首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 62 毫秒
1.
sn-Glycerol-3-phosphate auxotrophs defective in phospholipid synthesis contain a Km-defective sn-glycerol-3-phosphate acyltransferase. Detailed genetic analysis revealed that two mutations were required for the auxotrophic phenotype. One mutation, in the previously described plsB locus (sn-glycerol-3-phosphate acyltransferase structural gene), mapped near min 92 on the Escherichia coli linkage map. Isolation of Tn10 insertions cotransducible with the auxotrophy in phage P1 crosses revealed that a second mutation was required with plsB26 to confer the sn-glycerol-3-phosphate auxotrophic phenotype. This second locus, plsX, mapped between pyrC and purB near min 24 on the E. coli linkage map. Tn10 insertions near plsX allowed detailed mapping of the genetic loci in this region. A clockwise gene order putA pyrC flbA flaL flaT plsX fabD ptsG thiK purB was inferred from results of two- and three-factor crosses. Strains harboring the four possible configurations of the mutant and wild-type plsB and plsX loci were constructed. Isogenic plsB+ plsX+, plsB+ plsX50, and plsB26 plsX+ strains grew equally well on glucose minimal medium without sn-glycerol-3-phosphate. In addition, plsX or plsX+ had no apparent effect on sn-glycerol-3-phosphate acyltransferase activity measured in membrane preparations. The molecular basis for the plsX requirement for conferral of sn-glycerol-3-phosphate auxotrophy in these strains remains to be established.  相似文献   

2.
The phenotypic expression of protein E, a recently described major outer membrane protein, is associated with a mutation at a locus on the Escherichia coli chromosome that we call nmpA. nmpA is located between rbsK and uncA at 82.7 min on the E. coli linkage map. The nmpA locus is also the site of the mutations which lead to the formation of major outer membrane proteins Ic or e. It is likely proteins E, Ic, and e are closely related or identical. The mutant nmpA allele is dominant.  相似文献   

3.
Mutants of Escherichia coli which are resistant to 5-fluorodeoxyuridine all have mutations which map at a single locus at 27.5 min on the genetic map of E. coli. Extracts prepared from each mutant were deficient in thymidine kinase activity measured in vitro. Simple selective conditions which allowed detection of one mutant in the presence of 10(7) wild-type bacteria were found. These results show that loss of thymidine kinase activity is the usual mechanism for 5-fluorodeoxyuridine resistance and that all such mutations occur at the locus previously designated tdk.  相似文献   

4.
Escherichia coli mutants defective in protease III were isolated by enzyme assays of heavily mutagenized colones. One mutant produced thermolabile enzyme, and it is presumed to have a mutation in the structural gene of protease III. Two other mutants mapping at the same site had less than 5% of the wild-type protease III level. The genetic locus of these mutations, designated ptr, was located at approximately 60 min on the E. coli linkage map based on its high frequency (70%) of contransduction by P1 with argA. Strains with less than 5% of the wild-type protease III activity grew normally and degraded nonsense fragments of beta-galactosidase at wild-type rates.  相似文献   

5.
An Escherichia coli mutant carrying delta malE12-18, a 21-base pair deletion confined to the coding DNA of the maltose-binding protein signal peptide, is unable to export maltose-binding protein to the periplasm efficiently. Consequently, such a strain is defective for the utilization of maltose as a sole carbon source. We obtained 16 mutants harboring extragenic delta malE12-18 suppressor mutations that exhibit partial restoration of export to the mutant maltose-binding protein. A genetic analysis of these extragenic suppressor mutations demonstrated that 15 map at prlA, at 72 min on the standard E. coli linkage map, and that 1 maps at a new locus, prlD, at 2.5 min on the linkage map. Our evidence indicates that the prlA and prlD gene products play an important role in the normal pathway for export of proteins to the cell envelope. Efficient execution of the secretory process requires that these prl gene products interact properly with each other so that a productive interaction of these gene products with the signal peptide also can occur. Our data suggest that proper assembly of a complex is required for efficient export of E. coli envelope proteins to their various extracytoplasmic compartments.  相似文献   

6.
We have isolated mutants of Escherichia coli which do not support stable maintenance of mini-F plasmids (delta ccd rep+ sop+). These host mutations, named hop, were classified into five linkage groups on the E. coli chromosome. Genetic analyses of these hop mutations by Hfr mating and P1 transduction showed their loci on the E. coli genetic map to be as follows: hopA in the gyrB-tnaA region, hopB in the bglB-oriC region, hopD between 8 and 15 min, and hopE in the argA-thyA region. Kinetics of stability of the sop+ and delta sop mini-F plasmids in these hop mutants suggest that the hopA mutants are defective in partitioning of mini-F rather than in plasmid replication. The hopB, hopC, and hopD mutants were partially defective in replication of mini-F. The physical structure of the plasmid DNA was normal in hopA, B, C, and D mutants. Large amounts of linear multimers of plasmid DNA accumulated in mutants of the fifth linkage group (hopE). None of the hop mutations in any linkage group affected the normal growth of cells.  相似文献   

7.
The Escherichia coli phn (psiD) locus encodes genes for phosphonate (Pn) utilization, for phn (psiD) mutations abolish the ability to use as a sole P source a Pn with a substituted C-2 or unsubstituted hydrocarbon group such as 2-aminoethylphosphonate (AEPn) or methylphosphonate (MPn), respectively. Even though the E. coli K-12 phosphate starvation-inducible (psi) phn (psiD) gene(s) shows normal phosphate (Pi) control, Pn utilization is cryptic in E. coli K-12, as well as in several members of the E. coli reference (ECOR) collection which are closely related to K-12. For these bacteria, an activating mutation near the phn (psiD) gene is necessary for growth on a Pn as the sole P source. Most E. coli strains, including E. coli B, are naturally Phn+; a few E. coli strains are Phn- and are deleted for phn DNA sequences. The Phn+ phn(EcoB) DNA was molecularly cloned by using the mini-Mu in vivo cloning procedure and complementation of an E. coli K-12 delta phn mutant. The phn(EcoB) DNA hybridized to overlapping lambda clones in the E. coli K-12 gene library (Y. Kohara, K. Akiyama, and K. Isono, Cell 50:495-508, 1987) which contain the 93-min region, thus showing that the phn (psiD) locus was itself cloned and verifying our genetic data on its map location. The cryptic phn(EcoK) DNA has an additional 100 base pairs that is absent in the naturally Phn+ phn(EcoB) sequence. However, no gross structural change was detected in independent Phn+ phn(EcoK) mutants that have activating mutations near the phn locus.  相似文献   

8.
A new locus for exopolysaccharide overproduction in Escherichia coli K-12 was mapped by insertion mutagenesis. A 66% linkage to serA, which is located at 62 min on the E. coli K-12 linkage map, was shown by P1 transduction. The polysaccharide produced by the mutant was isolated and was shown to be similar to colanic acid.  相似文献   

9.
Escherichia coli K-12 mutants lacking gamma-glutamyltranspeptidase (EC 2.3.2.2) were isolated after mutagenesis of cells with ethyl methanesulfonate. They lost the enzyme activity to different extents. The mutations of two mutants that had lost the enzyme activity completely were mapped at 76 min of the E. coli K-12 linkage map. These mutations made the cells neither nutrient requiring nor cold sensitive. The mutants leaked much more glutathione into the medium than the wild type. We propose the symbol ggt for these mutations.  相似文献   

10.
Mutants of Escherichia coli K-12 deficient in pyruvate oxidase were isolated from an aceEF (pyruvate dehydrogenase-deficient) strain by selection for a complete absence of growth on medium lacking acetate. Extracts of two of the mutants were shown to contain normal levels of pyruvate oxidase antigen, although the enzymatic activities of the extracts were reduced or absent. The poxB locus was mapped by using closely linked transposon insertions to min 18.7 of the E. coli linkage map between the cmlA and aroA loci, a location far removed from that of the regulatory gene, poxA.  相似文献   

11.
A screen was conducted for lethal mutations in the nematode Caenorhabditis elegans in a strain containing the mutator mut-4 (st700)I to examine the nature of mutator-induced lethal mutations within two large chromosomal regions comprising a total of 49 map units (linkage group IV (right) and linkage group V (left)). The genetic analysis of 28 lethal mutations has revealed that the mutator locus mut-4(st700)I causes both putative single-gene mutations and deficiencies. We have identified lethal mutations in three different genes, in addition to seven deficiencies. There is a mutational hot spot on linkage group V (left) around the lin-40 locus. Six mutations appear to be alleles of lin-40. In addition, 5 of 7 deficiencies have breakpoints at or very near lin-40. All seven deficiencies delete the left-most known gene on linkage group V (left) and thus appear to delete the tip of the chromosome. This is in contrast to gamma ray and formaldehyde induced deficiencies, which infrequently delete the closest known gene to the tip of a chromosome.  相似文献   

12.
13.
Twenty of the twenty-two MudII1734 insertions impairing the chrysobactin iron-assimilation system of Erwinia chrysanthemi 3937 were localized to a 50 kbp genomic insert contained in the R-prime plasmid, R'4 (Enard et al., 1988). Using the conjugative plasmid pULB110 (RP4::mini-Mu) and the generalized transducing phage phi EC2, we located this iron-transport region and the two unlinked mutations on the chromosome linkage map. Chrysobactin is a catechol-type siderophore and, as we have previously observed with the entA locus of Escherichia coli, the E. chrysanthemi-derived R'4 was found to complement E. coli entB and entE mutations. A 2.9 kb EcoRi and a 4.8 kb BamHI fragment in the R'4 sharing homology with the E. coli entCEBAP15 operon DNA were subcloned. These fragments were used as DNA/DNA hybridization probes to screen a wild-type gene library, yielding a recombinant cosmid (pEC7) able to complement mutations disrupting the 2,3-dihydroxybenzoic acid biosynthetic pathway in both Erwinia and Escherichia spp. as well as the E. coli entE mutation. Physical mapping of the genomic MudII1734 insertions corresponding to these mutations led to the identification of a cluster of genes confined to a DNA sequence of about 10 kb required for both biosynthetic and receptor functions.  相似文献   

14.
15.
The tentative map position on the Escherichia coli chromosome of the tolF locus, determining tolerance to colicins A, E2, E3, K, and L, has been confirmed by three-point transduction. It lies between the aroA and pyrD loci at about 21 min on the linkage map of Bachmann et al. (1976). The cmlB locus, determining increased resistance to the antibiotics chloramphenicol and tetracycline, also lies in this region (Reeve, 1966). Phenotypic and genetic comparison of isogenic strains that carry a mutation in either the tolF or cmlB locus makes it likely that these loci are closely related or identical. The tolD locus determining tolerance to colicins E2 and E3 as well as increased resistance to antibiotics has been reported to be located close to the aroA locus as a result of conjugation experiments (Eriksson-Grennberg et al. 1965). However, tolD did not cotransduce with any of several loci in this region, indicating that the mutation is not located within the region of the genetic map corresponding to approximately 19 to 22.5 min.  相似文献   

16.
G L Hazelbauer  S Harayama 《Cell》1979,16(3):617-625
We have characterized chemotactic mutants of E. coli that appear to be defective in a common linkage of two independent receptors to the central chemotactic components. The mutants do not respond to gradients of ribose or galactose and thus are called trg (taxis to ribose and galactose), after Ordal and Adler (1974b). These trg mutants are indistinguishable from their parent in tactic response to other attractants, swimming pattern, growth rates, and transport of ribose and galactose. The mutant cells contain the usual amounts of ribose and galactose receptors, and those proteins function normally in their other role, transport of their respective ligands. The mutations, generated by insertion of translocatable drug-resistance elements (transposons)8 are located near 31 min on the map of the E. coli chromosome, a locus far removed from the genes coding for the ribose and galactose receptors. Trg mutants do not resemble either specific receptor mutants or che mutants. The nature of the requirement for the trg product in the response to ribose and galactose is not defined, but evidence for interference of tactic signals from the ribose and galactose receptors (Strange and Koshland, 1976) supports the idea that the product functions directly in the transmission of tactic signals from the two receptors to the flagella.  相似文献   

17.
We describe the identification of two mutations in bacterial genes, designated as fipB and fipC, which resulted in temperature-sensitive morphogenesis of bacteriophage f1. These mutations mapped at separate loci but had to be present simultaneously to block f1 production at 41.5 degrees C. One mutation defined the locus fipB at 85.3 min on the Escherichia coli linkage map; the other defined the locus fipC, which mapped very close to rpsL at 73 min. Since these mutations did not appear to affect phage DNA replication, gene expression, or protein localization, they probably interfered with the its life cycle at the level of assembly. fipB mutants were partially deficient in adsorption of bacteriophage lambda, and fipB and fipC mutants leaked beta-lactamase into the medium, suggesting that the mutations affect outer-membrane structure or function.  相似文献   

18.
An ampicillin enrichment technique was used to isolate 39 nicotinic acid-requiring mutants of Salmonella typhimurium LT-2. Using interrupted-mating and transductional mapping procedures, three loci, designated nadA, nadB, and nadC, were identified. These loci mapped at 33, 82, and 6 min, respectively, on the S. typhimurium linkage map. The arrangement of the loci on the Salmonella linkage map corresponded closely to the nadA, nadB, and nadC loci on the Escherichia coli K-12 linkage map, indicating that the de novo pathway to nicotinamide adenine dinucleotide and the genes governing the enzymes involved in this pathway in S. typhimurium are very similar to those in E. coli. Evidence is also presented which indicates that the product of the nadC locus in S. typhimurium LT-2 is the enzyme quinolinic acid phosphoribosyltransferase. All nadC mutants of S. typhimurium secreted between 2 and 8 mumol of quinolinic acid per 100 ml of secretion medium. In addition, none of the nadC mutants isolated were able to grow in 10(-3) M quinolinic acid, whereas all nadA and nadB mutants of S. typhimurium grew well in the presence of quinolinic acid. Transductional crosses between nadB mutants provided evidence suggestive of more than one locus in the nadB region.  相似文献   

19.
A temperature-sensitive mutant of Escherichia coli defective in peptidoglycan synthesis was characterized. The incorporation of radiolabeled meso-diaminopimelate into peptidoglycan by the mutant was inhibited at the restrictive growth temperature, resulting in autolysis. The defective step appeared to be part of the terminal stage in peptidoglycan synthesis involving the incorporation of disaccharide peptide units into the wall peptidoglycan. The mutation was assigned to a new locus, designated murH, at 99.2 min on the E. coli linkage map.  相似文献   

20.
Overexpression of the Tn5 transposase (Tnp) was found to be lethal to Escherichia coli. This killing was not caused by transposition or dependent on the transpositional or DNA binding competence of Tnp. Instead, it was strictly correlated with the presence of a wild-type N terminus. Deletions removing just two N-terminal amino acids of Tnp resulted in partial suppression of this effect, and deletions of Tnp removing 3 or 11 N-terminal amino acids abolished the killing effect. This cytotoxic effect of Tnp overexpression is accompanied by extensive filament formation (i.e., a defect in cell division) and aberrant nucleoid segregation. Four E. coli mutants were isolated which allow survival upon Tnp overexpression, and the mutations are located at four discrete loci. These suppressor mutations map near essential genes involved in cell division and DNA segregation. One of these mutations maps to a 4.5-kb HindIII region containing the ftsYEX (cell division) locus at 76 min. A simple proposition which accounts for all of these observations is that Tnp interacts with an essential E. coli factor affecting cell division and/or chromosome segregation and that overexpression of Tnp titrates this factor below a level required for viability of the cell. Furthermore, the N terminus of Tnp is necessary for this interaction. The possible significance of this phenomenon for the transposition process is discussed.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号