Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
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Compound
Target Concepts:
Gene/Protein
Disease
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Enzyme
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Query: EC:2.7.7.7 (
DNA polymerase
)
17,007
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Tests with a plasmid-borne ochre suppressor (sup-812) and a chromosomal amber suppressor (supD501) revealed that one of three mutants of S. typhimurium deficient in
DNA polymerase I
was an amber mutant. Assays performed on crude extracts established that derivatives of this mutant (designated polA3) carrying ochre and amber suppressors had about 13 to 20% respectively of the enzyme activity found in the wild-type parent. The unsuppressed mutant showed less than 1% of the wild-type level of activity. Other properties of the polA3 mutant that were also partially or in some cases completely reversed by the sup-812 and supD501 suppressors included: u.v. sensitivity, methyl methanesulphonate (MMS) sensitivity, reduced ability to effect host-cell reactivation of u.v.-irradiated or MMS-treated bacteriophages, inability to maintain the (Col El) plasmid, and reduced ability to plate the phage mutant
P22
c2 hpi-308. Mapping by P1-mediated transduction showed that all three polA mutations lie between metE and rha on the S. typhimurium chromosome, and that the polA mutation is cotransduced with metE at a frequency of 20% and with rha at a frequency of 8%.
...
PMID:Mutants of Salmonella typhimurium deficient in DNA polymerase I: further characterization and genetic analysis. 77 59
We have shown previously that dam mutants of Escherichia coli have a weak mutator phenotype which generates mostly transition mutations in the
P22
mnt gene. In contrast, in mutD5 cells, which have a strong mutator phenotype, transversion mutations were the most prevalent. A dam-16 mutD5 strain, defective in both
DNA polymerase III
associated-proofreading and Dam-directed mismatch repair exhibits a strong mutator phenotype but, surprisingly, its mutation spectrum is similar to that of the dam rather than the mutD parent. The most likely explanation is that Dam-directed mismatch repair in the mutD5 strain corrects most of the potential transition mutations (therefore yielding transversions) in the newly synthesised strand. When the dam-16 allele is present together with mutD5 a reduced efficiency of repair as well as loss of strand discrimination and misdirected repair results in the appearance of transition mutations at high frequency.
...
PMID:DNA methylation alters the pattern of spontaneous mutation in Escherichia coli cells (mutD) defective in DNA polymerase III proofreading. 190 45
The products of the mutD and mutL genes of Escherichia coli are involved in proofreading by
DNA polymerase III
and DNA adenine MTase (Dam)-dependent mismatch repair, respectively. We have used the plasmid-borne bacteriophage
P22
mnt gene as a target to determine the types of mutations produced in mutL25 and mutD5 strains. Of 60 mutations identified from mutL25 cells, 52 were transition mutations and of these the AT----GC subset predominated (40 out of 52). The majority of AT----GC mutations were found at the same three sites (hotspots). In contrast, transversion mutations (47 out of 76) were found about twice as frequently as transitions (28 out of 76) from mutD5 bacteria. Two hotspots were identified but at different sites than those in the mutL25 cells. These results suggest that the proofreading function of
DNA polymerase III
primarily repairs potential transversion mutations while Dam-dependent mismatch repair rectifies potential transition mutations.
...
PMID:Specificity of Escherichia coli mutD and mutL mutator strains. 218 33
Highly purified hepatitis B virus core particles were obtained in large amounts from the cytoplasm of infected human liver cells. This
DNA polymerase
-negative core preparation had only hepatitis B core antigen-specific antigenicity and showed a surprising stability. Two forms of a single protein of 22,000 molecular weight,
P22
, were resolved electrophoretically; the slower moving species, P22a, appeared to be a reduced form of the protein, and the faster moving species, P22b, could have represented a conformational isomer containing an intramolecular disulfide bond(s). The immunological properties and DNA-binding activity of the reduced form, P22a, were examined following separation by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and by transfer onto nitrocellulose membranes (Western blotting). We found that the hepatitis B virus C gene protein shared the antigenic site responsible for both hepatitis B core and e antigen reactivity. We also demonstrated that the core protein(s) bound specifically the genomic hepatitis B virus DNA in comparison with a plasmid DNA (pBR322). This last observation was further substantiated by a radioimmunological method. P22a was also found to be phosphorylated in vitro by the endogenous protein kinase activity, copurified with the hepatitis B core antigen particles. These findings suggest that
P22
is a multifunctional protein which is incorporated into core particles within the cytoplasm of the host cell before DNA encapsidation. A critical role of this protein in hepatitis B virus assembly is suggested.
...
PMID:HBc and HBe antigenicity and DNA-binding activity of major core protein P22 in hepatitis B virus core particles isolated from the cytoplasm of human liver cells. 257 75
The dnaB gene of Escherichia coli encodes a helicase that operates at replication forks of the bacterium and certain of its bacteriophages to produce separated strands suitable for subsequent use by primase and
DNA polymerase III
. Here, we present the sequence of the dnaB gene of Salmonella typhimurium, a functionally interchangeable analog of the E. coli dnaB gene. The DnaB proteins of these two organisms, inferred from the DNA sequences, are identical in length and in 93% of amino acid residues. Extended portions of the DnaB proteins are also similar to two phage-encoded DNA replication proteins: the gene 4 helicase-primase of coliphage T7 and, as reported previously (H. Backhaus and J. B. Petri, Gene 32: 289-303, 1984), the gene 12 protein of Salmonella phage
P22
. In contrast, little similarity was found between DnaB and either the UvrD repair helicase or transcription termination factor Rho (an RNA-DNA helicase). These results identify S. typhimurium DnaB as a member of the DnaB family of proteins by structural, as well as functional, criteria and provide the basis for the eventual identification, by mutational studies, of residues in DnaB critical for its function.
...
PMID:Sequence of the dnaB gene of Salmonella typhimurium. 283 67
A series of repeated exposures to gamma irradiation with intervening outgrowth of survivors was used to develop radioresistant cultures of Salmonella typhimuium LT2. Stepwise increases in resistance to both ionizing and ultraviolet irradiation were obtained independently of the presence or absence of integrated
P22
prophage. Single clonal isolates, representing parent and radioresistant populations, retained the general characteristics of the LT2 parent, including serological properties, phage typing, antibiotic sensitivities, mouse virulence, and most biochemical test reactions. Resistant cells were generally larger and contained 1.8 to 2.1 times more ribonucleic acid and protein than parent cells, but deoxyribonucleic acid (DNA) contents were similar. Heterogeneity in the populations with respect to release of H(2)S, utilization of carbon sources, and growth on minimal medium is considered to be ancillary, rather than causally related, to increased radioresistance. The resistant isolates displayed an increased ability to reactivate gamma-irradiated
P22
phage.
DNA polymerase I
and polynucleotide-joining enzyme activities were elevated in extracts of radioresistant cells relative to parent cells. It is suggested that the observed increases in radioresistance result from a selection of mutations leading to an increased capacity to repair DNA.
...
PMID:Radiation-resistant mutants of Salmonella typhimurium LT2: development and characterization. 456 37
The phage
P22
gene 12 protein was found to be like the Escherichia coli dnaB protein in that it stimulated phiX174 DNA synthesis in heat-inactivated extracts of dnaB temperature-sensitive cells (see preceding paper, Wickner, S. (1984) J. Biol. Chem. 259, 14038-14043). phiX174 replication catalyzed by the purified
P22
12 protein also by-passed the normal requirement for dnaC protein. However, synthesis still required dnaG primase and the
DNA polymerase III
holoenzyme components. This DNA synthesis reaction has been reconstituted with purified proteins and found to require
P22
12 protein, dnaG protein,
DNA polymerase III
holoenzyme components, 4 dNTPs, Mg2+, any one of ATP, GTP, UTP, or CTP and single-stranded DNA. The reaction has been dissected into partial reactions: (a) in a prepriming reaction,
P22
12 protein binds to single-stranded DNA in an ATP-dependent reaction (Wickner, S. (1984) J. Biol. Chem. 259, 14038-14043); (b) in a priming reaction requiring at least one rNTP and the other dNTPs or rNTPs, dnaG primase catalyzes oligonucleotide synthesis dependent on the
P22
12 protein-DNA complex; (c) finally,
DNA polymerase III
holoenzyme components catalyze DNA elongation of the primer.
...
PMID:Oligonucleotide synthesis by Escherichia coli dnaG primase in conjunction with phage P22 gene 12 protein. 623 58
The genome for the marine pseudotemperate member of the Siphoviridae phiHSIC has been sequenced using a combination of linker amplification library construction, restriction digest library construction, and primer walking. phiHSIC enters into a pseudolysogenic relationship with its host, Listonella pelagia, characterized by sigmoidal growth curves producing >10(9) cells/ml and >10(11) phage/ml. The genome (37,966 bp; G+C content, 44%) contained 47 putative open reading frames (ORFs), 17 of which had significant BLASTP hits in GenBank, including a beta subunit of
DNA polymerase III
, a helicase, a helicase-like subunit of a resolvasome complex, a terminase, a tail tape measure protein, several phage-like structural proteins, and 1 ORF that may assist in host pathogenicity (an ADP ribosyltransferase). The genome was circularly permuted, with no physical ends detected by sequencing or restriction enzyme digestion analysis, and lacked a cos site. This evidence is consistent with a headful packaging mechanism similar to that of Salmonella phage
P22
and Shigella phage Sf6. Because none of the phage-like ORFs were closely related to any existing phage sequences in GenBank (i.e., none more than 62% identical and most <25% identical at the amino acid level), phiHSIC is unique among phages that have been sequenced to date. These results further emphasize the need to sequence phages from the marine environment, perhaps the largest reservoir of untapped genetic information.
...
PMID:Complete genome sequence of phiHSIC, a pseudotemperate marine phage of Listonella pelagia. 1593 34
