鼠伤寒沙门氏菌嘌呤生物合成基因表达的调控研究——Ⅱ.O~c突变体的分离和遗传鉴定

已有研究证明,编码阻遏蛋白的调节基因purR能调节嘌呤从头合成途径中除purB外所有结构基因的表达。但迄今还缺乏阻遏蛋白与这些基因的操纵基因相结合的直接证据。本文报道以嘌呤结构基因purD和purG的MudJ(lacZ,Kan~5)插入物为出发株,在外加过量腺嘌呤核苷(2mmol/L)的MacConkey平板上通过选择红色菌落分离O~c突变体的结果。从上述两株出发株分别获得了8株和9株独立的消阻遏突变体。共转导分析和顺反试验证明,两组突变体中各有1株顺式作用突变体(O~c)。这是在鼠伤寒沙门氏菌中首次获得的嘌呤O~c突变体,为研究阻遏蛋白与操纵基因相互作用提供了重要材料。     

Isolation of insertion, deletion, and nonsense mutations of the uracil-DNA glycosylase (ung) gene of Escherichia coli K-12.

Two uracil-DNA glycosylase (ung) mutation selection procedures based upon the ability of uracil glycosylase to degrade the chromosomes of organisms containing uracil-DNA were devised to obtain a collection of well-defined ung alleles. In an enrichment procedure, lysogens were selected from Escherichia coli cultures infected with lambda pKanr phage containing uracil in their DNA. (These uracil-DNA phage were prepared by growth on host cells deficient in both dUTPase and uracil-DNA glycosylase.) The lysogenic Kanr population was enriched for uracil glycosylase-deficient mutants by a factor of 10(4). In a phage suicide selection procedure, lambda pung+ phage were unable to form plaques on dut ung cells containing uracil-DNA in their chromosomes, and all of the progeny were lambda pung-. Deletion, insertion (ung::Mu and ung::Tn10), nonsense, and missense mutants were isolated by using these procedures. Extracts of three insertion mutants contained no detectable enzyme activity. All of the other mutant isolates had less than 1% of the normal uracil glycosylase specific activity. The previously studied ung-1 allele, which was derived by N-methyl-N'-nitro-N-nitrosoguanidine mutagenesis, produced about 0.02% of the normal amount of uracil glycosylase activity. No significant phenotypic differences between ung-1 and ung::Tn10 alleles were observed. Variations of the lysogen selection procedure may be helpful for isolating other DNA glycosylase mutations in E. coli and other organisms.     

A collection of strains containing genetically linked alternating antibiotic resistance elements for genetic mapping of Escherichia coli.

We present a collection of 182 isogenic strains containing genetically linked antibiotic resistance elements located at approximately 1-min intervals around the Escherichia coli chromosome. At most positions both Tn10 (Tetr) and TN10kan (Kanr) elements are available, so that the collection contains a linked set of alternating antibiotic resistance markers. The map position of each insertion has been aligned to the E. coli genetic map as well as to the Kohara ordered clone bank. These strains are designed to be used in a rapid two-step mapping system in E. coli. In the first step, the mutation is localized to a 5- to 15-min region of the chromosome by Hfr mapping with a set of Hfr strains containing either Tn10 or Tn10kan elements located 20 min from their respective origins of transfer. In the second step, the mutation is localized to a 1-min region by P1 transduction, with a collection of isogenic insertion strains as donors. We discuss the uses of this collection of strains to map and eventually to clone a variety of mutations in E. coli.     

High-level resistance to mecillinam produced by inactivation of soluble lytic transglycosylase in Salmonella enterica serovar Typhimurium

By screening for high-level mecillinam resistant derivatives of a low-level resistant strain (cysB403 galE1922 relA21::Tn10) of Salmonella enterica serovar Typhimurium, a MudJ insertion in the gene for soluble lytic transglycosylase (slt) was isolated. This insertion (slt-1::MudJ) increased the resistance to mecillinam of cysB and cysE strains (MIC: about 20-40 microg mL(-1)) to a strikingly high level (MIC: 160 microg mL(-1)). As in Escherichia coli K-12, the slt mutation slightly increased the sensitivity of the wild type and of several strains that carried mutations that did not increase mecillinam resistance. All the strains acquired a spherical cell shape when treated with mecillinam. The effect of slt-1::MudJ was limited to mecillinam, the response to several other antibiotics remaining unaltered by the insertion. The results presented in this paper demonstrate that soluble lytic transglycosylase performs an important role in the response to mecillinam, which only becomes evident when failure of CysB/CysE function causes medium-level resistance. The results also suggest that soluble lytic transglycosylase interacts with, and is partially inhibited by normal lipopolysaccharide.     

Mutants of Escherichia coli defective for replicative transposition of bacteriophage Mu.

We isolated 142 Hir- (host inhibition of replication) mutants of an Escherichia coli K-12 Mu cts Kil- lysogen that survived heat induction and the killing effect of Mu replicative transposition. All the 86 mutations induced by insertion of Tn5 or a kanamycin-resistant derivative of Tn10 and approximately one-third of the spontaneous mutations were found by P1 transduction to be linked to either zdh-201::Tn10 or Tn10-1230, indicating their location in or near himA or hip, respectively. For a representative group of these mutations, complementation by a plasmid carrying the himA+ gene or by a lambda hip+ transducing phage confirmed their identification as himA or hip mutations, respectively. Some of the remaining spontaneously occurring mutations were located in gyrA or gyrB, the genes encoding DNA gyrase. Mutations in gyrA were identified by P1 linkage to zei::Tn10 and a Nalr gyrA allele; those in gyrB were defined by linkage to tna::Tn10 and to a gyrB(Ts) allele. In strains carrying these gyrA or gyrB mutations, pBR322 plasmid DNA exhibited altered levels of supercoiling. The extent of growth of Mu cts differed in the various gyrase mutants tested. Phage production in one gyrA mutant was severely reduced, but it was only delayed and slightly reduced in other gyrA and gyrB mutants. In contrast, growth of a Kil- Mu was greatly reduced in all gyrase mutant hosts tested.     

鼠伤寒沙门氏菌维生素B2生物合成的调节

7 independent rib genes fusions with MudJ (lacZ, Kanr) were isolated by transposon MudJ mutagenesis in Salmonella typhimurium. 5 of them are blue on the X-gal plate, and the beta-galactosidase activity of the cells grown in E medium containing various concentration of riboflavin were assayed. The results showed that the expression of rib gene are not repressed by riboflavin. It appears to be synthesized constitutively in Salmonella typhimurium.     

Genetic evidence for a repressor of synthesis of cytosine deaminase and purine biosynthesis enzymes in Escherichia coli.

Addition of purines to the growth medium of Escherichia coli represses synthesis of cytosine deaminase (codA) and enzymes of purine de novo synthesis. After Tn10 mutagenesis, mutants displaying derepressed levels of cytosine deaminase in the presence of hypoxanthine were isolated. One of these had simultaneously acquired resistance to the hypoxanthine analog 6-mercaptopurine. The mutation purR6::Tn10 was shown to affect de novo synthesis of the purine enzymes glutamine phosphoribosylpyrophosphate amidotransferase (purF) and phosphoribosyl glycinamide synthetase (purD). The mutation was mapped by P1 transduction at 36 min on the E. coli linkage map. A plasmid containing the purR region was obtained by complementation of the purR6::Tn10 mutation. By comparing the restriction maps of the cloned fragment and the E. coli chromosome, the purR gene was found to be located very close to the lpp gene (36.3 min).