his-Linked hydrogen sulfide locus of Salmonella typhimurium and its expression in Escherichia coli.

A his-linked H2S locus of Salmonella typhimurium has been further defined by direct isolation of H2S mutants. Expression of this locus in Escherichia coli has been demonstrated.     

Genetic Locus of a Gene Affecting Leucine Transport in Salmonella typhimurium

By using a series of deletion mutations in the region of the tryptophan operon, it has been shown that a gene governing the transport of leucine maps on the side of the chr locus distal to the trp operon.     

Orientation of the deo Genes and the serB Locus in Salmonella typhimurium

In Salmonella typhimurium, the order of the deo genes with respect to the serB locus has been determined as deoC-deoA-deoB-deoD-serB-thr.     

flrB, a Regulatory Locus Controlling Branched-Chain Amino Acid Biosynthesis in Salmonella typhimurium

Salmonella typhimurium strain CV123 (ara-9 gal-205 flrB1), isolated as a mutant resistant to trifluoroleucine, has derepressed and constitutive levels of enzymes forming branched-chain amino acids. This strain grows more slowly than the parent at several temperatures, both in minimal medium and nutrient broth. It overproduces and excretes sizeable amounts of leucine, valine, and isoleucine in comparison with the parental strain. Both leuS (coding for leucyl-transfer ribonucleic acid [tRNA]synthetase) and flrB are linked to lip (min 20 to 25) by P1 transduction, whereas only leuS is linked to lip by P22 transduction. Strain CV123 containing an F' lip(+) episome from Escherichia coli has repressed levels of leucine-forming enzymes, indicating that flrB(+) is dominant to flrB. Leucyl-tRNA synthetase from strain CV123 appears to be identical to the leucyl-tRNA synthetase in the parent. No differences were detected between strain CV123 and the parent with respect to tRNA acceptor activity for a number of amino acids. Furthermore, there was no large difference between the two strains in the patterns of leucine tRNA isoaccepting species after fractionation on several different columns. Several other flrB strains exhibited temperature-sensitive excretion of leucine, i.e., they excreted leucine at 37 C but not 25 C. In one such strain, excretion at 37 C was correlated with derepression of some enzymes specified by ilv and leu. These latter results suggest that flrB codes for a protein.     

Chromosome Replication in Salmonella typhimurium

The replication of the Salmonella typhimurium chromosome was studied. As with E. coli 15T(-), replication was sequential. After amino acid starvation, replication proceeded from a unique and heritable region of the chromosome. 5-Bromouracil, when substituted for thymine, did not disturb the sequence of replication nor did it initiate extra replication cycles. By labeling the origin and the terminus of the chromosome with (3)H- and (14)C-thymine, respectively, it was possible to determine that the rate of chain elongation decreases as the growth rate decreases. No gap in the replication cycle could be observed.     

L-Rhamnose utilisation in Salmonella typhimurium

L-Rhamnose is degraded by strains of Salmonella typhimurium by isomerisation to L- rhamnulose , phosphorylation to L- rhamnulose -1-phosphate and cleavage to lactaldehyde and dihydroxyacetone phosphate. The enzymes involved are, respectively, rhamnose isomerase ( RhaI ), rhamnulokinase ( RhuK ) and an aldolase (Ald). Strains able to grow rapidly on L-rhamnose contained a high-affinity uptake system for 3H-L-rhamnose that was induced by L-rhamnose and repressed by D-glucose. The synthesis of RhaI and RhuK was also induced by L-rhamnose but was not repressed by D-glucose. The synthesis of Ald was constitutive. Data are presented on some strains which grow very slowly on L-rhamnose and on others which do not utilise it.     

D-Mannitol utilization in Salmonella typhimurium

A biochemical and genetic analysis of d-mannitol metabolism in Salmonella typhimurium indicates that d-mannitol is phosphorylated by the phosphoenolpyruvate-dependent phosphotransferase system. d-Mannitol-1-phosphate is converted to d-fructose-6-phosphate by mannitol-1-phosphate dehydrogenase. Two classes of mannitol mutants are described. Both map at about 115 min on the Salmonella chromosome. Mutants missing mannitol-1-phosphate dehydrogenase activity are mannitol sensitive; i.e., either growth is inhibited or the cells are lysed in the presence of mannitol. In a strain missing adenyl cyclase activity, the mannitol genes require exogenous cyclic adenosine-3',5'-monophosphate for expression.     

L-Rhamnose utilisation in Salmonella typhimurium

A khy , M.T., B rown , C.M. & O ld , D.C. 1984. L-Rhamnose utilisation in Salmonella typhimurium. Journal of Applied Bacteriology 56 , 269–274.
L-Rhamnose is degraded by strains of Salmonella typhimurium by isomerisation to L-rhamnulose, phosphorylation to L-rhamnulose-1-phosphate and cleavage to lac-taldehyde and dihydroxyacetone phosphate. The enzymes involved are, respectively, rhamnose isomerase (Rhal), rhamnulokinase (RhuK) and an aldolase (Ald). Strains able to grow rapidly on L-rhamnose contained a high-affinity uptake system for ³H-L-rhamnose that was induced by L-rhamnose and repressed by D-glucose. The synthesis of Rhal and RhuK was also induced by L-rhamnose but was not repressed by D-glucose. The synthesis of Ald was constitutive. Data are presented on some strains which grow very slowly on L-rhamnose and on others which do not utilise it.     

Flagellar assembly in Salmonella typhimurium

The bacterial flagellum is a motility apparatus in which a long helical filament - the propeller - is driven by a rotary motor embedded in the cell surface. Out of more than 40 genes required for construction of a fully functional flagellum in Salmonella typhimurium, only 18 gene products have been identified in the mature structure. Some other flagellar proteins play logistical roles during construction, which involves the selective export of flagellar components through a central hole in the flagellum. The whole structure is constructed from base to tip by linear assembly; that is, by adding new components on the growing end, resulting in the distal growth of each substructure. Components of the substructures do not necessarily self-assemble, but often demand the help of other proteins. Recent progress in the understanding of flagellar assembly, which has been most extensively studied in S. typhimurium, is reviewed.     

Oxygen regulation in Salmonella typhimurium

Regulation by oxygen of the peptidase T (pepT) locus of Salmonella typhimurium was studied by measuring beta-galactosidase levels in strains containing a pepT::Mu d1(Apr lac) operon fusion. beta-Galactosidase was induced in anaerobic cultures and late-exponential and stationary-phase aerated cultures. Peptidase T activity also was induced under these growth conditions. pepT+ but not pepT strains will utilize as amino acid sources the tripeptides Leu-Leu-Leu and Leu-Gly-Gly only when grown anaerobically. Mutations at two loci, oxrA and oxrB (oxygen regulation) prevent induction of the pepT locus. The oxrA locus is homologous to the fnr locus of Escherichia coli. We have isolated 12 independent Mu d1 insertions (oxd::Mu d1, oxygen dependent) that show induction of beta-galactosidase in anaerobic cultures and stationary-phase aerated cultures. These insertions fall into nine classes based on map location. All of the oxd::Mu d1 insertions are regulated by oxrA and oxrB and therefore define a global regulon that responds to oxygen limitation.     

Unsuspected prophage-like elements in Salmonella typhimurium

We present evidence for the existence of two large (approximately 50 kb) excisable segments in the chromosome of Salmonella typhimurium. The two elements--designated Gifsy-1 and Gifsy-2--cover, respectively, the 57 units and the 24 units of the genetic map where they contribute indicative rare restriction sites. The two elements are closely interrelated and both contain a region of sequence similarity to the recE locus of the Rac prophage of Escherichia coli. Mutations within this region of Gifsy-1 yield the classical 'Sbc' phenotype: they suppress the recombination defect of recB mutants, apparently by activating a normally silent recE-like gene. At the same time, these 'sbcE' mutations activate a Xis-type function that promotes excision of one or other of the two elements. Predictably, curing of Gifsy-1 results in the loss of recB mutant suppression. Surprisingly, the suppressor phenotype is also lost in cells cured for Gifsy-2 even though the Gifsy-1-associated sbcE mutation is still present. Moreover, the excision frequency of Gifsy-1 drops dramatically in Gifsy-2-cured cells. Thus, both elements must co-operate in the activation of recombination and excision functions. Overall, the data presented here suggest that Gifsy-1 and Gifsy-2 are cryptic prophages. They are distinct from previously described Fels prophages. Unlike Fels, they are not specific to S. typhimurium strain LT2 since they are both also found in a virulent S. typhimurium isolate (ATCC 14028s).     

Psoralen photomutagenic specificity in Salmonella typhimurium

The cytotoxic and mutagenic specificity of two therapeutically employed psoralens was examined in several Ames Salmonella typhimurium strains with near ultraviolet light (UVA, 320–400 nm) activation. Photomutagenic activity of 8-methoxypsoralen (8MOP) and 4,5′,8-trimethylpsoralen (TMP) was found to be sequence-specific, and additionally was dependent on the level of DNA-repair proficiency. Base-pair substitution photomutagenesis in hisG46 appeared to require plasmid pKM101-mediated “error-prone” repair. Frameshift photomutagenesis was observed in all hisC3076 strains but not in hisD3052 strains. Frameshift mutagenic activity in hisC3076 was enhanced in the absence of uvrB excision repair and increased further by plasmid pKM101. Phototoxicity was essentially identical in hisC3076, hisD3052 and hisG46 strains; uvrB⁻ excision-repair-deficient bacteria were considerably more susceptible to lethal effects than wild-type parental strains, while the presence of pKM101 had no apparent effect on survival. Finally, the data show that psoralens are potent frameshift photomutagens in Salmonella hisC3076 strains and demonstrate the potential utility of these strains in evaluating photomutagenic and phototoxic activity of new furocoumarin derivatives.     

Slow motile mutant in Salmonella typhimurium

Enomoto, Masatoshi (National Institute of Genetics, Misima, Japan). Slow motile mutant in Salmonella typhimurium. J. Bacteriol. 90:1696-1702. 1965.-A slow motile mutant, SJ399, was isolated from a wild-type strain of Salmonella typhimurium TM2. The mutant was as motile as the wild type in broth culture at 37 C. However, on semisolid medium it produced a much narrower swarming band than TM2. The motility of this mutant was hindered by the viscosity of semisolid medium. H antigenicity and morphological characters of flagella of the mutant were the same as those of the wild type. The motility phage, chi, responded differently to SJ399 and the wild type. Plaques of SJ399 were small and cloudy, whereas on the wild type they were large and clear. The efficiency of plating on SJ399 was 0.36 as compared with 1 with the wild type. Stained preparations revealed that the mutant had about one-third the number of flagella of the wild type. The reduction of the number of flagella also was ascertained by biochemical measurement of flagellar protein which was purified after deflagellation from cells. The content of flagellin in SJ399 was about 32% of that of the wild type. Phage P22-mediated transductions from SJ399 to nonflagellated (fla(-)) and paralyzed (mot(-)) mutants showed that the mutant SJ399 complements seven fla(-) and three mot(-) strains which are representative mutants of flagellation and motility cistrons, respectively. The mutation site of SJ399 was cotransduced with both motA and B cistrons. The two point cross tests between SJ399 and mot mutants revealed that the mutation site of SJ399 is located in the motB cistron. The insertion of the genetic region containing the mutation site of SJ399 to the motB cistron is discussed in relation to intracistronic complementation.