THE CRYSTAL-STRUCTURE OF A 2 ZINC-FINGER PEPTIDE REVEALS AN EXTENSION TO THE RULES FOR ZINC-FINGER DNA RECOGNITION

被引:321
作者
FAIRALL, L
SCHWABE, JWR
CHAPMAN, L
FINCH, JT
RHODES, D
机构
[1] MRC Laboratory of Molecular Biology, Cambridge CB2 2QH, Hills Road
关键词
D O I
10.1038/366483a0
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
THE Cys2-His2 zinc-finger is the most widely occurring DNA-binding motif1-3. The first structure of a zinc-finger/DNA complex revealed a fairly simple mechanism for DNA recognition4 suggesting that the zinc-finger might represent a candidate template for designing proteins to recognize DNA-5. Residues at three key positions in an alpha-helical 'reading head' play a dominant role in base-recognition and have been targets for mutagenesis experiments aimed at deriving a recognition code6-8. Here we report the structure of a two zinc-finger DNA-binding domain from the protein Tramtrack complexed with DNA. The amino-terminal zinc-finger and its interaction with DNA illustrate several novel features. These include the use of a serine residue, which is semi-conserved and located outside the three key positions, to make a base contact. Its role in base-recognition correlates with a large, local, protein-induced deformation of the DNA helix at a flexible A-T-A sequence and may give insight into previous mutagenesis experiments9,10. It is apparent from this structure that zinc-finger/DNA recognition is more complex than was originally perceived.
引用
收藏
页码:483 / 487
页数:5
相关论文
共 30 条
[11]   HIGH-RESOLUTION LOCALIZATION OF 69 POTENTIAL HUMAN ZINC FINGER PROTEIN GENES - A NUMBER ARE CLUSTERED [J].
HOOVERS, JMN ;
MANNENS, M ;
JOHN, R ;
BLIEK, J ;
VANHEYNINGEN, V ;
PORTEOUS, DJ ;
LESCHOT, NJ ;
WESTERVELD, A ;
LITTLE, PFR .
GENOMICS, 1992, 12 (02) :254-263
[12]   DETERMINATION OF THE BASE RECOGNITION POSITIONS OF ZINC FINGERS FROM SEQUENCE-ANALYSIS [J].
JACOBS, GH .
EMBO JOURNAL, 1992, 11 (12) :4507-4517
[13]   IMPROVED METHODS FOR BUILDING PROTEIN MODELS IN ELECTRON-DENSITY MAPS AND THE LOCATION OF ERRORS IN THESE MODELS [J].
JONES, TA ;
ZOU, JY ;
COWAN, SW ;
KJELDGAARD, M .
ACTA CRYSTALLOGRAPHICA SECTION A, 1991, 47 :110-119
[14]   SOLUTION STRUCTURE OF A ZINC FINGER DOMAIN OF YEAST ADR1 [J].
KLEVIT, RE ;
HERRIOTT, JR ;
HORVATH, SJ .
PROTEINS-STRUCTURE FUNCTION AND GENETICS, 1990, 7 (03) :215-226
[15]   MOLSCRIPT - A PROGRAM TO PRODUCE BOTH DETAILED AND SCHEMATIC PLOTS OF PROTEIN STRUCTURES [J].
KRAULIS, PJ .
JOURNAL OF APPLIED CRYSTALLOGRAPHY, 1991, 24 :946-950
[16]   DEFINING THE STRUCTURE OF IRREGULAR NUCLEIC-ACIDS - CONVENTIONS AND PRINCIPLES [J].
LAVERY, R ;
SKLENAR, H .
JOURNAL OF BIOMOLECULAR STRUCTURE & DYNAMICS, 1989, 6 (04) :655-667
[17]   3-DIMENSIONAL SOLUTION STRUCTURE OF A SINGLE ZINC FINGER DNA-BINDING DOMAIN [J].
LEE, MS ;
GIPPERT, GP ;
SOMAN, KV ;
CASE, DA ;
WRIGHT, PE .
SCIENCE, 1989, 245 (4918) :635-637
[18]   A RECIPROCAL-SPACE METHOD FOR CALCULATING A MOLECULAR ENVELOPE USING THE ALGORITHM OF WANG,B.C. [J].
LESLIE, AGW .
ACTA CRYSTALLOGRAPHICA SECTION A, 1987, 43 :134-136
[19]  
LESLIE AGW, 1992, 26 JOINT CCP4 ESF EA
[20]   REPETITIVE ZINC-BINDING DOMAINS IN THE PROTEIN TRANSCRIPTION FACTOR IIIA FROM XENOPUS OOCYTES [J].
MILLER, J ;
MCLACHLAN, AD ;
KLUG, A .
EMBO JOURNAL, 1985, 4 (06) :1609-1614