Gene/Protein
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Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Target Concepts:
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Query: EC:3.1.4.1 (
phosphodiesterase
)
18,767
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A new type of Escherichia coli mutant which shows increased sensitivity to methyl methane sulfonate but not to UV light or to gamma rays was isolated after mutagenesis with N-methyl-N'-nitro-N-nitrosoguanidine. The mutant is unable to reactivate phage lambdavir or double-stranded phiX174 DNA (replicative form) that had been treated with methyl methane sulfonate. The mutant is sensitive to other alkylating agents, such as ethyl methane sulfonate, mitomycin C, and N-methyl-N'-nitro-N-nitrosoguanidine, as well. It grows normally and exhibits almost normal recombination proficiency. The mutant possesses normal levels of DNA polymerase I,
exonuclease I
,
exonuclease V
, endonuclease specific for methyl methane sulfonate-treated DNA, and 3-methyladenine-DNA glycosidase activities. The genetic locus responsible has been named alk and is located near his on the chromosome.
...
PMID:Escherichia coli gene that controls sensitivity to alkylating agents. 35 28
In Escherichia coli K-12, sbcB/xonA is the structural gene for
exonuclease I
, an enzyme that hydrolyzes single-stranded DNA to mononucleotides in the 3'-to-5' direction. This enzyme has been implicated in the DNA repair and recombination pathways mediated by the recB and recC gene products (
exonuclease V
). We have cloned several sbcB/xonA mutant alleles in bacterial plasmids and have partially characterized the cloned genes and their protein products. Two of the mutations (xonA2 and xonA6) retain no detectable exonucleolytic activity on single-stranded DNA. The xonA6 allele was shown to harbor an insertion of an IS30-related genetic element near the 3' end of the gene. Two other mutations, sbcB15 and xonA8, exhibited significantly reduced levels of
exonuclease I
activity as compared to the cloned wild-type gene. A correlation was observed between levels of
exonuclease I
activity and the ability of the sbcB/xonA mutations to suppress UV sensitivity in recB and recC strains. Also, recombinant plasmids bearing either the sbcB15 or xonA6 allele exhibited a high degree of instability during growth of their bacterial hosts. The results suggest that the sbcB/xonA gene product is a bi- or multifunctional protein that interacts with single-stranded DNA and possibly with other proteins in the suppression of genetic recombination and DNA-repair deficiencies in recB and recC mutants.
...
PMID:Physical and biochemical characterization of cloned sbcB and xonA mutations from Escherichia coli K-12. 283 21
Plasmids containing sequences 3' of the adult beta 1 globin gene of Xenopus laevis are unstable on propagation in a range of E. coli host strains. Up to 300 bp of Xenopus DNA are lost by rec A independent recombination between (AT)37 and (AT)17 sequences. Additionally, smaller deletions occurring in or around the (AT)37 sequence are observed. Deletion of these potential cruciform structures occurs in the absence of
exonuclease I
,
exonuclease V
and exonuclease VIII as the same pattern of deletion events is observed in recA recBC sbcB and recBC sbcA recE strains.
...
PMID:RecBC, sbcB independent, (AT)n-mediated deletion of sequences flanking a Xenopus laevis beta globin gene on propagation in E. coli. 301 63
Inactivation of RecBCD nuclease (
exonuclease V
) and SbcB nuclease (
exonuclease I
) in Escherichia coli K-12 diverts most of plasmid replication activity from circular monomer production to the synthesis of linear multimers. Linear multimer synthesis has been demonstrated in plasmids of diverse origins and copy numbers, including E. coli minichromosomes. The effect of dnaA, dnaB, recF, and recJ mutations on the rate of linear multimer synthesis in sbcB cells after gam inactivation of RecBCD nuclease was investigated. Results are consistent with the hypothesis that homologous recombination, but not activities at the plasmid origin of replication, is involved in initiation of linear multimer synthesis.
...
PMID:Synthesis of linear multimers of OriC and pBR322 derivatives in Escherichia coli K-12: role of recombination and replication functions. 329 13
In Escherichia coli in vitro constructions of perfect palindromes larger than 30 base pairs (bp) long have in general been unstable. A perfect palindrome has the unique possibility of forming a cruciform structure, and it is this feature which probably results in its instability. Negative supercoiling favours the formation of the cruciform conformation, which in turn causes the molecule to relax. This relaxation may render replicons containing large perfect palindromes inviable. An alternative hypothesis for inviability has been that the cruciform interferes with replication by favouring strand switching by polymerase I. Here we show that the simultaneous absence of two recombination nucleases, the recBC product,
exonuclease V
, and the sbcB product,
exonuclease I
, confers viability on a derivative of phage lambda carrying a perfect palindrome of inverted repeat length 1,600 bases. This observation suggests a third hypothesis--that nucleolytic cleavage of the cruciform is responsible for the inviability of the phage. Such an activity has been shown in vitro for T4 exonuclease VII.
...
PMID:Viability of lambda phages carrying a perfect palindrome in the absence of recombination nucleases. 631 22
Interplasmidic and intraplasmidic recombination proficiencies were determined in E. coli bacterial strains carrying rec mutations. Our results defined the role of recF gene function, recB, recC, and sbcB gene products (
exonuclease V
and
exonuclease I
) in plasmidic recombination in wild-type E. coli cells and in cells in which the recE recombination pathway is activated. RecF gene function is required for interplasmidic recombination regardless of the recB recC genotype. Intraplasmidic recombination is recF dependent in cells having a functional
exonuclease V
, but not in recB recC mutants. Exonuclease V activity inhibits both interplasmidic and intraplasmidic recombination via the recE pathway.
...
PMID:Plasmidic recombination in Escherichia coli K-12: the role of recF gene function. 634 18
In recD sbcB sbcD mutants, repair of UV-irradiated DNA is strongly RecF dependent, indicating that RecBC is inactive. This finding suggests that
exonuclease V
,
exonuclease I
(SbcB), and the SbcCD nuclease play a redundant role in vivo, which is essential for the recombination activity of the RecBC complex during UV repair.
...
PMID:recD sbcB sbcD mutants are deficient in recombinational repair of UV lesions by RecBC. 1049 43
