
. .
. I.10, ).
. T-
3
7,
in vivo III,
.
, . III E. coli,
5S, 16S
23S .
30S
16S .
23S
,
,
.
P. , . ,
(
.
, ,
-
9).
126 . 3’. .
( )-
E. coli,
( ) 1962 .,
-
( )-
1975 .
. I.10. – I-VI; ( );
, –
,
(
– )
127 .
, , .
,
( ).
,
,
14–16
),
1
(80–200 –
40%
(∼100%
).
( )2.2.3. ( )-
. ( )( ρ-
.
. I.10, ).
3’-
,
. ,
3’-
( ).
ρ-
, , .
3’,
( ) .
( ),
–
5’-
. +
( )-
,
,
, 3’-OH-
,
-
.
, .
( )-
. ( )),
(ATP:
-
128 3’-OH: + nATP → E. coli
( )n + nPPi
( )-
.
( )-
I
pcnB, .
52
, ,
, -
, CCA-
. pcnB
E. coli.
,
pcnB
E. coli
. f310,
36,3
,
. ,
( )-
.
. 25
, .
.
,
,
,
,
.
. 4.2.2 ColE1. ,
, ColE1
pBR322,
, (
I),
129 -
(
II),
,
. I .
I
5’-
( ( )-
I–5)
–
pcnB.
I–5
, (1–2
I–5
),
( ( )-
( )--
– >10
).
I–5
.
I–5 3’-
, . ( )-
,
,
I–5
3’+
.
( )-
,
I–5 III.
, I–5, .
. . ,
pcnB,
( )-
lpp, trxA, ompA,
,
rpsO
pnp, rnb
rne, . 3’-
, ,
ρ-
(
.
. I.10). II
( )-
(
.
. I.10, ).
, ,
, ( )-
,
130
II.
, . 3’-
3’-
,
, .
,
: 3’-
"
"
.
( )+-
,
,
II
.
. I.10 , .
,
,
,
.
3’ATP-
ATP
-
,
DnaK,
, .
.
(
.
2.2.3),
( )( )-
PAB, ,
. S1, ( )-
6
3·10
–1
.
, . 30S
, ,
,
S1 . .
131 -
. .
E. coli
IV (
.
. I.10, ).
,
,
.
( )-
HeLa 55
,
– 35–55 ( )-
60
.
.
in 600 20–23
( )-
vitro
( )-
,
.
3’-
,
. ( )( ) +-
,
,
.
(75%), G (24%),
C
U(
– 5%),
, 7.
( )
( )-
(Pisum sativum)
, 43
,
( )-
,
105 . 2.2.2.
-
, (editing).
, ,
132 ,
,
,
. – Crithidia fasciculata,
:
Leishmania tarentolae (
Tripanosoma brucei.
)
20–50 ( ),
, .
(
,
), .
(U), ,
U, ,
.
"
" U(
. I.7), (
),
, (AUG),
,
. (UAG
UAA),
3’poly(A)-
.
,
.
, . , ,
-
-
,
(guide RNAs, gRNA), . g ,
5’.
15
U,
3’-
133 3’-
.
I.7
AAUUUAUGUUGUCUUU AUCUCUAAGGGUUUAACCGG
P. polycephalum
(
AUUAAAAAGGGGCACAC
)
CAGUAAAAAAAAAAAAAA UUUUUCAUUGUGGUUUAC Phe Tyr AAUAAUAUGGCGAAACAU ,
UUUAUGCGGCAAGGA Arg GAUAUAAUUUGAUCAGUAUA -
5’-
g ,
,
.
,
g
. ,
,
,
. (
)
g
U. – .
,
,
-
134 – ,
, –
.
P. polycephalum (
.
. I.7). , .
.
,
.
P,
,
-
,
, (G)
,
,
.
UAA UGA,
, . .
.
,
U. : U→C. ,
,
.
,
. , ,
.
, , ,
. psbL
,
rpl2 A G
,
135 ATG.
→U.
,
, , .
,
,
,
, .
,
, ( AG),
, ,
GG. ,
,
(
1),
,
100%,
90–95%-
30-
,
.
,
, 40
80%.
,
, . , ,
.
, ,
-
. ,
,
,
,
. -
136
.
. I.8
, .
B
(APOB)
, .
APOB, APOBPOB 43
29
. . .
(
, ,
512
,
. I.11, ).
ApoB100
14
( . .).
26
UAA.
, ( ,
AA,
, )
137 I.8
,
-
/
C→U (CAAGlu→UAASTOP)
APOB-
A→I (CAGGlu→CGGArg)
» AMPA
KA
» 1
,
?
»
α-
Asp
Gly
δ » »
U→A (CUCLeu→CCCPro)
U→A (TTCPhe→TACTyr)
1
C→U (CGAArg→UGASTOP) C→U
U→C
C→U (Gly→Asp) A→I (UAGSTOP→UGGTrp) G
138
. I.11.
APOB
– APOB-
;
– ;
C –
APOBAPOBEC1. ( Z) . . APOB48 (241
),
2152 N-
APOB100. ,
-
APOB100, .
APOB-
139 .
,
,
. ,
, APOB-
,
, (
1)
28
.
,
12,
. ,
,
: , . , ,
, in vivo
in vitro.
,
,
.
55
,
25
, in vitro
25%-
. , .
,
140
Че
е
Б С К К М ш
С С С С С С С
я
1 2 1 1 1 1 1
GAUA aAaA GAUA GAUA GAUA GAUA GAUA
С→U С С С С С С С
* * ** * * * * * AAUU UGAUСAGUAUAUUAAAG AAU aUGAUСua AUuUguuua AAUU UGAUСAGUAUAUUAAAG AAUU UGAUСAGUAUAUUAAAG AAUU UGAUСAGUAUAUUAAAG AAUU UGAUСAGUAUAUUAgAG AAUU UGAUСAGUAUAUUAAAG ,
,
. , (mooring sequence). -
,
in vitro. APOB. .
,
-
, ,
APOB-
. ,
11,
, , , .
,
in vitro
C
–
3’in vivo.
,
APOB-
,
,
APOBEC1(
.
-
. I.11, ). ,
,
.
141 66
44
, ,
,
AUX240 (240
),
, . APOBEC1-
,
-
, . , ( ,
.
. I.11, ).
1 PO -
,
5’-
.
. , -
: . /
.
g
,
, ,
. -
, .
, ,
, . . ,
G,
-
,
.
,
142 APOB-
,
,
, , ,
in situ ( . .
). g
. ,
,
,
.
?
? , ?
,
,
, .
,
. , , .
5.3.1
.
,
,
. ,
,
Metazoa.
, -
,
,
.
,
,
143 -
. , ,
, . , .
,
,
-
.
" ",
,
. 2.2.3.
.
.
, -
5’-
-
, , , .
,
,
-
3’-
, 3’,
.
,
, .
-
.
144 3.3. . 5’-
,
-
.
20–30
. I.12.
.
,
–
-
,
-
-
1
. , I, II –
,
2
, .
,
eIF-4E
-
.
,
, -
,
. -
II. ,
. , , GTP,
,
– ATP, .
145 , 5’:
GMP,
ppp(A/G)pNpNpN...
5’-
5’–5’-
. : G(5’)ppp + ppp(5’)(A/G)pNpNpN... ↓ G(5’)ppp(5’)(A/G)pNpNpN... + pp + p ,
-
,
.
GTP (
–GMP.
-
GMP
γ-
5’-
),
,
.
.
-
. N7
.
. ( 7)-
-
,
S7
-
-
,
(
. I.12).
, 0-
. 2’-
5’-
(A , .
G), -
146 – 2’- -
. 1-
.
,
6
-N -
ATP,
2’- -
NH2-
.
,
2’-OH .
. I.13.
3′, .
-
( )-
, ,
, (CstF). PAP – ( ), CF I CF II –
, CPSF – I
II
-
( 1-
22.
,
.
, ,
10–15%
. I.12). ,
. 2’-
.
,
147 , (U-
,
).
2
2,2,7
m
7:
G(5')ppp(5')N.
U-
U-
-
,
,
U-
. . ,
,
3’-
, -
.
3'-
.
3’,
,
,
3’-
( )AMP: 5’ GpppG__________AAUAAA__↓________UUUUU___ 3’
↓
5’ GpppG__________AAUAAA__OH P____UUUUU___ 3’
↓
5’ GpppG__________AAUAAA__AAAAAAAAAAAAAAA 3’ : ,
.
U-
,
II. U1,
3'-
,
, , TPI (3'-terminal processing
inhibitor).
148
. I.14. PAP –
( )-
, PAB II –
, ( )-
( ) II
3’-
(
. I.13).
,
,
, .
, – AAUAAA
.
( )-
15
, U
GU.
3’-
A,
,
.
,
,
AAUAAA, , . AAUAAA
CPSF
(cleavage and polyadenylation specificity factor), .
CPSF
160, 100, 70 -
,
30
.
, .
149
AAUAAA. GUCSTF
(cleavage
stimulating
factor),
(77, 64 ).
50
GUCPSF
.
CSTF
. .
. : CFI CFII (cleavage factors).
, . , 3’-
in vitro, ( )-
–
,
. , ,
-
,
, . I.13.
β–γ-
ATP, .
, .
, .
3’. CPSF,
: CSTF, CFI (A)-
CFII. ∼ 80
∼ 43
, ,
. .
150 -
,
Ser
Thr
,
in vitro.
, .
,
. (A)-
.
( ), X,
β,
-
,
.
3’-
, AMP ,
-
-
( )-
ATP .
(A)-
CPSF,
(A)-
PAB II (poly(A)-binding protein II), ,
,
.
( )( )-
. . I.14. (
∼ 25
)
3’/
,
∼ 250
( ).
, AMP
( )-
.
, ( )-
PAB II (
. I.14).
.
PAB II
( )
( )( )
.
3’,
151 .
, . , , .
,
. I.9.
.
(1997 .) .
, ,
,
,
. , CCA
3’-
,
. ( )-
E. coli,
-
Sulfolobus shibatae, ( )-
, . , .
, ,
. I.9,
,
.
152 I.9
E. coli ( ),
80–200
14–60
∼100
2–50
,% 3’-OH-
AAUAAA : , 3’-
3’"
– "
"
–
",
S1,
PABP, ,
40S 30S
,
ColE1
153 .
, .
1977 .
,
,
. splice –
(
)
.
,
.
,
(
–
(
U6
),
.
U1–
,
.
)-
.
, , , .
(self-splicing).
, ,
,
.
, .
5’-
3’↓ ↓ ↓ 1GUAUGU__...__UACUAAC__...__(Py)nAG ←-------------------------------------------→
5’–
2–3’
, . -
.
, -
,
5’.
3’-
154 (Py)n
3'. ,
3’-
,
(branch point). 5’-
, "
" (lariat) (
.
).
,
-
, .
I, II ,
–
III,
,
.
I, II
III.
,
-
–
,
(
.
9.2). , .
,
: −
−
R–OH + R’–O–P–OR’’ → R–O–P–OR’’ + R’–OH,
I, II . I.15, , .
III
. I–III
I .
Tetrahymena
thermophila
. I.10
.
155 I.10
I
GTPOH + [
1]upA−
GTPOH −Gpa[
+ 2]
[
1]upA−
−Gpa[
2]
5’1]u−OH −Gpa[
[ GpA−
1]u−OH −Gpa[
[ 2]
GpA−
2]
2 [
1]upa[ + GpA−
2] −G
[
1]upa[ + GpA−
2] −G
156
157
. I.15. – thermophila), II –
I-III I (Tetrahymena III ,
(Euglena gracilis). ,
3′, , EBS ; – II; –
IBS –
5′-
158 . , 1, 2 – , ,
–
.
.
I
,
II
(maturase,
. mature –
), in vivo. I OH-
2’-
GTP
5’-
. I.10) (
(
.
GTP ).
5’-
.
1.
3’-OH-
1
3’-
, . .
"
.
" 3’-OH-
, 2.
3’-OH-
1 ,
G,
1
. II (
.
III
. I.15, ).
.
2’-OH-
,
, ,
5’-
,
1 .
5’-
2’–5’,
3’-
OH-
. 1
3’-
.
159
5’-
. . , . -
. , ,
II
III
,
. ,
,
.
. .
–
ATP
,
, .
,
, , .
OH-
5’.
II
III
,
. -
.
(
)
: 3’-
5’-
. ,
,
, . -
5’U1-
65
U2AF ,
U1, 5’-
, 35
U2AF ,
160 3’-
.
. , , Ser
SR-
Arg,
70 -
U1.
-
(70
),
U2AF35
,
,
SR-
"
,
,
". 5’-
,
3’-
. 5’U2AF
U1-
,
∼ 137
,
,
3’,
"
".
. .
, (
. .),
, 100 . . .
,
,
, , .
(
,
)
,
,
.
, , . ,
.
-
,
,
161
. I.16. –
; (2),
–
–
(1) -
(CBC)
. :1–
,2
, 3–
,X–
,
162 ;+– ; AAUAAA –
, ( )-
,
,
.
,
-
,
, ,
( U1, U2AF
. I.16, ).
U2-
,
SC35,
,
3’-
–
5’-
–
ASF/SF2. , .
,
,
. ,
, (
.
-
,
. I.16, ). .
,
,
,
:
,
,
;
(
)
;
, -
,
. 51, 32, 11
6%.
,
, .
. ,
,
1600
3,5%
1% – 400 50
,
.
300 ,
,
, in vitro
. ,
163 400
50
. .
,
6
. .,
7
, , . .
2.2.4.
-
, in vivo
II .
– – (
).
-
,
. , ,
, ,
.
, ,
,
, – ( )-
PABP
3.4.
50.
,
,
-
. -
(CBC).
-
, (
)
, ,
.
-
CBC
164 (cap-binding complex).
CBC
CBP80 (
80
)
CBP20 (20
). N-
CBC NLS (nuclear localization signal), CBC
( CBC
.
).
-
, -
.
CBC –
. CBC
-
.
15
,
m7G
-
.
,
-
.
, CBC – CBP80. ,
CBC -
.
,
-
.
. I.16
, . -
.
(
,
5'-
.
. I.16, ,2).
-
3',
,
(
I.16, ,3).
-
.
,
,
CBC.
,
3'-,
5'-
, CBC (
.
) (
165 ).
5'-
CBC-
(
(
.
. I.16, ,4). ,
,
.)
, ,
,
5'-
-
.
, U1-
CBC
5'-
,
, ,
, . 3'-
-
.
,
,
3'.
, -
( )-
7
-
m GpppG
CBC
,
.
,
-
CBC
,
3'-
,
–
,
. 5'-
3'(35–40 . .)
. ,
5',
( )-
-
.
,
,
3'-
,
, .
CBC .
-
II
II ,
,
166 : -
U-
.
,
.
-
.
in situ
,
,
CBC
, Chironomus tentans.
(35–40 . . .) , ,
,
200 ,
.
CBC .
,
, .
,
CBC CBP80 –
(NLS). α (
– 60
β
)
(90 NLS
,
α
).
,
,
,
, NPC (nuclear pore complex). .
NLS,
NPC
,
, . , GTP
Ran,
GTP, α.
, . , NPC. α
NLS
. α
CBC, .
, NLS
, α
167 -
CBC,
α,
NPC
. CBC–
NPC α
–
α.
GTP
,
Ran
GDP
1,
GTP
-
Ran (Ran GAP1), GTP.
NLS
-
CBC, CBC-
.
, .
-
U–
, .
eIF-
4E
( CBC
.
2.5.1).
.
.
. -
( . . )
5'-
CBC
.
-
,
, ,
,
-
.
-
I,
-
I
II
III.
,
III,
5'-
, m7G-
, . .
,
,
168 ,
,
,
. , . 2.3.
, .
,
,
, .
-
,
,
.
,
-
,
, .
("
")
, ,
,
.
, . ,
.
, ,
, .
,
. (
169 )
. .
2.3.1. 1.3
, .
,
. ,
,
3.2.4.
,
,
.
, -
, ,
. , .
,
.
, .
, .
-
, ,
.
,
170 . ( .
, 1885 .)
, . , Schizosaccharomyces pombe
G2
. , S. cerevisiae
,
,
– Sir3
Sir4
(silent information regulators), , ,
, .
. ,
.
,
. .
(1993 .), .
,
,
–
neu
50% –
,
.
,
,
, . ,
,
,
,
. ,
, (
.
.
).
(1993 .),
, ,
,
, .
,
171 , . ,
-
. 2.3.2. -
(nucleolus)
. , . , ,
.
, , –
, .
,
250 44
. . .
, .
. : (1), (3)
(2)
. , ,
-
I,
UBF
I.
, , .
,
,
172 ,
. 28S
18S
,
, .
15–20 ,
-
.
,
, . -
,
. ,
"
" , , -
I .
,
.
,
. .
,
. ,
. ~200
.
: , ~20% . ,
,
, , . ,
.
173 . "
" (cellular aging).
,
, ,
Cdc 14,
.
, RENT (regulator of nucleolar silencing and telophase exit), ,
,
, .
2.3.3.
, . , , , ,
,
. . ,
-
,
, . 3–20 -
.
, .
, .
" "
"
" , .
174
, .
,
,
,
,
,
.
,
,
.
, -
. . , . , 20–50
,
.
, .
,
, 4%
.
,
, .
,
,
-
. , (NPC).
NPC
, ,
.
,
, ( -
,
), .
175 ,
-
,
. .
, ,
. Chironomus tentans, .
,
.
-
,
,
,
,
,
, .
, ,
5’-
.
,
.
-
,
.
, .
, , . (gene gating model),
.
(1985 .), (
)
, . , , .
.
176 , ,
,
– .
, ,
,
.
, in vitro
∼1
/
. in vivo,
50
/
.
,
, . 2.3.4. ,
. ,
.
(coiled bodies).
,
,
. , , U3.
, (
U7-
,
p80). .
: G1
. .
177 . U73’-
-
,
.
,
, -
.
PML.
(PML) t(15;17) (
15
17),
α-
PML
. 2+
PML,
Zn -
"
,
RING",
.
U1-
80 ,
,
.
PML . , , . PML-
. , ,
PML.
, . ,
PML
. WT1.
WT1
-
, ,
.
,
, , ,
,
. -
178 "
" (
Pro/Gln.
.
2.2.2)
N-
,
WT1
GC, .
.
WT1
,
, . 2.3.5.
.
,
-
,
,
(
-
,
), ,
-
,
. ,
,
,
. , .
(
.
4). , .
, ,
, . ,
. ,
,
,
,
,
. , , ;
; .
:
2)
3) ,
,
1)
179 -
II. ,
(
)
(
)
, .
(
),
4. .
.
,
,
, ,
.
,
. . .
( .
,
, 1996 .), .
,
, .
, ,
(
:
.
5.3).
, , , . . .
180 2.4. ,
, .
,
, ,
. .
, ,
,
. .
, (
),
.
, .
,
, .
, . . , ,
,
, .
.
. 2.4.1. ∼ 2,5
,
,
181 . . 80S
, 70S. :
50S,
– 40S
– 30S
60S. 70S
55–60
,
80S
75–85. , . E. coli.
50 .
5
,
– 61
, 10–20
E. coli.
.
21 350
.
30S
16S
1542
(
). 850
.
, ∼ 1450
34 ,
–
23S (2904
)
5S
(120
).
,
,
,
.
. 23S CCA-
,
. 30S
50S
,
,
. .
182 , :
-
,
–
.
,
,
.
. I.17.
50S
E. coli
in vitro , ( ,
) .
. , . 70S . 50S T. thermophilus
3 Å, 7–20 Å.
,
183 ,
10
, , .
"
": ,
.
,
–
.
184
. I.18. E. coli ( ) 30S-
, ( ) ,
"
" (stalk) 50S ,
-, -
-
,
L1
. –
16S
185 ,
–
,
,
–
(
).
. ,
.
,
.
, , . ,
,
,
.
, .
, .
,
.
. ,
2-
,
, 5–10 Å
.
186 ,
,
.
, 2+
2+
(Mg
Mg2+
Ca ).
,
.
,
. . I.17
E. coli , ,
.
. ,
. . .
, ,
.
in vitro
. ,
,
. , (2H
, 3
). , , , .
,
187 ,
. 93
. ,
, .
. , .
,
, 16S
,
. .
.
, . . I.18 70S
E. coli,
.
, . 2.4.2.
1960-
., . E. coli, . ,
(
)
188 ,
:
,
. 70S
80S N.
,
.
, . ,
.
5’3’-
,
.
N-
.
E. coli. . 30S
,
,
, (
, AUG)
.
30S – IF1, IF2
IF3.
GTP, (
.
IF2
. I.19).
,
30S
GTP, ( ,
(fMet)-
fMet
E. coli,
). .
Met
MetE. coli
30S
fMet
,
NH2,
Met.
. I.19 (
, ’, ,
189 ’).
. I.19.
E. coli , GTP, fMet-
fMet
30S AUG-
(
’
B’). (
.
C),
C (
)
, . IF1
IF3
50S
, (
D).
GTP
GDP
IF2 ( -
fMet
E).
AUG(P)
,
(A) .
190
– . .
, ,
70S
,
, ,
, .
C-
, .
. I.20. ,
191 EF-Tu,
GTP (
.
A-
. I.20,
1).
A. , A-
,
.
(
GTP
EF-Tu•GDP
2) NH2, -
A-
(
.
3).
GDP
GTP
Tu•GDP
EF-
EF-Ts.
,
A-
,
E-
(
. exit –
). -
.
A-
.
P-
( 4)
. EF-G, GTP.
,
GTP
. EF-G
.
A-
. A( fMet
-
∼ 20 .
.
. P-
E-
, .
200
∼10
A-
1),
, ,
192 P-
E-
.
A
E
,
,
A-
E-
,
. EF-G.
,
IV EF-G EF-Tu. EF-G ,
ó
EF-Tu ,
-
.
-
EF-G
. IV
,
EF-G A-
,
.
, .
. , (
A-
)
P-
,
-
.
RF1
RF2 .
RF3,
EF-G,
EF-
Tu,
-
. ,
.
, .
, E. coli
-
. – ,
–
193 .
,
EF-G
(RF)
GTP , .
RF4 (
RRF –
ribosome-recycling factor)
P-
.
E-
(
,
)
-
,
RF-
A-
.
.
IF3.
,
, -
,
. . ,
, . E. coli .
,
, , . ( ,
) .
,
E. coli,
,
. (
,
,
AUGA). ,
SD-
, (
,
194 ). .
, , .
,
. E. coli
UUG
, . IF3
, . ,
, (RF).
R17, ,
-
7
,
RF4 , , .
N,
,
-
7
-
RF4
,
. .
.
, (hybrid states model)
A-
P-
30S A-, P-
. -
E-
–
EF-
Tu•GTP• A/E.
A-
195 30S
,
CCA-
,
EF-Tu,
,
E-
,
.
GTP
EF-Tu,
CCA, -
-
A-
A/A-
,
A-
.
,
P-
,
E-
. A/P-
,
:
A-
CCA-
30S
,
P-
. P/E-
P-
:
,
CCA-
.
EF-G
EGTP,
,
30S
.
-
P/P-
,
P-
,
EE-
.
, .
-
, ,
.
-
,
:
, 30S
,
,
,
.
-
,
.
, .
, ,
196
, S21
L11.
, , . (displacement model). , , . .
–
. , ,
,
. ,
,
EF-Tu-
GTP .
GTP (cognate)
(noncognate)
∼ 104
,
.
EF-Tu•GDP -
-
-
,
.
, GTP
. ,
, .
, ,
A-
"
A-
"
vice versa. PA-
:
ram-
.
,
197 P-
,
.
"
"
,
, A-
P-
, . 10Sa
,
.
,
3’-
, .
10Sa
,
,
,
,
E. coli
ssrA, .
Ala
3’-
,
,
, . 10Sa
Ala
,
,
G3:U70, Ala
:
.
Ala
10Sa
.
,
, – ANDENYALAA –
,
CUAA-
10Sa
, , . 2.4.3.
,
. I.21 ,
. ,
.
,
. C-
198 ,
. ∼7500
,
∼4500
. . ,
(
) . .
. I.21.
–
,
199 . 3’. , -
A-
. ,
-
.
C,
. ,
. . 50S
. -
,
.
, .
, -
,
. A-
50S
, -
A-
,
,
. .
.
-
P-
. . –
, .
, ,
EF2(EF-G), GTP-
, .
EF2(EF-G)
GTP
GTP.
-
,
200 . . . 30S
,
-
30S
, .
,
30S
. . (
) 30S
,
. -
,
, A-
. . -
. .
,
. 2.5. ,
.
, ,
, , . ,
.
( .
7.4).
201
,
.
,
.
, ,
,
S. cerevisiae. 2.5.1.
, , , ,
. ,
,
,
3'-
( ),
,
-
.
,
, ,
. , .
,
(
), ,
5'-
(5'UTR – 5' untranslated
region),
.
, ( )-
,
3'-
(3'UTR).
.
5'UTR,
,
"
"
-
(uORF – upstream open reading frame), (
).
5'UTR , .
5'UTR
.
202 (
) .
3'UTR
( ). , 3'-
,
( )-
. 2.5.2. , ,
,
. (
)
5'AUG-
,
5'UTR. AUG-
.
,
,
5'-
, ,
, . .
, ,
.
.
-
,
, 5'-
3'-
, 11
25
(
,
. I.11). I.11 S. cerevisiae
eIF1
Met-
AUG-
(
)
40S
203 eIF1A
40S–60S ,
Met(
eIF2
α, ,
eIF2B
α, , , ,
eIF3
α, , , ,
)
eIF2 Met-
, , ,
40S
40S–60S
eIF4A
,
eIF4B
,
eIF4E
-
eIF4G
G1(p150),
eIF3, eIF4E
Pab 1p
G2(p130) eIF4H
eIF4B
eIF4F
eIF5 eIF5A
,
eIF6
40S–60S
, , , ,
. . 5'-
-
-
(CBC).
CBC
.
,
,
2.2.4,
CBC , .
204 eIF2
Met-
.
eIF2 Met-
vitro.
in .
GTP
eIF2
MetMet-
–eIF2–GTP.
eIF2B
GDP
, GTP
eIF2–GDP. . ,
40S 40S-
.
, –
,
. -
eIF4E
.
-
.
eIF4E
eIF4G
eIF4F. ,
eIF4E -
eIF4F,
eIF4G
. ,
eIF4A,
eIF4G
.
eIF4F
ATP,
eIF4B.
eIF4H
eIF4F
(1998
.)
eIF4B, .
eIF4F: eIF4G
eIF4E,
eIF4G1.
p20,
( )-
Pab 1p,
p20
BP –
4E-
. eIF4G eIF3, eIF4E
eIF4A.
, -
,
eIF4G
205 eIF4F.
eIF4E (
)
3.4.1. , –
–
, -
,
eIF4G
eIF3.
,
, ,
.
40S
MetMet
–eIF2–GTP,
. ,
40S
,
,
GTP
Met-
eIF3
–eIF2–
eIF4G.
,
,
eIF4F,
eIF4G
eIF4E,
-
-
.
,
eIF4A,
,
eIF1A. 5'UTR AUG-
.
3'-
( )-
.
– , N-
eIF4G
,
( )3'-
Pab1p.
( )60S
,
pab1. , 3'-
( ).
, .
,
206 . , AUG-
,
-
,
.
5'UTR
(
,
SD-
),
TIR
(translation initiation region),
3'-
16S
. .
, 5'UTR . . , -
5'UTR, " AUG-
"
.
,
.
-
SDAUG–
Met-
,
.
.
, ATP
-
5'UTR.
, eIF4A,
, ,
-
eIF4B.
,
, 5'UTR, .
,
207 AUG-
eIF2.
, . ,
eIF5 .
,
AUG IF3. eIF5,
in vivo
UUG. eIF2
,
eIF5 ß-
eIF2
eIF5. 40S 60S eIF5, . , GTP.
,
eIF2–GDP, ,
eIF1A
eIF3.
, . . . AUG,
AUG-
.
,
. A –3
AUG (
A
AUG-
+1),
. ,
,
A-
AUG,
,
, GC. 5'UTR
,
208 GC-
A,
,
.
,
AUG
,
-
.
,
: AACAATGGC. –3
G
+4. +5 ,
+6.
,
.
,
, (leaky scanning).
3.4.1 (
.
. I.40, – ) . ,
AUG-
,
5'UTR.
,
5'-
AUG
.
5' 3'.
5'UTR
AUG,
,
(uAUG, uORF) . . ,
uAUG
5'-
15–20
.
AUG. , ,
,
, .
. ,
AUG.
209 , AUG. CUG – AUC
ACG.
-AUG.
eIF2 β
∼ 10%
γ.
AUU
.
AUG,
.
,
,
.
,
,
.
,
. ,
N-
,
, . . 5'UTR
40S
. 5'-
.
,
– /
–30 ,
5'-
52
.
5'UTR,
, -
, 85%,
5'-
.
, –50
/
.
,
210 ,
– AUG-
.
,
, , ,
.
,
,
14
, AUG,
,
AUG. .
,
35S
(CaMV),
, , (
.
. I.40, ).
, . , , . , .
,
,
,
in trans,
. .
, .
,
,
.
, ,
. ,
, . .
,
,
,
, . .
.
, .
,
5'UTR
211 ,
, .
. ,
, .
,
3.4.
, : , . ,
,
. ,
,
, . AUG-
.
IRES-
(internal ribosome entry
site). AUG-
, TIR, IRES,
. .
.
, AUG-
,
-
.
, eIFG eIF4E – .
N-
, -
CeIF3
eIF4A.
212 (
)
-
-
,
IRES-
.
2.5.3.
,
, .
, ,
. . eEF1A, EF1A(EF-Tu). ,
GTP
-
-
.
eEF1B
eEF2 EF1B(EF-Ts)
EF2(EF-G)
.
eEF1B,
, eEF1A–GDP.
,
GDP
GTP
eEF2,
, -
E-
P-
. ( eEF1A
.
3.4).
eEF2 .
,
,
. , ,
,
, , .
213 ,
.
, , ,
.
,
,
-
,
.
E. coli, .
.
(
.
3.6.1), , . eEF-3
. eEF3,
. 116
eEF1A•
,
-
ATP
•GTP
.
-
,
-
. ATP,
. , ,
, . ,
eEF3
. 2.5.4.
,
,
-
214 .
.
, RRF/RF4.
.
, -
,
, -
(RF),
eRF1
eRF3.
eRF1 (UAA, UAG
UGA)
eRF3
.
GTP
,
eEF1A,
,
GTP, . .
. C. : UAA(53%) > UGA(27%) > UAG(20%). ,
UAA
– 87%. ,
. lacZ
: G>U>A>C (UGA), G>A>U>C (UAA)
A>U>C>G (UAG).
. eRF-
. , , , .
215 E. coli:
, . UGA
UUC
UCC(Ser),
UUU(Phe),
UUA –
AAG(Lys).
P-
,
RF-
,
-
A-
.
E. coli
. 2.5.5. , , , ATP.
– (
),
. , α-
(
Rickettsia prowazekii), -
-
.
,
,
( 13
)
, 22
.
. ( 16569
. .), .
-
,
-
-
,
.
.
216 ,
.
–
–
,
.
,
.
,
N-
, . .
, . . TGA
Trp, .
AGR (
R=A
,
G)
,
Ser,
,
, – Arg.
, .
, 32
, . ,
22
13
. U
(wobble) , .
. , ,
, .
,
.
217 ,
,
. ,