THE APPEARANCE OF THE UMUD'C PROTEIN COMPLEX IN ESCHERICHIA-COLI SWITCHES REPAIR FROM HOMOLOGOUS RECOMBINATION TO SOS MUTAGENESIS

被引：103

作者：

SOMMER, S ^{[1
]}

BAILONE, A ^{[1
]}

DEVORET, R ^{[1
]}

机构：

[1] UNIV PARIS 11, INST CURIE BIOL, ETUDE MUTAGENESE & CANCEROGENESE GRP, BATIMENT 110, F-91405 ORSAY, FRANCE

来源：

MOLECULAR MICROBIOLOGY | 1993年 / 10卷 / 05期

关键词：

D O I：

10.1111/j.1365-2958.1993.tb00968.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：

The process of SOS mutagenesis in Escherichia coli requires (i) the replisome enzymes, (ii) RecA protein, and (iii) the formation of the UmuD'C protein complex which appears to help the replisome to resume DNA synthesis across a lesion. We found that the UmuD'C complex is an antagonist of RecA-mediated recombination. Homologous recombination in an Hfr x F- cross decreased as a function of the UmuD'C cell concentration; this effect was challenged by increasing RecA concentration. Recombination of a u.v.damaged F-lac with the lac gene of an F- recipient was reduced by increasing the UmuD'C concentration while lac mutagenesis increased, showing an inverse relationship between recombination and SOS mutagenesis. We explain our data with the following model. The kinetics of appearance of the UmuD'C complex after DNA damage is slow, reaching a maximum after an hour. Within that period, excision and recombinational repair have had time to occur. When the UmuD'C concentration relative to the number of residual RecA filaments, not resolved by recombinational repair, becomes high enough, UmuD'C proteins provide a processive factor for the replisome to help replication bypass and repel the standing RecA filament. Thus, at a high enough concentration, the UmuD'C complex will switch repair from recombination to SOS mutagenesis.

引用

页码：963 / 971

页数：9

共 72 条

[1] SEMIDOMINANT SUPPRESSORS OF SRS2 HELICASE MUTATIONS OF SACCHAROMYCES-CEREVISIAE MAP IN THE RAD51 GENE, WHOSE SEQUENCE PREDICTS A PROTEIN WITH SIMILARITIES TO PROKARYOTIC RECA PROTEINS [J].

ABOUSSEKHRA, A ;

CHANET, R ;

ADJIRI, A ;

FABRE, F .

MOLECULAR AND CELLULAR BIOLOGY, 1992, 12 (07) :3224-3234

[2] KIN, A MAMMALIAN NUCLEAR-PROTEIN IMMUNOLOGICALLY RELATED TO ESCHERICHIA-COLI RECA PROTEIN [J].

ANGULO, JF ;

MOREAU, PL ;

MAUNOURY, R ;

LAPORTE, J ;

HILL, AM ;

BERTOLOTTI, R ;

DEVORET, R .

MUTATION RESEARCH, 1989, 217 (02) :123-134

[3] IDENTIFICATION OF A MOUSE CDNA FRAGMENT WHOSE EXPRESSED POLYPEPTIDE REACTS WITH ANTI-RECA ANTIBODIES [J].

ANGULO, JF ;

ROUER, E ;

BENAROUS, R ;

DEVORET, R .

BIOCHIMIE, 1991, 73 (2-3) :251-256

[4] PEDIGREES OF SOME MUTANT STRAINS OF ESCHERICHIA-COLI K-12 [J].

BACHMANN, BJ .

BACTERIOLOGICAL REVIEWS, 1972, 36 (04) :525-557

[5] A RECA PROTEIN MUTANT DEFICIENT IN ITS INTERACTION WITH THE UMUDC COMPLEX [J].

BAILONE, A ;

SOMMER, S ;

KNEZEVIC, J ;

DUTREIX, M ;

DEVORET, R .

BIOCHIMIE, 1991, 73 (04) :479-484

[6] SUBSTITUTION OF UMUD' FOR UMUD DOES NOT AFFECT SOS MUTAGENESIS [J].

BAILONE, A ;

SOMMER, S ;

KNEZEVIC, J ;

DEVORET, R .

BIOCHIMIE, 1991, 73 (04) :471-478

[7] MUTAGENIC DNA-REPAIR IN ESCHERICHIA-COLI .19. ON THE ROLES OF RECA PROTEIN IN ULTRAVIOLET-LIGHT MUTAGENESIS [J].

BATES, H ;

BRIDGES, BA .

BIOCHIMIE, 1991, 73 (04) :485-489

[8] AMINO-ACID SIMILARITIES TO OTHER PROTEINS OFFER INSIGHTS INTO ROLES OF UMUD AND UMUC IN MUTAGENESIS [J].

BATTISTA, JR ;

NOHMI, T ;

DONNELLY, CE ;

WALKER, GC .

GENOME, 1989, 31 (02) :594-596

[9] A CHICKEN RAD51 HOMOLOG IS EXPRESSED AT HIGH-LEVELS IN LYMPHOID AND REPRODUCTIVE-ORGANS [J].

BEZZUBOVA, O ;

SHINOHARA, A ;

MUELLER, RG ;

OGAWA, H ;

BUERSTEDDE, JM .

NUCLEIC ACIDS RESEARCH, 1993, 21 (07) :1577-1580

[10] DMC1 - A MEIOSIS-SPECIFIC YEAST HOMOLOG OF ESCHERICHIA-COLI RECA REQUIRED FOR RECOMBINATION, SYNAPTONEMAL COMPLEX-FORMATION, AND CELL-CYCLE PROGRESSION [J].

BISHOP, DK ;

PARK, D ;

XU, LZ ;

KLECKNER, N .

CELL, 1992, 69 (03) :439-456

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