Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:Q9UIJ5 (Rec)
 58,342 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

RP4-prime plasmids containing chromosomal fragments of either Escherichia coli or Rhizobium meliloti were constructed in vitro. When introduced into E. coli or R. meliloti respectively, they promoted a polarized transfer of the chromosome as demonstrated either by the gradient of transfer of various markers or by the study of the genetic constitution of recombinants. In E. coli, mobilization was shown to be dependent upon the presence of a functional rec A system. Inheritance of markers was due to their integration into the chromosome of the recipient as shown by the need for a functional rec A system in the recipient E. coli or by mobilization of recessive markers in R. meliloti. The system described could be applied to genetic mapping in any Gram negative bacteria.
Mol Gen Genet 1979 Jun 20
PMID:Use of RP4-prime plasmids constructed in vitro to promote a polarized transfer of the chromosome in Escherichia coli and Rhizobium meliloti. 38 51

In this paper are studied in E. coli K12 the influence of the bacterial Rec and phage mu Red recombination systems on the rescue of the O plus gene from the prophage by a superinfecting O minus phage, UV irradiated or not. In the absence of UV irradiation the Red system produces more recombinants than does the Rec system, and its action requires DNA replication. The presence of UV lesions in the mu DNA facilitates the action of the Rec system, which is more efficient in this instance than the Red system and can act in the absence of DNA replication. In all cases, there is a cooperation between the two generalized recombination systems.
Mol Gen Genet 1976 Jul 05
PMID:Role of the bacterial and phage recombination systems and of DNA replication in genetic recombination of UV-irradiated phage Lambda. 78 9

We have isolated a new mutant of Bacillus subtilis temperature sensitive in DNA replication; its properties are those of an initiation mutant. When liquid cultures are shifted to 48 degrees DNA replication is the first macromolecular synthesis that stops, but only after synthesis of the amount of DNA predicted for the completion of one replication round. When spores of the mutant are germinated and shifted to 48 degrees at subsequent times, one round of DNA replication is observed only when the shift occurs between 60 and 100 min; earlier shifts do not allow replication to start, later shifts allow more than one replication. The DNA replicated after a shift to high temperature is enriched in markers close to the terminus. The reinitiation of DNA replication stopped by the high temperature, takes place following a shift to a permissive temperature only if protein synthesis is allowed. Examination of DNA replication following toluene treatment shows that the elongation of DNA chains is not affected at the non-permissive temperature. This mutant is shown by PBS-1 mapping to correspond to a new gene denominated dna P, which is located between the thy A and fur A genes and is distinct from all the mapped dna and rec genes of Bacillus subtilis. The mutation confers to the cells also a deficiency in the ability to be transformed, to be transfected with SPP1 phage DNA, and to survive treatment with methyl-methane sulfonate. These deficiencies, observed at the permissive temperature, are no more temperature dependent than in the parental strain. The ability to perform homologous and heterologous transduction with PBS-1 phage and the sensitivity to ultraviolet radiation or mitomycin C are normal.
Mol Gen Genet 1975
PMID:A new mutant of Bacillus subtilis altered in the initiation of chromosome replication. 81 Jun 58

DNA of Bacillus subtilis strain UVSS 19--8M, of high ultraviolet sensitivity, was isolated after cultivating in medium containing bromouracil. Isopycnic banding in CsC1 shows an unusual pattern with four bands, including an extra one halfway between those for hybrid and for DNA of this band, amounting to 15--25% of the total DNA mass in one preparation, was isolated and investigated. The characteristics found for this DNA are in agreement with a four-stranded DNA unit similar to one of the structures postulated by Holliday as intermediates during genetic recombination. UVSS 19--8M from which this DNA has been isolated is shown to be defective for transformation and transfection, and can be regarded as rec-.
Mol Gen Genet 1976 Mar 30
PMID:A four-stranded DNA from Bacillus subtilis which may be an intermediate in genetic recombination. 81 6

We have developed an experimental system for studying concomitantly the fate of the donor DNA and the process of recombination after conjugation in Escherichia coli. We used a set of Hfr and F-strains carrying complementing lacZ mutations. Expression of the lacZ allele on the chromosomal fragment derived from the donor results in the formation of heat sensitive beta-galactosidase by complementation. By intragenic recombination between the two lacZ mutations a lacZ+ gene may be formed, and wild type beta-galactosidase will be synthesized subsequently. So the assay of heat sensitive and wild type beta-galactosidase enabled us to follow respectively the fate of the donor DNA and the recombination process. Using various recombination deficient recipient strains, we found that the donor DNA is progressively inactivated in recA, rec-34 and recH recipients, although the initial rate of expression is equivalent to that in a Rec+ recipient; no significant recombination was observed. In Rec+, recB or recG recipients there was no inactivation and recombination occurred. The kinetics of recombinant formation in the recB strain seems to differ from the wild type; in a recG recipient the recombination activity is significant, but lower than in the wild type recipient.
Mol Gen Genet 1975
PMID:Conjugation in Escherichia coli: a study of recombination and the fate of donor DNA at the level of the zygote. 110 Oct 26

A haploid strain of Asp. nidulans with a chromosome segment in duplicate (one in normal position on chromosome I, one translocated to chromosome II) shows mitotic recombination, mostly by conversion, in adE in a frequency slightly higher than in the equivalent diploid. A method has been devised, using this duplication, for the selection of rec and uvs mutations. Six rec mutations have been found which decrease recombination frequency in the haploid. One mutation selected as UV sensitive showed a hundred fold increase in recombination frequency in the haploid (pop mutation) and probably the same in diploids. The increased frequency is both in gene conversion and in crossing over, and the exchanges appear in clusters of two or more. pop is allelic to uvsB (Jansen, 1970) which had been found to affect mitotic but not meiotic recombination. It is suggested that mutations of this type interfere with the control mechanism which determines that high recombination is confirmed to the meiotic nuclei and avoided in somatic nuclei.
Mol Gen Genet 1975
PMID:Mutations affecting mitotic recombination frequency in haploids and diploids of the filamentous fungus Aspergillus nidulans. 110 11

Calcium-treated cells of E. coli K-12 C600 were transfected with lambda-heteroduplex DNA carrying the marker cIts857 in one strand and wildtype in the other. In single burst analyses of the phage progeny, 72-79% of the bursts were "pure" bursts containing either exclusively wildtype phage or exclusively mutant phage, indicating that conversion of the cIts857/+ mismatch to a homoduplex structure prior to replication occurred with this frequency. The r-strand1 appears to be "preferred", since pure bursts of progeny with the r-strand genotype were almost twice as frequent as those with the l-strand genotype. Examination of the conversion frequency of a number of rec and uvr E. coli mutants showed that the mutants uvr D and UVR E are deficient in mismatch repair. Conversion is reduced in the former by a factor of 2 and in the latter by a factor of 3.
Mol Gen Genet 1975 Aug 27
PMID:Escherichia coli mutants uvr D and uvr E deficient in gene conversion of lambda-heteroduplexes. 110 38

A Chi mutation in phage lambda stimulates Rec-mediated crossing over more to one side of itself than to the other; stimulation, which is maximal near Chi, can occur at some distance from the Chi site as well. A gross heterology differentiating the two recombining parents does not interfere with the distant Chi-stimulated crossover whether the heterology is at the Chi site or between the Chi site and the distant interval in which recombination is monitored. These conclusions hold whether recombination is measured "genetically" in standard crosses or "physically" in density-labeled crosses conducted in the absence of DNA replication.
Mol Gen Genet 1975 Sep 15
PMID:Rec-mediated recombinational hot spot activity in bacteriophage lambda. IV. Effect of heterology on Chi-stimulated crossing over. 118 61

Influence of the recE1, recB2, recB3, recB19, recF15, recF18, recL16, recM13 and recM27 mutations of the induction of the SOS-like system component, i. e. the RecE protein of Bacillus subtilis was studied by RIA-dot-blot method in UV-irradiated or treated by nalidixic acid cells. These agents caused a significant increase in the wild type (rec+) cells but did not stimulate the RecE synthesis in the rec mutants tested. The two exceptions were recB2 and recF18 mutants treated by nalidixic acid. The tsi23 mutation caused thermoinduction of phi 105 bacteriophage in the rec+ genetic background while no prophage particles were induced in the recE, recF, recL, recM mutants. The data suggest that the genetic damage of several rec genes including recB, recE, recF, recL and recM can block induction of the SOS-like system of Bacillus subtilis.
Mol Gen Mikrobiol Virusol
PMID:[Induction of the SOS-like system in Rec-mutants of Bacillus subtilis]. 145 77

The efficacy of linear DNA as a substrate for general homologous recombination was demonstrated using BamHI-linearized pKLC8.5, a plasmid that carries internal direct repeats flanking the unique BamHI site. An analogous plasmid, pKLC2.31, was used in a parallel and comparative study of intramolecular homologous recombination in circular DNA substrates. When the rec+ wild-type strain, AB1157, and its isogenic rec- derivatives were transformed with linear pKLC8.5 DNA, intramolecular homologous recombination was independent of recA, recB, recN, recO and exonuclease III (xth-1) functions. Although the recBCsbcA and recBCsbcBC cells were both very recombination proficient, only linear but not circular DNA was used as substrate for intramolecular homologous recombination in the recBCsbcA cells. In both the recBCsbcA and recBCsbcBC genetic backgrounds, the recombination frequencies for linearized pKLC8.5 DNA were 100%. A notable difference between the two strains was that none of the recBCsbcA transformants obtained with circular pKLC8.5 DNA were Tcs recombinants, whereas 11% of the corresponding recBCsbcBC transformants were Tcs recombinants. The sbcB mutation was responsible for the recombination proficiency of the recBCsbcBC cells. Unlike the case in recBCsbcA cells, intramolecular homologous recombination of linear DNA in the recBCsbcBC cells was dependent on recA and recF as well as recN and recO gene functions, but was independent of recJ and recL gene functions.
Mol Gen Genet 1992 Mar
PMID:Intramolecular homologous recombination of linearized plasmids in Escherichia coli K12. 155 26


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>