S U M M A R YNon-smooth mutants of Salmonella typhimurium strain L T~ with known lipopolysaccharide (LPS) defects were tested for sensitivity to smooth-specific phages (P22 and P22h and a newly isolated phage, 9NA, active on P22 lysogens); Felix 0 phage; and several rough-specific phages including C21. Smooth strains were sensitive only to the smooth-specific and Felix 0 phages. Six rfb mutants (unable to make 0 chains) were sensitive to Felix 0 and all the rough-specific phages except C21 (pattern R-sens). Of nine rfa mutants (presumed to have LPS core defects) four were R-sens, six were resistant to Felix 0 and some rough-specific phages (pattern R-res-I), and one was also resistant to phage Br2 (pattern R-res-a). The phage sensitivity of phosphomannoisomerase (prni) mutants was the same as that of rfb mutants, except that they were partly sensitive to P22h. UDPgalactose-epimerasenegative mutants were sensitive to C21 and various rough-specific phages including Br2 (pattern Epi-I). An rfc mutant (unable to polymerize 0 repeat units) was sensitive only to Felix 0 and P221 (pattern Zsr). A part-rough mutant of class D (with abnormally few 0 chains) was incompletely resistant to smooth-specific phages, resistant to Felix 0 but sensitive to all rough-specific phages except C21 (pattern D-I).Spontaneous and mutagen-induced non-smooth mutants were isolated from LT2 strains with appropriate markers by selection with Felix 0 and/or P22 phage. (One parent strain used was non-lysogenic for Fels 2, for which LT2 wild-type is lysogenic. Lysogeny for Fels 2 did not affect sensitivity to the other phages.) Some mutants gave new sensitivity patterns. Mutants of these and of previously unmapped classes were crossed with smooth Hfr strains. The rfc loci of two mutants and pmi loci of two others were located in the gal-trp segment. Three mutants of pattern R-sens yielded 0-specific hapten but mapped near his; they are believed to be unable to transfer 0 chains from antigen carrier lipid to the LPS core as a result of mutation at rfbT. Six mutants of pattern R-sens were smooth in cultural and serological properties; they mapped near his and are probably leaky rfb mutants. Many mutants had the class D part-rough phenotype, divisible by phage sensitivities into patterns D-I, D-2 and D-3. Mutants of all three classes mapped near xyl; they are likely to be rfa mutants, perhaps leaky, with LPS core defects which hinder but do not prevent attachment of 0 chains. Two classes were sensitive to C21 (Wilkinson & Stocker, 1968): rfaH mutants, of pattern Epi-I, unable to add the main-chain galactose unit of the core; and rfaG mutants, resistant to Br2 (pattern Epi-a), unable to add the proximal glucose unit. Both loci mapped in or near the strA-xyl-metA segment. Several non-smooth mutants did not grow in the presence of bile-salts. Three mutants (rfaF) made LPS deficient of the distal heptose unit; one mutant (rfaE) was unable to add the proximal heptose unit. Both these loci mapped in or near the strA-metA segment.
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Bacterial flagella are potent immunogens and aromatic-dependent (aro) Salmonella as live vaccines evoke humoral and cellular immune responses. Such strains expressing epitopes of protective antigens as inserts in flagellin would provide a novel way to vaccinate against diseases caused by unrelated pathogens. A synthetic oligonucleotide specifying an epitope of cholera toxin subunit B was inserted in a Salmonella flagellin gene. The chimeric flagellin functioned normally and the epitope was expressed at the flagellar surface. Parenteral administration to mice of an aro A flagellin-negative strain of S. dublin expressing the chimeric flagellin gene evoked antibody to cholera toxin.
AND B. A. D. STOCKER. Biosynthetic latency in early stages of deoxyribonucleic acid transformation in Bacillus subtilis. J. Bacteriol. 86:785-796. 1963-In the Bacillus subtilis deoxyribonucleic acid (DNA) transformation system, transformants do not increase in number for
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