Gene/Protein
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Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
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Query: EC:3.6.1.3 (
ATPase
)
65,361
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Infection of Escherichia coli with bacteriophage T7 results in an inhibition of the host
exonuclease V
(recB, C DNase) activity. This inhibition is not observed when cells are infected in the presence of chloramphenicol or with a gene 1 mutant. The protein responsible for the inhibition of
exonuclease V
has been partially purified from T7-infected cells. The protein which does not possess nuclease or
ATPase
activity can inhibit all nucleolytic activities associated with
exonuclease V
. The protein does not, however, inhibit the DNA-dependent
ATPase
activity associated with
exonuclease V
. The inhibitory protein has a molecular weight of about 12,000, as determined from sedimentation analysis in glycerol gradients.
...
PMID:Partial purification and properties of a bacteriophage T7 inhibitor of the host exonuclease V activity. 12 51
Biochemical evidence is presented that confirms
exonuclease V
of Escherichia coli consists of three distinct subunits encoded by the recB, recC, and recD genes. The recD gene encodes a Mr 60,000 polypeptide and physically maps 3' to the recB structural gene. The role of the recD subunit in
exonuclease V
function has been examined by comparing the catalytic activities of the purified RecBCD enzyme with the RecBC enzyme. The RecBC enzyme retains significant levels of DNA-dependent
ATPase
activity and DNA helicase activity. Endonucleolytic activity on single-stranded covalently closed DNA becomes ATP-dependent. Exonucleolytic activity on either single- and double-stranded DNA was not detected. Taken together with the phenotypic properties of recD null mutants, it appears that the exonucleolytic activities of the RecBCD enzyme are not required for genetic recombination and the repair of either UV-induced photoproducts or mitomycin C-generated DNA cross-links, but are essential for the repair of methyl methanesulfonate-induced methylation.
...
PMID:Biochemical and physical characterization of exonuclease V from Escherichia coli. Comparison of the catalytic activities of the RecBC and RecBCD enzymes. 215 79
Homologous recombination is a fundamental biological process. Biochemical understanding of this process is most advanced for Escherichia coli. At least 25 gene products are involved in promoting genetic exchange. At present, this includes the RecA, RecBCD (
exonuclease V
), RecE (exonuclease VIII), RecF, RecG, RecJ, RecN, RecOR, RecQ, RecT, RuvAB, RuvC, SbcCD, and SSB proteins, as well as DNA polymerase I, DNA gyrase, DNA topoisomerase I, DNA ligase, and DNA helicases. The activities displayed by these enzymes include homologous DNA pairing and strand exchange, helicase, branch migration, Holliday junction binding and cleavage, nuclease,
ATPase
, topoisomerase, DNA binding, ATP binding, polymerase, and ligase, and, collectively, they define biochemical events that are essential for efficient recombination. In addition to these needed proteins, a cis-acting recombination hot spot known as Chi (chi: 5'-GCTGGTGG-3') plays a crucial regulatory function. The biochemical steps that comprise homologous recombination can be formally divided into four parts: (i) processing of DNA molecules into suitable recombination substrates, (ii) homologous pairing of the DNA partners and the exchange of DNA strands, (iii) extension of the nascent DNA heteroduplex; and (iv) resolution of the resulting crossover structure. This review focuses on the biochemical mechanisms underlying these steps, with particular emphases on the activities of the proteins involved and on the integration of these activities into likely biochemical pathways for recombination.
...
PMID:Biochemistry of homologous recombination in Escherichia coli. 796 21
