BASE SEQUENCE DISCRIMINATION BY ZINC-FINGER DNA-BINDING DOMAINS

被引：246

作者：

NARDELLI, J ^{[1
]}

GIBSON, TJ ^{[1
]}

VESQUE, C ^{[1
]}

CHARNAY, P ^{[1
]}

机构：

[1] EUROPEAN MOLEC BIOL LAB,W-6900 HEIDELBERG,GERMANY

来源：

NATURE | 1991年 / 349卷 / 6305期

关键词：

D O I：

10.1038/349175a0

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Zinc fingers 1,2 constitute important eukaryotic DNA-binding domains, being present in many transcription factors 3-5. The Cys2/His2 zinc-finger class has conserved motifs of 28-30 amino acids which are usually present as tandem repeats 1,2. The structure of a Cys2/His2 zinc finger has been determined by nuclear magnetic resonance 6, but details of its interaction with DNA were not established. Here we identify amino acids governing DNA-binding specificity using in vitro directed mutagenesis guided by similarities between the zinc fingers of transcription factors Sp1 (ref. 7) and Krox-20 (ref. 8). Krox-20 is a serum-inducible transcription activator 8,9 which is possibly involved in the regulation of hindbrain development 10; it contains three zinc fingers similar to those of Ap1 (refs 7, 8, 11) and binds to a 9-base-pair target sequence which is related to that of Sp1 (ref. 9). Our results show that each finger spans three nucleotides and indicate two positions in Krox-20 zinc fingers that are important for base-pair selectivity. Modelling with molecular graphics suggests that these residues could bind directly with the bases and that other amino acid-base contracts are also possible.

引用

页码：175 / 178

页数：4

共 30 条

[11] EQUILIBRIA AND KINETICS OF LAC REPRESSOR-OPERATOR INTERACTIONS BY POLYACRYLAMIDE-GEL ELECTROPHORESIS
FRIED, M
CROTHERS, DM
[J]. NUCLEIC ACIDS RESEARCH, 1981, 9 (23) : 6505 - 6525
[12] HOMOZYGOUS DELETION IN WILMS-TUMORS OF A ZINC-FINGER GENE IDENTIFIED BY CHROMOSOME JUMPING
GESSLER, M
POUSTKA, A
CAVENEE, W
NEVE, RL
ORKIN, SH
BRUNS, GAP
[J]. NATURE, 1990, 343 (6260) : 774 - 778
[13] A MODEL FOR THE TERTIARY STRUCTURE OF THE 28-RESIDUE DNA-BINDING MOTIF (ZINC FINGER) COMMON TO MANY EUKARYOTIC TRANSCRIPTIONAL REGULATORY PROTEINS
GIBSON, TJ
POSTMA, JPM
BROWN, RS
ARGOS, P
[J]. PROTEIN ENGINEERING, 1988, 2 (03): : 209 - 218
[14] SEQUENCE HOMOLOGY OF THE YEAST REGULATORY PROTEIN ADR1 WITH XENOPUS TRANSCRIPTION FACTOR TFIIIA
HARTSHORNE, TA
BLUMBERG, H
YOUNG, ET
[J]. NATURE, 1986, 320 (6059) : 283 - 287
[15] GRAPHICS MODEL-BUILDING AND REFINEMENT SYSTEM FOR MACROMOLECULES
JONES, TA
[J]. JOURNAL OF APPLIED CRYSTALLOGRAPHY, 1978, 11 (AUG) : 268 - 272
[16] JORDAN SR, 1988, SCIENCE, V242, P893, DOI 10.1126/science.3187530
[17] ISOLATION OF CDNA-ENCODING TRANSCRIPTION FACTOR SP1 AND FUNCTIONAL-ANALYSIS OF THE DNA-BINDING DOMAIN
KADONAGA, JT
CARNER, KR
MASIARZ, FR
TIJIAN, R
[J]. CELL, 1987, 51 (06) : 1079 - 1090
[18] DISTINCT REGIONS OF SP1 MODULATE DNA-BINDING AND TRANSCRIPTIONAL ACTIVATION
KADONAGA, JT
COUREY, AJ
LADIKA, J
TJIAN, R
[J]. SCIENCE, 1988, 242 (4885) : 1566 - 1570
[19] 3-DIMENSIONAL SOLUTION STRUCTURE OF A SINGLE ZINC FINGER DNA-BINDING DOMAIN
LEE, MS
GIPPERT, GP
SOMAN, KV
CASE, DA
WRIGHT, PE
[J]. SCIENCE, 1989, 245 (4918) : 635 - 637
[20] REPETITIVE ZINC-BINDING DOMAINS IN THE PROTEIN TRANSCRIPTION FACTOR IIIA FROM XENOPUS OOCYTES
MILLER, J
MCLACHLAN, AD
KLUG, A
[J]. EMBO JOURNAL, 1985, 4 (06) : 1609 - 1614

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