Pseudomonas stutzeri isolate rapidly reduced both selenite and selenate ions to elemental selenium at initial concentrations of both anions of up to 48.1 mM. Optimal selenium reduction occurred under aerobic conditions between pH 7.0 and 9.0 and at temperatures of 25 to 35°C. Reduction of both selenite and selenate was unaffected by a number of anions except for sulfite, chromate, and tungstate ions, which inhibited both growth and reduction.
pigs with diarrhea were examined for serogroup and fimbrial antigen F4 (K88) production. Four main patterns of isolation of the various serogroups were observed, depending on the ages of the pigs from which isolates were obtained and the production of F4. In pattern I, serogroups 08:K"S16", 09:K35, 09/0101:K30, 09/0101:K103, 09 (group), 020:K101, and 064:K"V142" were predominant in pigs aged 0 to 6 days (41.9% of isolates) and were less frequent in pigs aged 7 to 27 days (24.6% of isolates) but were rarely found in pigs aged 28 to 60 days (4.0% of isolates). In pattern II, the F4-associated serogroups 08:K"4627", 0157:K"V17", 0149:K91, and 0147:K89 were predominant in pigs aged 7 to 27 days (29.8% of isolates) and in pigs aged 28 to 60 days (35.0% of isolates). In pattern III, serogroups 08 (group), 0115:K"V165", and 0147:K89 were rarely isolated from pigs aged 0 to 6 days but were equally distributed in pigs aged 7 to 27 days (10.1% of isolates) and in pigs aged 28 to 60 days (10.9% of isolates). In pattern IV, serogroups 0138:K81, 0139:K82, 0141:K85ac, 045:K"E65", and 026:K60 were most frequently isolated in pigs aged 28 to 60 days (19.3% isolates). Over the period from 1979 to 1989, the proportion of isolates belonging to serogroups of pattern II and the proportion of F4 isolates within the serogroup 0157:K"V17" declined, whereas the proportion of isolates of serogroups 0147:K89, 08:K"S16", and 09:K35 increased. For 228 isolates selected from the most important serogroups, good agreement was observed between the results of gene probes and immunofluorescence for the detection of fimbrial antigens F4 (K88), F5 (K99), F6 (987P), and F41 and between the results of gene probes and biological assays for the detection of heat-labile enterotoxin (LT) and heat-stable enterotoxins a and b (STa and STb). The STa gene was mostly associated with isolates of pattern I serogroups, which had the F5, F6, and F41 genes alone or in various combinations. The LT and/or STb genes, with the F4 gene, mostly were observed in isolates of pattern II serogroups. The STb gene alone was observed mostly in isolates of pattern III serogroups, although isolates were negative for all fimbrial antigen genes. Similarly, isolates of pattern IV serogroups were negative for all fimbrial antigen genes and rarely positive for the enterotoxin genes. However, verotoxin production was associated with isolates of serogroups 0138:K81 and 0139:K82. The most important pathotypes among * Corresponding author.
Glucose and mannose are transported in streptococci by the mannose-PTS (phosphoenolpyruvate :mannose phosphotransferase system), which consists of a cytoplasmic IIAB protein, called IIAB Man , and an uncharacterized membrane permease. This paper reports the characterization of the man operon encoding the specific components of the mannose-PTS of Streptococcus salivarius. The man operon was composed of four genes, manL, manM , manN and manO. These genes were transcribed from a canonical promoter (Pman) into a 36 kb polycistronic mRNA that contained a 5'-UTR (untranslated region). The predicted manL gene product encoded a 355 kDa protein and contained the amino acid sequences of the IIA and IIB phosphorylation sites already determined from purified S. salivarius IIAB
Two of 49 cytolethal distending toxin-producing strains of Escherichia coli isolated from human stools contained the gene coding for heat-stable enterotoxin b (STb), as detected by a colony hybridization assay. The STb gene was found to be on a 70-kb plasmid also coding for heat-labile enterotoxin (pLT-I). Restriction endonuclease analysis showed the STb gene from human isolates to be similar to the STb gene found in porcine strains. Moreover, by enzymatic amplification based on oligonucleotide primers designed from a porcine STb sequence, the expected portion of the STb gene was amplified for the human E. coli strains. The STb enterotoxin from these strains was bioactive in rat jejunal loops and was detected with an enzyme-linked immunosorbent assay by using polyclonal antiserum raised against purified porcine STb toxin.
Previous studies have suggested that the phosphoenolpyruvate:mannose phosphotransferase system of Streptococcus salivarius consists of a nonphosphorylated enzyme II domain that functions in tandem with a separate enzymatic complex called III(Man). The III(Man) complex is believed to be composed of two protein dimers with molecular masses of approximately 72 kDa. Analysis of these proteins by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate has indicated that one dimer is composed of two 38.9-kDa subunits called IIIH(Man), and the other of two 35.2-kDa subunits called IIIL(Man). This study was undertaken to determine (1) the number and nature of the phosphorylated residue(s) on IIIH(Man) and IIIL(Man) and the phosphorylation sequence allowing the transfer of the phosphoryl group from HPr(His approximately P) to the mannose:PTS substrates; (2) whether IIIH(Man) and IIIL(Man) originate from two different genes or result from a posttranslational modification; and (3) whether these two proteins are involved in the phosphorylation of 2-deoxyglucose, a substrate of the phosphoenolpyruvate:mannose phosphotransferase system. We showed that both IIIH(Man) and IIIL(Man) were phosphorylated on two histidine residues. One phosphate bond was heat-labile (phosphorylation at the N1 position of the imidazole ring), while the second was heat-resistant (phosphorylation at the N3 position of the imidazole ring). The sequence of the first phosphorylation site was deduced by comparing the N-terminal amino acid sequence of both forms of III(Man) with IIA domains of the EII-mannose family. The sequences of both forms were identical over the 15 first amino acids, that is, MIGIIIASHGKFAEG. The sequence of the second phosphorylation site was determined for IIIL(Man) as IHGQVATNxTP. Hence, IIIH(Man) and IIIL(Man) are PTS proteins of the IIAB type and should be renamed IIABH(Man) and IIABL(Man). IIABH(Man) and IIABL(Man) had different peptide profiles after digestion with proteases, indicating that these two proteins are encoded by two different genes. In vitro PEP-dependent phosphorylation assays conducted with a spontaneous mutant devoid of both forms of IIAB(Man) suggested that the phosphoenolpyruvate:mannose phosphotransferase system of S. salivarius is composed of an uncharacterized nonphosphorylated membrane component that works in tandem with IIABL(Man). The physiological functions of IIABH(Man) remain unknown.
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