Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.01 seconds)

Nonconjugative R-plasmids pBS76 and pBS94 (Sm Su), pBS95 and pBS96 (Sm Su Ap) isolated from clinical strains of Pseudomonas aeruginosa and plasmids pKMR281-pKMN284 (Sm Su), pKMR285-pKMR286 (Sm Su Tc) isolated from clinical strains of enterobacteria have been studied. Restriction maps of these plasmids are presented in the paper with some of plasmid genes for antibiotic resistance localized on them. The resistance determinants of plasmids pBS95 and pBS96 are shown to be included in transposon Tn3612 analogous to Tn3. Plasmids pBS76, pBS94-96 are of the wide host range and belong to incompatibility group P4 (IncQ). Plasmids pKMR281-pKMR286 are mutually incompatible and share the conspicuous DNA homology. They are inherited only by enterobacteria and are compatible with IncQ plasmids but in contrast to them are mobilized by RP4 plasmid with lower frequency.
Mol Gen Mikrobiol Virusol 1985 Jun
PMID:[Comparative study of non-conjugative R-plasmids from enterobacteria and Pseudomonas aeruginosa]. 302 12

The broad host-range plasmid pBS222 is compatible with broad host-range plasmids of all known incompatibility groups and codes for tetracycline resistance. pBS222 is efficiently mobilized by Inc P-1 plasmid RP4 and is also capable of conjugal transfer with low efficiency to different gramnegative microorganisms. The size of the plasmid (17.2 Kb) has been determined and its physical map has been constructed. The plasmid harbours the unique sites for restriction endonucleases BglII, HindIII, HpaI, KpnI, SmaI and XbaI cleawage. The plasmid derivatives pBS352-pBS355 have been obtained that carry kan- and cam-determinants in addition to tet-gene. Plasmid pBS355 has been used to clone EcoRI-fragments of phage lambda DNA. The plasmid pBS222 regions essential for replication and maintenance have been localized by DNA hybridization analysis of its mini-derivatives pBS356 and 357. pBS222 is a convenient model for investigations of the plasmid replication and maintenance mechanisms in different bacterial hosts as well as for the construction of broad host-range vectors.
Mol Gen Mikrobiol Virusol 1986 Dec
PMID:[Structural-functional organization of R-plasmid pBS222 with a broad range of bacterial hosts]. 302 54

The plasmid pACYC184 is shown to be mobilized for conjugal transfer in Escherichia coli cells by the deleted (Tn7-TcR) derivatives of the hybrid conjugative plasmid pAS8-121 (RP4-Co1E1). Both the mobilized and mobilizing plasmids are autonomously inherited by the recipient cells when the mobilizing plasmid carries single copy of IS8 (the plasmid pAS8-121 delta 16). Cointegrates pAS8-121 delta 16D:: ::pACYC184 are found in the recipient cells with pACYC184 being inserted between two repeats of IS8 if the derivate plasmid pAS8-121 delta 16D having the duplication of IS8 is used to mobilize pACYC184 for conjugal transfer. The insertion of pACYC184 between IS8 repeats in the plasmid pAS8-121 delta 16D eliminates the plasmid ability to be inserted with high frequency into the chromosome of the phototrophic bacterium R. sphaeroides 2R. The cointegrate pAS8-121 delta 16D:: pACYC184 is stable but can be resolved during the transformation deriving the plasmid pACYC184:: IS8. The latter may be used as a probe for isolation and analysis of IS8 DNA sequences and for constructing the vectors on the basis of pACYC184.
Mol Gen Mikrobiol Virusol 1987 Feb
PMID:[Mobilization of the pACYC184 plasmid by hybrid pAS8-121 delta plasmids in Escherichia coli cells]. 303 80

Tn2555, a new transposon coding for genes of sucrose utilization was studied. Tn2555 was shown to integrate into the plasmids RP4 and R6K, phage P1CmClr100 and Escherichia coli K12 chromosome. Tn2555 frequency of transposition to RP4 and R6K DNA is (2-5) X 10(-7) in Rec+-strain, (3-6) X 10(-8) in Rec--strain. Tn2555 integration site in phage P1CmClr100 Sac+-derivative studied has been localised within the C-segment of P1 DNA. In three independent cases of Tn2555 transposition to the chromosome the transposon was found to be integrated in the region between 29 and 32 min of Escherichia coli K12 linkage map. The restriction endonuclease analysis of seven independent isolates of RP4::Tn2555 has shown the grouping of Tn2555 integration sites in the Tn1 region of RP4. Frequent rearrangements occurring within Tn2555 have been revealed by the analysis. However, an invertible DNA segment of about 6-7 kb was preserved in all transposon structures.
Mol Gen Mikrobiol Virusol 1987 Jun
PMID:[Properties of transposon Tn2555 carrying the genes for sucrose utilization]. 304 Dec 2

The IncP1 plasmid pULB113 (RP4::miniMu) not only mediates the transfer of chromosomal markers in the classical direction (i.e. from the donor to the recipient cell) but also in the opposite direction (i.e. from the recipient bacterium to the donor). This phenomenon of retrotransfer was observed in homologous matings with Pseudomonas fluorescens, Alcaligenes eutrophus and Salmonella typhimurium. Retrotransconjugants could be discriminated from direct transconjugants by appropriate chromosomal and plasmid markers used to distinguish the mating partners not bearing pULB113. Retrotransfer of chromosomal markers occurred at frequencies equal to, or sometimes greater than, those observed for the direct mobilization, thus allowing the recovery of "recipient" recessive markers in the "donor" with linkage values similar to those found in the normal direction. Retrotransfer was also observed in heterospecific matings involving A. eutrophus and pULB113 bearing P. fluorescens: R-primes carrying different selected and unselected markers were recovered in both bacteria. "Retrotransfer" or "shuttle transfer" seems to be a specific trait of IncP1 plasmids.
Mol Gen Genet 1987 Aug
PMID:Shuttle transfer (or retrotransfer) of chromosomal markers mediated by plasmid pULB113. 311 43

A recombination-deficient (Rec-) strain of Caulobacter crescentus has been isolated from a collection of mutants sensitive to ultraviolet irradiation. The Rec- mutant fails to give recombinants following phi Cr30-mediated generalized transduction or following RP4-mediated conjugation. The recombination frequency in the Rec- strain is at least 5000-fold lower than in the wild type strains. The Rec- mutant is indistinguishable from wild type in terms of morphology, growth rate, viability, and phage sensitivities, differing only in properties known to be associated with recA-type mutations in other organisms: recombination frequency, ultraviolet sensitivity, and Weigle reactivation. The map location of the rec-526 allele has not been identified, but rec-526 can be cotransferred with the fla-169 mutation by RP4-mediated conjugation at low frequency. This apparent linkage has been used to move the rec mutation to other strains. The Rec- mutant resembles recA strains of other organisms and provides a healthy strain severely deficient in recombination for use in complementation and cloning studies involving C. crescentus.
Mol Gen Genet 1985
PMID:Recombination deficient mutant of Caulobacter crescentus. 385 26

We detected a gene of R100 functionally homologous to the F3 gene of F in the inhibition of RP4 transfer. Using in vitro recombinant DNA techniques, we located the gene, designated tir, in a 0.9 kb region, 2,392-3,293 in the nucleotide sequence coordinate of R100. From the DNA sequence analysis of R100 (Ohtsubo unpublished results), a coding frame of polypeptides, whose molecular weight is estimated to be 24.1 kilodaltons (kd), was inferred to be the region tir. Furthermore, we showed that tir could not repress expression of the F3 gene.
Mol Gen Genet 1985
PMID:Identification of a gene, tir of R100, functionally homologous to the F3 gene of F in the inhibition of RP4 transfer. 392 Apr 79

A DNA fragment of the broad host range plasmid RP4 carrying the cis-acting DNA recognition site for conjugative DNA transfer between bacterial cells (Mobsite) was cloned into the kanamycin-neomycin resistance transposon Tn5. Using conventional transposon mutagenesis techniques the new transposon, called Tn5-Mob, can easily be inserted into the host DNA of gram-negative bacteria. A host replicon carrying Tn5-Mob is then mobilizable into any other gram-negative species if the transfer functions of plasmid RP4 are provided in trans. The potential of Tn5-Mob was demonstrated by mobilizing Rhizobium meliloti plasmids as well as the E. coli chromosome at high frequencies.
Mol Gen Genet 1984
PMID:High frequency mobilization of gram-negative bacterial replicons by the in vitro constructed Tn5-Mob transposon. 609 69

Plasmid pRP761 is a derivative of the promiscuous plasmid RP4, which has a Tn76 insert 1.8 kb from its EcoRI site within the trfB region (Barth 1979). This mutation was pleiotropic, having three effects: the plasmid is unstably maintained in E. coli, it reduces the growth rate of its host and it has suffered a reduction in host-range. We show that pRP761 has reduced expression from both its korA and korB genes and that Tn76 has inserted between them. Fragment exchange experiments showed that this is the only mutant region in pRP761 and is therefore solely responsible for the pleiotropic effects. A spontaneous deletion derivative pRP761-6 has lost Tn76 and its adjacent kilA and korA genes: it has reacquired stability, does not inhibit host growth but is still reduced in its host-range. The provision of cloned korA+ in trans complements the first two phenotypic effects in pRP761 to a large extent, but neither korA+ alone nor korA+ with korB+ complements the host-range reduction in pRP761 or pRP761-6. A possible explanation for these results is that there is a site between korA and korB, affected by the Tn76 insert, that is essential to stable replication of these plasmids in some of their bacterial hosts.
Mol Gen Genet 1984
PMID:Involvement of kil and kor genes in the phenotype of a host-range mutant of RP4. 609 93

When RP4 and F factors were brought together into one E. coli cell, the F factor reduced 500-1000-fold the frequency of transfer of RP4. However, F had almost no effect on the surface exclusion and pilus formation by RP4. In contrast, RP4 did not affect the transfer of F. Using in vitro recombinant DNA techniques, a gene of F responsible for the above-mentioned transfer inhibition of RP4 was located within the BamHI fragment (40.4-42.8 kb) of the mini-F sequence on F. From the result of product analysis using minicells, the responsible gene in the BamHI fragment was inferred to encode the 33 K protein.
Mol Gen Genet 1983
PMID:Transfer inhibition of RP4 by F factor. 613 38


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