COLD DENATURATION OF A REPRESSOR-OPERATOR COMPLEX - THE ROLE OF ENTROPY IN PROTEIN-DNA RECOGNITION

被引：79

作者：

FOGUEL, D ^{[1
]}

SILVA, JL ^{[1
]}

机构：

[1] FED UNIV RIO DE JANEIRO,INST CIENCIAS BIOMED,DEPT BIOQUIM,BR-21941590 RIO JANEIRO,BRAZIL

来源：

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA | 1994年 / 91卷 / 17期

关键词：

ARC REPRESSOR; PROTEIN FOLDING; TRANSCRIPTION; PRESSURE DENATURATION; PROTEIN-DNA INTERACTION;

D O I：

10.1073/pnas.91.17.8244

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 mechanisms by which regulatory proteins recognize specific DNA sequences are not fully understood. Here we examine the basis for the stability of a protein-DNA complex, using hydrostatic pressure and low temperature. Pressure converts the DNA-binding Arc repressor protein from a native state to a denatured, molten-globule state. Our data show that the folding and dimerization of Arc repressor in the temperature range 0-20 degrees C are favored by a large positive entropy value, so that the reaction proceeds in spite of an unfavorable positive enthalpy. On binding operator DNA, Arc repressor becomes extremely stable against denaturation. However, the Arc repressor-operator DNA complex is cold-denatured at subzero temperatures under pressure, demonstrating that the favorable entropy increases greatly when Arc repressor binds tightly to its operator sequence but not a nonspecific sequence. We show how an increase in entropy may operate to provide the protein with a mechanism to distinguish between a specific and a nonspecific DNA sequence. It is postulated that the formation of the Arc-operator DNA complex is followed by an increase in apolar interactions and release of solvent which would explain its entropy-driven character, whereas this solvent would not be displaced in nonspecific complexes.

引用

页码：8244 / 8247

页数：4

共 43 条

[1] THERMODYNAMICS OF PROTEIN DENATURATION .I. DENATURATION OF CHYMOTRYPSINOGEN [J].

BRANDTS, JF .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1964, 86 (20) :4291-&

[2] STRUCTURE OF ARC REPRESSOR IN SOLUTION - EVIDENCE FOR A FAMILY OF BETA-SHEET DNA-BINDING PROTEINS [J].

BREG, JN ;

VANOPHEUSDEN, JHJ ;

BURGERING, MJM ;

BOELENS, R ;

KAPTEIN, R .

NATURE, 1990, 346 (6284) :586-589

[3] STRUCTURAL BASIS OF DNA - PROTEIN RECOGNITION [J].

BRENNAN, RG ;

MATTHEWS, BW .

TRENDS IN BIOCHEMICAL SCIENCES, 1989, 14 (07) :286-290

[4]

BRIDGMAN PW, 1964, COLLECTED EXPT PAPER, V1, P441

[5] ASSEMBLY OF THE ARC REPRESSOR OPERATOR COMPLEX - COOPERATIVE INTERACTIONS BETWEEN DNA-BOUND DIMERS [J].

BROWN, BM ;

SAUER, RT .

BIOCHEMISTRY, 1993, 32 (05) :1354-1363

[6] ARC REPRESSOR IS TETRAMERIC WHEN BOUND TO OPERATOR DNA [J].

BROWN, BM ;

BOWIE, JU ;

SAUER, RT .

BIOCHEMISTRY, 1990, 29 (51) :11189-11195

[7] LOW-TEMPERATURE UNFOLDING OF A MUTANT OF PHAGE-T4 LYSOZYME .1. EQUILIBRIUM STUDIES [J].

CHEN, BL ;

SCHELLMAN, JA .

BIOCHEMISTRY, 1989, 28 (02) :685-691

[8]

CHRISTENSEN H, 1991, EUR BIOPHYS J, V19, P221, DOI 10.1007/BF00183530

[9]

CREIGHTON TE, 1990, BIOCHEM J, V270, P1

[10]

FOGUEL D, 1992, BIOPHYS J, V63, P613

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