MONTY - A MONTE-CARLO APPROACH TO PROTEIN-DNA RECOGNITION

被引：36

作者：

KNEGTEL, RMA ^{[1
]}

ANTOON, J ^{[1
]}

RULLMANN, C ^{[1
]}

BOELENS, R ^{[1
]}

KAPTEIN, R ^{[1
]}

机构：

[1] UNIV UTRECHT,BIJVOET CTR BIOMOLEC RES,PADUALAAN 8,3584 CH UTRECHT,NETHERLANDS

来源：

JOURNAL OF MOLECULAR BIOLOGY | 1994年 / 235卷 / 01期

关键词：

DOCKING; PROTEIN-DNA INTERACTION; STRUCTURE PREDICTION; MONTE-CARLO; MOLECULAR SURFACE COMPLEMENTARITY;

D O I：

10.1016/S0022-2836(05)80035-X

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

A Monte Carlo method is described for automated docking of proteins on DNA. The simulation program MONTY keeps the entire DNA and the protein backbone and core fixed while protein surface side-chains are allowed to rotate freely. The entire protein is rotated and translated by small random steps in order to find the best fit with the DNA. New configurations are accepted on basis of their Boltzmann probability. Protein-DNA interaction is represented by square well potentials for hydrogen bond and van der Waals interactions. The structure with the largest interaction energy encountered during the simulation is saved. The method is tested on complexes of the 434 Cro protein and its operator DNA where the protein is shifted up or down one or two base-pairs and is subsequently allowed to find back its native binding site. This protocol is performed for shifted complexes derived from the crystal structure, shifted complexes where the crystal structure DNA is replaced by standard B-DNA and shifted complexes where in addition the protein is replaced by protein from the uncomplexed crystal structure. In all three cases the six lowest energy structures correspond to complexes close to the native complex. The quality of sequence specific recognition diminishes, however, when the molecular surface complementarity between protein and DNA decreases. © 1994 Academic Press Limited.

引用

页码：318 / 324

页数：7

共 26 条

[1] RECOGNITION OF A DNA OPERATOR BY THE REPRESSOR OF PHAGE-434 - A VIEW AT HIGH-RESOLUTION [J].

AGGARWAL, AK ;

RODGERS, DW ;

DROTTAR, M ;

PTASHNE, M ;

HARRISON, SC .

SCIENCE, 1988, 242 (4880) :899-907

[2] PROTEIN DATA BANK - COMPUTER-BASED ARCHIVAL FILE FOR MACROMOLECULAR STRUCTURES [J].

BERNSTEIN, FC ;

KOETZLE, TF ;

WILLIAMS, GJB ;

MEYER, EF ;

BRICE, MD ;

RODGERS, JR ;

KENNARD, O ;

SHIMANOUCHI, T ;

TASUMI, M .

JOURNAL OF MOLECULAR BIOLOGY, 1977, 112 (03) :535-542

[3] PROTEIN DOCKING ALGORITHMS - SIMULATING MOLECULAR RECOGNITION [J].

CHERFILS, J ;

JANIN, J .

CURRENT OPINION IN STRUCTURAL BIOLOGY, 1993, 3 (02) :265-269

[4] PROTEIN-PROTEIN RECOGNITION ANALYZED BY DOCKING SIMULATION [J].

CHERFILS, J ;

DUQUERROY, S ;

JANIN, J .

PROTEINS-STRUCTURE FUNCTION AND GENETICS, 1991, 11 (04) :271-280

[5] PROBING THE LIMITS OF PROTEIN-AMINO ACID SIDE-CHAIN RECOGNITION WITH THE AMINOACYL-TRANSFER RNA-SYNTHETASES - DISCRIMINATION AGAINST PHENYLALANINE BY TYROSYL-TRANSFER RNA-SYNTHETASES [J].

FERSHT, AR ;

SHINDLER, JS ;

TSUI, WC .

BIOCHEMISTRY, 1980, 19 (24) :5520-5524

[6] HYDROGEN-BONDING AND BIOLOGICAL SPECIFICITY ANALYZED BY PROTEIN ENGINEERING [J].

FERSHT, AR ;

SHI, JP ;

KNILLJONES, J ;

LOWE, DM ;

WILKINSON, AJ ;

BLOW, DM ;

BRICK, P ;

CARTER, P ;

WAYE, MMY ;

WINTER, G .

NATURE, 1985, 314 (6008) :235-238

[7] DNA RECOGNITION BY PROTEINS WITH THE HELIX-TURN-HELIX MOTIF [J].

HARRISON, SC ;

AGGARWAL, AK .

ANNUAL REVIEW OF BIOCHEMISTRY, 1990, 59 :933-969

[8] A STRUCTURAL TAXONOMY OF DNA-BINDING DOMAINS [J].

HARRISON, SC .

NATURE, 1991, 353 (6346) :715-719

[9] SOFT DOCKING - MATCHING OF MOLECULAR-SURFACE CUBES [J].

JIANG, F ;

KIM, SH .

JOURNAL OF MOLECULAR BIOLOGY, 1991, 219 (01) :79-102

[10] MOLECULAR-DYNAMICS SIMULATIONS IN BIOLOGY [J].

KARPLUS, M ;

PETSKO, GA .

NATURE, 1990, 347 (6294) :631-639

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