Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
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The ability to reactivate ultraviolet (UV) damaged phage phi CbK (W-reactivation) is induced by UV irradiation of Caulobacter crescentus cells. Induction of W-reactivation potential is specific for phage phi CbK, requires protein synthesis, and is greatly reduced in the presence of the rec-526 mutation. The induction signal generated by UV irradiation is transient, lasting about 1 1/2-2 h at 30 degrees C; if chloramphenicol is present during early times after UV irradiation, induction of W-reactivation does not occur. Induction is maximal when cells are exposed to 5-10 J/m2 of UV, a dose that also results in considerable mutagenesis of the cells. Taken together, these observations demonstrate the existence of a UV inducible, protein synthesis requiring, transiently signalled, rec-requiring DNA repair system analogous to W-reactivation in Escherichia coli. In addition, C. crescentus also has an efficient photoreactivation system that reverses UV damage in the presence of strong visible light.
Mol Gen Genet 1984
PMID:Ultraviolet mutagenesis and inducible DNA repair in Caulobacter crescentus. 659 36

Marker rescue in plasmid transformation of competent cells of different rec mutants of B. subtilis was studied. In most cases the value of marker rescue decreased proportionally to reduction of plasmid transformation efficiency (although there were certain exceptions). Marker rescue was not observed either in plasmid transformation of protoplasts or in plasmid transduction of intact cells.
Mol Gen Genet 1982
PMID:Study of the phenomenon of marker rescue in plasmid transformation and transduction of intact cells, protoplasts and different rec mutants of Bacillus subtilis. 680 68

L-leucine-beta-naphthylamide (LNA) will support growth of a leucine auxotroph of Salmonella typhimurium. Utilization of this compound depends on the presence in the cells of active peptidase N. Selection for improved growth on a suboptimal concentration of LNA yields mutants some of which contain elevated levels of peptidase N. The properties of these strains indicate that they carry tandem genetic duplication of the pepN locus: they show rec-dependent genetic instability; they contain an approximately doubled level of the pepN gene product; neighboring chromosomal loci are also duplicated; and, the mutants occur with a greatly diminished frequency in rec- strains. When selection for improved growth on LNA is applied to a rec- strain, the mutants obtained do not contain duplications. These strains appear to contain lesions in the pepN gene that lead to the production of a peptidase N with altered substrate specificity.
Mol Gen Genet 1982
PMID:Salmonella typhimurium mutations affecting utilization of L-leucine beta-naphthylamide. 695 84

The drug resistance plasmid R100.1 can integrate into the E. coli chromosome at several sites on the plasmid. Many of the resulting Hfr strains continuously produce extrachromosomal circular forms of the r-determinant. These r-det 'plasmids' seem incapable of stable autonomous replication. We show that their presence in the cell requires the continuous activity of functional recA and recC genes but does not require the lexA function. The production of r-det circular forms is correlated with an increased copy number of r-det sequences, relative to RTF sequences, This copy number increase is, however, also found in a recA- background where no circular forms of r-det are found. These results show that a specific replication of r-det sequences, not present in the wild-type R100.1 plasmid, occurs in these R-Hfr strains. They suggest that a rec promoted recombination, posterior to the specific replication event, is needed for the production of circular r-det forms.
Mol Gen Genet 1980
PMID:Production of extrachromosomal r-determinant circles from integrated R100.1: involvement of the E. coli recombination system. 700 2

A mutant strain of E. coli which was isolated initially because of its strong hyper-recombination phenotype was shown to carry a lesion in uvrD. The presence of this mutation, designated uvrD210, increased the frequency of recombination between chromosomal duplications in F-prime repliconant cells and reduced linkage between closely linked markers in crosses with Hfr donors. A comparable hyper-rec phenotype was demonstrated in strains carrying other alleles of uvrD previously referred to as mutU4, uvr502 and recL152. The recombination activity of a uvrD210 strain was abolished by mutation of recA but the mutator activity associated with this allele proved to be independent of recA. It is suggested that uvrD mutations reduce the fidelity of DNA replication and that the accumulation of lesions in the newly synthesized strand provides additional sites for initiating recombination.
Mol Gen Genet 1980
PMID:Hyper-recombination in uvrD mutants of Escherichia coli K-12. 700 7

In Proteus mirabilis nalidixic acid or a predose of UV induce Rec protein formation, a portion of post-UV replication repair and "post-UV replication enhancement." These inducible functions are not significantly affected by the plasmid R46, which renders P. mirabilis efficiently UV-mutable. The R46-mediated UV induction of rif mutations requires additional inducible functions, as existing after nalidixic acid treatment in rec+ strains. After a nalidixic acid pretreatment UV efficient induction of rif mutations occurs without an otherwise obligatory period of post-UV incubation prior to plating on rifampicin agar. THe inducible character of this "qualification" of plasmid R46-mediated UV mutagenesis in P. mirabilis is evident from the inhibitory effects of chloramphenicol and starvation. Constitutive high-level synthesis of Rec protein in cells harboring the recombinant (multi-copy) rec+ plasmid pPM1 reduced plasmid R46-mediated UV mutagenesis, probably by preventing (inducible?) functions required by the plasmid R46 repair-mutator.
Mol Gen Genet 1981
PMID:Repair and plasmid R46 mediated mutation requires inducible functions in Proteus mirabilis. 703 31

Excision repair in ultraviolet-irradiated wild-type Escherichia coli produces a bimodal distribution of repair patch sizes in the DNA. Approximately 99% of the repair events result in short patches of 20-30 nucleotides produced by a constitutive repair system. The remaining 1% result in patches which are at least 1,500 nucleotides in length. This long patch repair is shown to be a damage-inducible process under control of the rec-lex regulatory circuit. The kinetics of the two processes differ; short patch synthesis begins immediately after irradiation and is virtually completed prior to synthesis of the majority of the long patches. Long patch repair synthesis is a linear function of UV dose up to a plateau at 60 J/m2, and hence each long patch event is the consequence of a single UV-induced lesion. Long patch repair does not appear to be necessarily error-prone, since no alteration in repair synthesis occurs as a result of a mutation umuC- which renders cells nonmutable by UV. Evidence is presented suggesting that DNA polymerase I is responsible for both long and short patch synthesis in wild type cells under inducing conditions. In the absence of polymerase I the constitutive patch size averages 80-90 nucleotides, and this distribution is unchanged by induction.
Mol Gen Genet 1982
PMID:Characterization of long patch excision repair of DNA in ultraviolet-irradiated Escherichia coli: an inducible function under rec-lex control. 704 79

We have utilized the single equational meiotic division conferred by the spo13-1 mutation of Saccharomyces cerevisiae (S. Klapholtz and R. E. Esposito, Genetics 96:589-611, 1980) as a technique to study the genetic control of meiotic recombination and to analyze the meiotic effects of several radiation-sensitive mutations (rad6-1, rad50-1, and rad52-1) which have been reported to reduce meiotic recombination (Game et al., Genetics 94:51-68, 1980); Prakash et al., Genetics 94:31-50, 1980). The spo13-1 mutation eliminates the meiosis I reductional segregation, but does not significantly affect other meiotic events (including recombination). Because of the unique meiosis it confers, the spo13-1 mutation provides an opportunity to recover viable meiotic products in a Rec- background. In contrast to the single rad50-1 mutant, we found that the double rad50-1 spo13-1 mutant produced viable ascospores after meiosis and sporulation. These spores were nonrecombinant: meiotic crossing-over was reduced at least 150-fold, and no increase in meiotic gene conversion was observed over mitotic background levels. The rad50-1 mutation did not, however, confer a Rec- phenotype in mitosis; rather, it increased both spontaneous crossing-over and gene conversion. The spore inviability conferred by the single rad6-1 and rad52-1 mutations was not eliminated by the presence of the spo13-1 mutation. Thus, only the rad50 gene has been unambiguously identified by analysis of viable meiotic ascospores as a component of the meiotic recombination system.
Mol Cell Biol 1981 Oct
PMID:Recombinationless meiosis in Saccharomyces cerevisiae. 705 Jun 57

Commercial ruthenium red is often purified by a single recrystallization as described by Luft, J.H. (1971) Anat Rec 171, 347-368, which yields small amounts of material having an apparent molar extinction coefficient of approximately 67,400 at 533 nm. A simple modification to the procedure dramatically improves the yield, allowing crystallization to be repeated. Three times recrystallized ruthenium red has an apparent extinction coefficient of approximately 85,900, the highest value reported to date. Both crude and highly purified ruthenium red can be shown to inhibit reverse activity of the mitochondrial Ca2+ uniporter (uncoupled mitochondria), provided that care is taken to minimize and account for Ca2+ release through the permeability transition pore. Crude ruthenium red is 7-10 fold more potent than the highly purified material in this regard, on an actual ruthenium red concentration basis. The same relative potency is seen against forward uniport (coupled mitochondria), however, the I50 values are 10 fold lower for both the crude and purified preparations. These data demonstrate unambiguously that the energy state of mitochondria affects the sensitivity of the Ca2+ uniporter to ruthenium red preparations, and that both the forward and reverse reactions are subject to complete inhibition. The data suggest, however, that the active inhibitor may not be ruthenium red per se, but one or more of the other ruthenium complexes which are present in ruthenium red preparations.
Mol Cell Biochem 1994 Oct 12
PMID:Inhibition of the mitochondrial Ca2+ uniporter by pure and impure ruthenium red. 753 18

Single-strand interruptions in a template DNA are likely to cause collapse of replication forks. We propose a model for the repair of collapsed replication forks in Escherichia coli by the RecBCD recombinational pathway. The model gives reasons for the preferential orientation of Chi sites in the E. coli chromosome and accounts for the hyper-rec phenotype of the strains with increased numbers of single-strand interruptions in their DNA. On the basis of the model we offer schemes for various repeat-mediated recombinational events and discuss a mechanism for quasi-conservative DNA replication explaining the recombinational repair-associated mutagenesis.
Mol Microbiol 1995 May
PMID:Collapse and repair of replication forks in Escherichia coli. 756 99


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