Plasmid-determined alterations of Salmonella typhimurium lipopolysaccharides

Summary Salmonella typhimurium Rc902 infected with derepressed ColIb mutants gave rise to changes in the composition of bacterial lipopolysaccharides (LPS). Bacteria carrying ColIbdrd7, derepressed in transfer, exhibited a marked decrease in the content of all 0-side-chain sugars of LPS. Similar effects were found upon the introduction of R64-11, also derepressed in transfer. In LPS of S. typhimurium containing ColIbdrd2, derepressed in colicin synthesis, a decrease of abequose content associated with an increase of glucose level was observed. Bacteria carrying the wild-type ColIb, the revertant of a drd mutant to the wild type, or the non colicinogenic strain resulting from the elimination of ColIbdrd2, showed no changes in the sugar composition of LPS.     

High efficiency transformation of Salmonella typhimurium and Salmonella typhi by electroporation

Summary Salmonella typhimurium and S. typhi were transformd with high efficiency by electroporation. Transformation efficiencies of up to 10¹⁰ transformants per g of pBR322 were obtained. In contrast to chemical transformation methods, neither the smooth lipopolysaccharide of S. typhimurium nor the Vi capsular polysaccharide of S. typhi greatly affected transformation efficiency. The introduction of a galE mutation slightly improved transformation efficiency in S. typhimurium (< tenfold) while the Vi antigen of S. typhi had no detectable effect. The transformation efficiency of S. typhimurium with DNA derived from Escherichia coli was increased greatly by the removal of the hsd restriction system (100-fold). Under these conditions electroporation can be used for the routine and direct transformation of Salmonella strains with partially purified (alkaline lysis) plasmid DNA from E. coli.     

Envelope mutation promoting autolysis in Salmonella typhimurium

Summary Two strains independently isolated in Salmonella typhimurium display abnormal autolytic activity when nutrient broth becomes alkaline. They also show increased sensitivity to deoxycholate, EDTA, and sodium dodecyl sulfate. Response to acridine orange remains normal. In both strains a single stable mutation is responsible for all the changes. The same gene, called envD, appears to be involved in both mutant strains. envD has been located at minute 33 of the Salmonella genetic map, between markers sucA and nadA, very close to the latter. envD also affects morphological characteristics of the cells. Many mutant cells are shorter than wild type bacteria, and appear frequently associated in short chains of 4 to 10 cells. Furthermore, envD mutants display division by septation under conditions that preclude its observation in wild type strains.Career Investigator of the Consejo Nacional de Investigaciones Científicas y Técnicas, Argentina     

Salmonella typhimurium LT2 metF operator mutations

Summary Using an Escherichia coli lac deletion strain lysogenized with lambda phage carrying a metF-lacZ gene fusion (Flac), in which -galactosidase levels are dependent on metF gene expression, cis-acting mutations were isolated that affect regulation of the Salmonella typhimurium metF gene. The mutations were located in a region previously defined as the metF operator by its similarity to the E. coli metF operator sequence. Regulation of the metF gene was examined by measuring -galactosidase levels in E. coli strains lysogenized with the wild-type Flac phage and mutant Flac phage. The results suggest that the mutations disrupt the methionine control system mediated by the metJ gene product, but not the vitamin B₁₂ control system mediated by the metH gene product. The results also demonstrate that negative control of the metF gene by the metH gene product and vitamin B₁₂ is dependent on a functional metJ gene product.Abbreviations Ap ampicillin - dNTP deoxyribonucleoside triphosphates - GM glucose minimal - Km kanamycin - L-agar Luria agar - LM lactose minimal - SAM s-adenosyl-L-methionine - TPEG phenylethyl -D-thiogalactoside - X-gal 5-bromo-4-chloro-3-indolyl -D-galactopyranoside - [] designates plasmid-carrier state - :: novel joint     

Salmonella typhimurium mutants affecting establishment of lysogeny

Summary Salmonella typhimurium mutants have been isolated in which phage P22 fails to establish lysogeny. These appear to be defective in cAMP metabolism. A phage mutation overcoming the bacterial defect has been mapped between gene c ₁ and gene 12.     

Induction and cleavage of Salmonella typhimurium UmuD protein

Summary Two different chromosomal locations of major genes controlling extreme resistance to potato virus X (PVX) were found by restriction fragment length polymorphism (RFLP) analysis of two populations segregating for the resistance. The resistance geneRx1 mapped to the distal end of chromosome XII, whereasRx2 was located at an intermediate position on linkage group V in a region where reduced recombination and segregation distortion have also been observed. These linkage anomalies were due to abnormal behaviour of the chromosome contributed by the resistant parent P34. The results presented were obtained using two different strategies for mapping genes of unknown location. One approach was the use of probes revealing polymorphic loci spread throughout the genome and resulted in the mapping ofRx1. The second approach was based on the assumption of possible linkage between the resistance gene and clone-specific DNA fragments introduced from a wild potato species.Rx2 was mapped by adopting this strategy.     

Regulation of L-arabinose transport in Salmonella typhimurium LT2

Summary The inducible L-arabinose transport system was characterized in Salmonella typhimurium LT2. Only one L-arabinose transport system with a Km of 2x10^-4 M was identified. The results suggested that araE may be the only gene which codes for L-arabinose transport activity under the conditions tested. An araE-lac fusion strain was used to study the induction of the araE gene. No araE expression was detected when the L-arabinose concentration was lower than 1 mM. The expression of araE reached a maximum in the presence of 50 mM L-arabinose, and was significantly reduced in the presence of D-glucose. Expression of the araBAD and araE genes was coordinately regulated. The concentration of L-arabinose that allowed maximum araBAD gene expression was 50-fold lower in an araE ⁺ strain compared to an araE strain.     

Proline over-production results in enhanced osmotolerance in Salmonella typhimurium

Summary Mutants of S. typhimurium with enhanced osmotolerance were isolated. These mutants were obtained as strains which over-produced proline due to regulatory mutations affecting proline biosynthesis. The mutations are located on FproBA and upon transfer to other S. typhimurium strains, they confer enhanced osmotolerance on the recipients. The osmotolerant mutants not only have higher intracellular proline levels than the osmosensitive parental strain, but the proline levels in the osmotolerant mutants are regulated such that they increase in response to osmotic stress. Possible reasons why elevated proline levels lead to enhanced osmotolerance are discussed.     

Pentachlorophenol-mediated mutagenic synergy with aromatic amines in Salmonella typhimurium

Pentachlorophenol (PCP), a widely used pesticide, enhanced the mutagenic potency of plant- or mammalian-activated 2-aminofluorene (2AF) as well as the direct-acting mutagen 2-acetoxyacetylaminofluorene (2AAAF) when assayed with specific Salmonella typhimurium strains. With 2AF the mutagenic synergy was observed in strains YG1024, TA1538, and MP153. With 2AAAF the PCP-mediated synergy was observed with these strains and with strain TA98/1,8-DNP₆. The synergy was dependent upon the presence of an activated N-acetoxy functional group and was only expressed at the hisD3052 allele and not at the hisG46 allele. Spectrophotometric analysis demonstrated that the rate of degradation of 2AAAF was reduced in the presence of PCP in phosphate buffer or with S. typhimurium cytosol and thus PCP may be affecting the stability of the N-acetoxy group of activated aromatic amines.     

S-adenosylmethionine synthetase in methionine regulatory mutants of Salmonella typhimurium

Summary In wild-type bacteria, S-adenosylmethionine (SAM) synthetase activity was repressed by growth in methionine. MetJ regulatory mutants had elevated activities which did not show this repression. Two metK mutants with normal regulation of the methionine biosynthetic enzymes had elevated Km's (methionine) for SAM synthetase while five metK mutants with constitutive methionine enzymes showed no measurable SAM synthetase activity. One mutant, metK ^X 721, similar in phenotype to these five had a wild-type level of SAM synthetase in conditions where SAM decarboxylase activity was blocked. By using an F-factor carrying the metK region of the genome, this mutant was shown to complement six other metK mutants.These results indicate that SAM or a derivative of it, rather than methionine itself, is the co-repressor of the methionine system, regulatory abnormalities resulting from the absence or reduction of the amount of SAM formed by the SAM synthetase reaction. As SAM is essential for bacteria it is likely that there is some alternative biosynthetic route for SAM.     

The pleiotropic effects of his overexpression in Salmonella typhimurium do not involve AICAR-induced mutagenesis

Inhibition of cell division associated with overexpression of hisH and hisF in Salmonella typhimurium is strongly reminiscent of a cellular response to DNA damage. On these grounds, we investigated the involvement of a metabolite which appeared to represent a possible candidate for an endogenous mutagen: the base analog 5-amino-4-carboxamide imidazole riboside 5-phosphate (AICAR), a by-product of HisH and HisF activity. However, we showed that AICAR is not an endogenous mutagen in S. typhimurium. Other types of DNA damage induced by his overexpression seem also unlikely, since similar mutation rates are found in hisO ⁺ and hisO ^c strains. We also show that AICAR production is not involved in the pleiotropic effects of his overexpression, since these are still observed in strains devoid of AICAR. Thus inhibition of cell division resulting from HisH and HisF overexpression must operate through a mechanism unrelated to the role of these proteins in histidine biosynthesis.     

Isolation and mapping of a uracil-sensitive mutant of Salmonella typhimurium

Summary A uracil-sensitive mutant of Salmonella typhimurium was isolated by diethyl sulfate mutagenesis and penicillin counterselection. This mutation identifies a new Salmonella gene that is well separated from the structural genes for arginine and pyrimidine biosynthesis. The use-1 mutation was located between the ilv gene cluster (isoleucine-valine operon) and hisR (structural gene for histidine tRNA) at 83 map units.     

鼠伤寒沙门菌入侵宿主细胞机制研究进展*

鼠伤寒沙门菌(Salmonella typhimurium)是一种人畜共患的肠道病原菌,可引起肠道炎症。该病原菌主要通过其致病岛(SPIs)编码的III型分泌系统(T3SS)分泌效应因子,包括促炎因子和抗炎因子。其在入侵肠上皮细胞时会释放促炎因子引发炎症反应,同时,为防止促炎因子过度破坏宿主细胞影响菌体的生存和繁殖,鼠伤寒沙门菌会产生一系列抗炎因子来调节细胞内信号通路,与宿主共同繁殖并最终全身扩散造成严重感染。旨在对鼠伤寒沙门菌利用T3SS效应因子入侵并调节宿主细胞信号通路机制进行概述。     

Functional homology of fla genes between Salmonella typhimurium and Escherichia coli

Summary Genetic studies have shown the presence of more than 20 fla genes indispensable for the formation of flagella in Salmonella typhimurium and Escherichia coli. Functional homology of the fla genes in these two bacterial species was examined through intergeneric complementation tests by bacteriophage Pl-mediated transduction from E. coli donors to S. typhimurium recipients. It was found that most of the fla gene products in these two bacterial species were interchangeable and the following correspondence was established (S. typhimurium genes vs. E. coli genes): flaFIV to flaV; flaFV to flaK; flaFVII to flaL; flaFIX to flaM; flaC to flaH; flaM to flaG; flaE to flaI; flaAI to flaN; flaAII·1 to flaB; flaAIII to flaC; flaS to flaO; flaR to flaE; flaQ to flaA; and flaB to flaR. These results suggest that the chromosomal alignment of the functionally homologous genes is very similar in these two bacterial species. Furthermore, five additional fla genes were inferred to exist in E. coli in addition to the fla genes already identified. They were termed flaU, flaX, flaY, flaZ, and flbB (flb is equivalent to fla), which corresponded to flaFI, flaFVI, flaFVIII, flaFX, and flaK of Salmonella in this order. The flaK mutants of E. coli showed no complementation with any of the flaFV, flaFVI, flaFVII, flaFVIII, or flaFIX mutants of Salmonella.     

Cloning of the regulatory locus ompB of Salmonella typhimurium LT-2

Summary We have cloned the complete functional ompB locus of Salmonella typhimurium LT-2 into Escherichia coli K-12 using a cosmid vector and in vitro packaging into . The ompB locus of Salmonella was found to complement both envZ and ompR mutations in E. coli as well as an ompR mutation of Salmonella. The ompR part of the ompB locus was further subcloned into the multicopy plasmid pKN410 as a 1.3 kb fragment. This fragment coded for a single 28.5 kd protein corresponding to about 820 bp in length. Furthermore, the OmpR proteins of S. typhimurium and E. coli were shown to be structurally and functionally highly similar.Abbreviations SDS sedium dodecyl sulfate - kb kilobase pairs - bp base pairs - kd kilodaltons     

鼠伤寒沙门氏菌baeR过表达株的构建及其耐药性

[背景]鼠伤寒沙门氏菌（Salmonella typhimurium）是一种重要的人兽共患病原菌,其多重耐药性问题日益严重,双组分系统可调控鼠伤寒沙门氏菌的耐药性。[目的]通过构建鼠伤寒沙门氏菌baeR过表达株及回补株探究BaeSR双组分系统对鼠伤寒沙门氏菌耐药性的影响。[方法]在BaeSR双组分系统和AcrB外排泵双缺失株（CRΔbaeSRΔacrB）的基础上构建baeR过表达株（CRpbaeRΔbaeSRΔacrB）及baeR回补株（CRcbaeRΔbaeSRΔacrB）,测定双缺失株、回补株和过表达株的最小抑菌浓度（minimum inhibitory concentration,MIC）,并对其生长特性、生物膜形成能力及运动性进行分析。采用转录组学技术筛选与耐药相关的差异表达基因,RT-qPCR验证耐药相关基因。[结果]构建了鼠伤寒沙门氏菌baeR过表达株和baeR回补株。与双缺失株相比,过表达株对氧氟沙星、恩诺沙星、氟苯尼考、乙酰甲喹、头孢他啶、头孢噻呋、阿莫西林和氨苄西林的MIC分别升高2-256倍,对大观霉素、安普霉素的MIC下降了50%;与双缺失株相比,回补株对头孢他啶...     

The role of cAMP in flagellation of Salmonella typhimurium.

A mutational alteration either in adenylate cyclase (cya-) or in cyclic-3'5'-AMP (cAMP) receptor protein (crp-) rendered Salmonella typhimurium incapable of producing flagella. The amount of mRNA specific for flagellin in these mutants was almost negligible when assayed in an in vitro protein synthesizing system. A secondary mutation cfs, partially suppressing the cya- mutation, was identified among the revertants of cya-. A mutation in the same cistron as cfs resulted in a non-flagellate phenotype either by itself or in combination with cfs. The cistron, which was given the gene symbol flaT, was located between flaE and flaL. It was suggested that cAMP receptor protein together with cAMP modulates the gene flaT, which in turn acts as a positive effector on the synthesis of active mRNA specific for flagellin.     

The relationship of two invertible segments in bacteriophage Mu and Salmonella typhimurium DNA

Summary A Mu gin ^- mutant which lacks the function required for inversion of the G segment can be complemented by hybrid plasmids and phages carrying the invertible segment that controls flagellar phase variation in Salmonella typhimurium. This suggests that the same kind of site-specific recombination mechanism is responsible for these inversions. Based on the different features of the two invertible segments we propose a model for their evolutionary relationship.     

Methionine and glutamine transport systems in D-methionine utilising revertants of Salmonella typhimurium

Summary In Salmonella typhimurium, methionine auxotrophs such as metB can use D-methionine as a methionine source. MetP mutations prevent this growth since D-methionine can enter only via the metP high-affinity methionine transport system. D-methionine utilising revertants (Dmu⁺) were selected from metB23 metP760 (HU76) following nitrosoguanidine mutagenesis. The properties of two such revertants, HU206 and HU415, indicated that reversion was not due to backmutation of the metP760 mutation. Genetic analysis indicated that each strain possessed two mutations, designated dmu and gln, in addition to the original metB23 and metP760 mutations.The dmu mutation restores ability to grow on D-methionine, partly restores D- and L-methionine transport activity, and makes the cells particularly sensitive to inhibition by L-glutamine while growing on D but not L-methionine. The growth inhibition by L-glutamine was shown to be caused by competition by L-glutamine for D-methionine transport by the high-affinity methionine system. The gln mutation greatly reduces activity of the high-affinity glutamine transport system. The Dmu⁺ strains are also partly defective in the glutamine low-affinity transport system, possibly because the partially-restored methionine high-affinity system, or a component of this system, functions in the transport of glutamine by its low-affinity system.