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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Various Escherichia coli K12 Hfr donors transfer at low frequency portions of the E. coli genome to Proteus mirabilis. By remating such Proteus hybrids with the same or a different E. coli Hfr strain, other genetic characters could be added to yield diploid Proteus hybrids which contained more than 30 percent of the E. coli genome. The extent of the E. coli genetic material in these unstable Proteus diploid hybrids included segments with the following selected markers: gal, lac, ara, mel, mtl, and malA. Unselected markers known to map throughout this region of the chromosome were also detected in these hybrids. Among the markers expressed in Proteus hybrids with the E. coli malA region was the receptor site for coliphage lambda. Although plaques were not seen, lambda was adsorbed by the Proteus hybrids. Examination of DNA from the various Proteus hybrids by CsCl density gradient centrifugation showed a satellite component of E. coli DNA with a size that corresponded to the extent of the E. coli genome present as determined by genetic analysis.
Mol Gen Genet 1975 Aug 05
PMID:Extensive segments of the Escherichia coli K12 chromosome in Proteus mirabilis diploids. 110 Oct 34

When synchronous populations of Escherichia coli B/r (lambda) were exposed to low doses of ultraviolet light, the yield of infective centres varied with cell age. The yield was highest if the lysogenic bacteria were irradiated at a time which coincides approximately with the termination of rounds of DNA replication and it was lowest when dividing cells were irradiated. No such variation was detected following either irradiation of excision-defective lysogenic cells or thermal induction of lambdacI857 prophage in irradiated bacteria. It is suggested that the variation reflects a relationship between prophage induction and inhibition of cell division. This hypothesis is supported by data showing that irradiation promoted induction and curtailed division in E. coli K12 dnaA mutants which were dividing in the absence of DNA replication.
Mol Gen Genet 1975 Aug 27
PMID:Induction of prophage lambda during the division cycle of Escherichia coli. 110 39

The phenomenon of glucose catabolite repression was studied in Escherichia coli mutants unable to transport this carbohydrate. The pts I,H mutant P34 was much less sensitive to permanent and transient repressive effect of glucose on beta-galactosidase synthesis than parental type. The 1103 mutant with lack of enzyme 1 of the phosphoenolpyruvate-dependent phosphotransferase system (ptsI) behaves as well as P34 mutant after addition of glucose to casamino acids mineral medium. But in minimal medium with succinate as the sole source of carbon cells of the 1103 mutant (in accordance with the data of Perlman and Pastan, 1969) show hightened sensibility to transient glucose repression. The effect of hypersensibility disappears when the lacI mutation rendering the beta-galactosidase synthesis to costitutivity is introduced in 1103 mutant. It is shown that the hightened sensibility of beta-galactosidase synthesis to glucose transient repression in 1103 mutant is not an effect of the pts mutation and most probably is due to "inducer exclusion" of the lac operon. It is also shown that if one introduces the P34 mutation in strain devoided of one of the enzymes II for glucose (gptA) (and due to this resistant to glucose catabolite repression) then the level of resistance in double mutant does not increase in spite of considerable supression of 14C glucose accumulation. It is discussed the role of separate components of Escherichia coli K12 glucose transport system in realization of the phenomenon of catabolite repression.
Mol Gen Genet 1975 Sep 15
PMID:Catabolite repression in Escherichia coli K12 mutants defective in glucose transport. 110 54

In E. coli K12, cell filamentation promoted by tif is enhanced by the lon mutation; in contrast, prophage induction and repair of UV-irradiated phage lambda, also promoted by tif, are not affected by lon. From a tif lon double mutant, "revertants" having recovered the ability to divide at 41 degrees were isolated, among which most (95%) had also lost their Lon filamentous phenotype after ultraviolet (UV) irradiation. From these 95% of revertants: (1) 94% are suppressed for the whole Tif phenotype, by additional mutations that render them deficient in DNA repair, as judged from their high UV sensitivity; some have been characterized as recA mutants. (2) 1% have recovered a control on cell division at 41 degrees or after UV irradiation by means of secondary mutations altering neither the other phenotypic properties of tif and lon, nor the repair and recombination ability of the cells: in particular, this class of "revertants" remains thermoinducible upon lysogenisation; the mutations which specifically suppress filamentation have been mapped at two loci, sfiA and sfiB, cotransducible respectively with pyrD and leu. In the remaining 5% of revertants that still exhibit an UV-induced filamentous growth, 3% can be tentatively classified as true tif+ revertants; 2% behave as tif thermodependent revertants, showing suppression of the Tif (and Lon) phenotype only at 41 degrees: 2recAts have been identified in this class. Non-lysogenic tif lon sfi and tif sfi strains remain viable during prolonged growth at 41 degrees. Under these conditions, tif expresses mutator properties, which can be conveniently analyzed in this sfi background. The action of lif, lon and sfi mutations is tentatively interpreted on the basis of a negative control of cell division specifically associated with DNA repair.
Mol Gen Genet 1975 Oct 22
PMID:Prophage induction and cell division in E. coli. III. Mutations sfiA and sfiB restore division in tif and lon strains and permit the expression of mutator properties of tif. 110 2

Tetracycline resistance and hydrogen sulfide production have been previously found to be plasmid-mediated in a naturally-occurring strain of Escherichia coli; both functions are specified by a single conjugative plasmid called pIP231(Te-H2S); pIP231DNA was isolated as covalently closed molecules in dye-buoyant density gradients. The base ratio of the DNA was found to be 50% GC by density gradient analysis. Electron micrographs of plasmid molecules showed a contour length of 20 +/- 2 mum (40 +/- 4 X 10(6) daltons). Between one and two copies of pIP231 molecules per host chromosome were found in E. coli K12.
Mol Gen Genet 1975 Oct 22
PMID:Physical studies of a plasmid mediating tetracycline resistance and hydrogen sulfide production in Escherichia coli. 110 6

A mutant of Escherichia coli K12 is described in which sigma and alpha subunits of the DNA-dependent RNA polymerase (EC 2.7.7.6) are produced at the rates much higher than in the normal strain. The rate of synthesis for sigma subunit was found to be at least 10-times higher, though the rapid degradation of sigma polypeptides accompanied with the accelerated synthesis precludes accurate estimation of the extent of hyperproduction. The alpha subunit synthesis was about 5-times higher in this mutant than in the control, and excess alpha polypeptides produced were as stable as the bulk of protein under the conditions employed. Genetic analyses of the mutant by conjugation and by transduction with phage P1 revealed that at least three distinct but closely linked mutations are responsible for hyperproduction of the sigma subunit; one (sig-1) is located very close to rif, and the others (sig-2 and sig-3) at the argH-bfe and metB regions, respectively. The results further indicate that the accelerated synthesis of alpha subunit is due to a mutation also located at the metB region. The present finding suggests that the synthesis of sigma subunit is subject to a complex control that can be affected by a number of cellular processes. The possible involvement of the core polymerase in determining the rate of synthesis of sigma subunit is discussed.
Mol Gen Genet 1975 Nov 24
PMID:Hyperproduction of the sigma subunit of RNA polymerase in a mutant of Escherichia coli. 110 14

bglY mutants of Escherichia coli K12 which show higher levels of kanamycin resistance (Kmr) in the presence of plasmid pGR71 have been previously described. In this work, we show that this increased resistance to an aminoglycoside antibiotic is not due either to low drug uptake or to alteration of its target, the ribosome. The copy number of plasmid pGR71 is not modified. The fact that increased antibiotic resistance is observed with only some of the Kmr determinants used in this study suggests a specific role for the bglY gene product. Moreover, for one such determinant, a higher level of resistance was observed when it was inserted in the chromosome but not when harbored by a plasmid. This discrepancy can be explained by the twin transcriptional-loop model, which proposes that transcription can lead to local variation in topology. A kan-lacZ fusion was constructed from the Kmr gene of plasmid pGR71 and inserted into a low copy number vector. Assay of beta-galactosidase in wild-type and mutant strains showed that expression of the antibiotic resistance gene was directly affected by H1 protein, the bglY gene product.
Mol Gen Genet 1992 May
PMID:Mutations in bglY, the structural gene for the DNA-binding protein H1 of Escherichia coli, increase the expression of the kanamycin resistance gene carried by plasmid pGR71. 131 98

The genes xylA and xylB were cloned together with their promoter region from the chromosome of Klebsiella pneumoniae var. aerogenes 1033 and the DNA sequence (3225 bp) was determined. The gene xylA encodes the enzyme xylose isomerase (XI or XylA) consisting of 440 amino acids (calculated M(r) of 49,793). The gene xylB encodes the enzyme xylulokinase (XK or XylB) with a calculated M(r) of 51,783 (483 amino acids). The two genes successfully complemented xyl mutants of Escherichia coli K12, but no gene dosage effect was detected. E. coli wild-type cells which harbored plasmids with the intact xylAKp 5' upstream region in high copy number (but lacking an active xylB gene on the plasmids) were phenotypically xylose-negative and xylose isomerase and xylulokinase activities were drastically diminished. Deletion of 5' upstream regions of xylA on these plasmids and their substitution by a lac promoter resulted in a xylose-positive phenotype. This also resulted in overproduction of plasmid-encoded xylose isomerase and xylulokinase activities in recombinant E. coli cells.
Mol Gen Genet 1992 Aug
PMID:Cloning and expression of the genes for xylose isomerase and xylulokinase from Klebsiella pneumoniae 1033 in Escherichia coli K12. 132 98

The homogeneous preparations of the brucella protein antigens were isolated from the hybrid producer strains Escherichia coli 6SE579 and 6SE800 by the cold osmotic shock technique and further purification on immunosorbents. The 18 + 38 and 38 kDa antigens were obtained. The antiserum specific to brucella 38 kDa antigen was obtained and used for isolation of the 18 kDa antigen from the producer strain 6SE579 synthesizing two brucella antigens. The immunosorbent developed on the basis of BrCn-agarose conjugated with antibodies from the serum has permitted isolation of 18 kDa protein antigen preparation. Thus, the combined technique of cold osmotic shock and affinity chromatography on immunosorbents permits one to isolate highly purified individual antigens of brucella from Escherichia coli K12 producer cells.
Mol Gen Mikrobiol Virusol
PMID:[Isolation and purification of Brucella antigens synthesized by Escherichia coli K12 cells]. 140 57

A wild-type isolate, EC3132, of Escherichia coli, that is able to grow on sucrose was isolated and its csc genes (mnemonic for chromosomally coded sucrose genes) transferred to strains of E. coli K12. EC3132 and all sucrose-positive exconjugants and transductants invariably showed a D-serine deaminase (Dsd)-negative phenotype. The csc locus maps adjacent to dsdA, the structural gene for the D-serine deaminase, and contains an inducible regulon, controlled by a sucrose-specific repressor CscR, together with structural genes for a sucrose hydrolase (invertase) CscA, for a D-fructokinase CscK, and for a transport system CscB. Based on DNA sequencing studies, this last codes for a hydrophobic protein of 415 amino acids. CscB is closely related to the beta-galactoside transport system LacY (31.2% identical residues) and a raffinose transport system RafB (32.3% identical residues) of the enteric bacteria, both of the proton symport type. A two-dimensional model common to the three transport proteins, which is based on the integrated consensus sequence, will be discussed.
Mol Gen Genet 1992 Oct
PMID:Characterization of a chromosomally encoded, non-PTS metabolic pathway for sucrose utilization in Escherichia coli EC3132. 143 27


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