STRUCTURE OF THE 4-WAY DNA JUNCTION AND ITS INTERACTION WITH PROTEINS

被引：13

作者：

DUCKETT, DR ^{[1
]}

MURCHIE, AIH ^{[1
]}

GIRAUDPANIS, MJE ^{[1
]}

POHLER, JR ^{[1
]}

LILLEY, DMJ ^{[1
]}

机构：

[1] UNIV DUNDEE,DEPT BIOCHEM,CRC,NUCL ACID RES GRP,DUNDEE DD1 4HN,SCOTLAND

来源：

PHILOSOPHICAL TRANSACTIONS OF THE ROYAL SOCIETY OF LONDON SERIES B-BIOLOGICAL SCIENCES | 1995年 / 347卷 / 1319期

关键词：

D O I：

10.1098/rstb.1995.0005

中图分类号：

Q [生物科学];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

The four-way DNA junction is an important intermediate in recombination processes; it is, the substrate for different enzyme activities. In solution, the junction adopts a right-handed, antiparallel-stacked X-structure formed by the pairwise coaxial-stacking of helical arms. The stereochemistry is determined by the juxtaposition of grooves and backbones, which is optimal when the smaller included angle is 60 degrees. The antiparallel structure has two distinct sides with major and minor groove-characteristics, respectively. The folding process requires the binding of metal cations, in the absence of which, the junction remains extended without helix-helix stacking. The geometry of the junction can be perturbed by the presence of certain base-base mispairs or phosphodiester discontinuities located at the point of strand exchange. The four-way DNA junction is selectively cleaved by a number of resolving enzymes. In a number of cases, these appear to recognize the minor groove face of the junction and are functionally divisible into activities that recognize and bind the junction, and a catalytic activity. Some possible mechanisms for the recognition of branched DNA structure are discussed.

引用

页码：27 / 36

页数：10

共 60 条

[1] RESOLUTION OF HOLLIDAY JUNCTIONS BY RUVC RESOLVASE - CLEAVAGE SPECIFICITY AND DNA DISTORTION [J].

BENNETT, RJ ;

DUNDERDALE, HJ ;

WEST, SC .

CELL, 1993, 74 (06) :1021-1031

[2]

BENSON FE, 1994, J BIOL CHEM, V269, P5195

[3] MODEL FOR THE INTERACTION OF DNA JUNCTIONS AND RESOLVING ENZYMES [J].

BHATTACHARYYA, A ;

MURCHIE, AIH ;

VONKITZING, E ;

DIEKMANN, S ;

KEMPER, B ;

LILLEY, DMJ .

JOURNAL OF MOLECULAR BIOLOGY, 1991, 221 (04) :1191-1207

[4] SPECIFIC RECOGNITION OF CRUCIFORM DNA BY NUCLEAR-PROTEIN HMG1 [J].

BIANCHI, ME ;

BELTRAME, M ;

PAONESSA, G .

SCIENCE, 1989, 243 (4894) :1056-1059

[5] A HOLLIDAY RECOMBINATION INTERMEDIATE IS TWOFOLD SYMMETRIC [J].

CHURCHILL, MEA ;

TULLIUS, TD ;

KALLENBACH, NR ;

SEEMAN, NC .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1988, 85 (13) :4653-4656

[6] FLUORESCENCE RESONANCE ENERGY-TRANSFER ANALYSIS OF THE STRUCTURE OF THE 4-WAY DNA JUNCTION [J].

CLEGG, RM ;

MURCHIE, AIH ;

ZECHEL, A ;

CARLBERG, C ;

DIEKMANN, S ;

LILLEY, DMJ .

BIOCHEMISTRY, 1992, 31 (20) :4846-4856

[7]

CLEGG RM, 1993, BIOPHYS J, V66, P99

[8] RESOLUTION OF HOLLIDAY JUNCTIONS INVITRO REQUIRES THE ESCHERICHIA-COLI RUVC GENE-PRODUCT [J].

CONNOLLY, B ;

PARSONS, CA ;

BENSON, FE ;

DUNDERDALE, HJ ;

SHARPLES, GJ ;

LLOYD, RG ;

WEST, SC .

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1991, 88 (14) :6063-6067

[9] GEL-ELECTROPHORETIC ANALYSIS OF THE GEOMETRY OF A DNA 4-WAY JUNCTION [J].

COOPER, JP ;

HAGERMAN, PJ .

JOURNAL OF MOLECULAR BIOLOGY, 1987, 198 (04) :711-719

[10]

DIEKMANN S, 1987, NUCLEIC ACIDS RES, V14, P5765

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