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Bismuth subsalicylate (BSS) is a compound without significant aqueous solubility that is widely used for the treatment of gastrointestinal disorders. BSS was able to bind bacteria of diverse species, and these bound bacteria were subsequently killed. A 4-log10 reduction of viable bacteria occurred within 4 h after a 10 mM aqueous suspension of BSS was inoculated with 2 x 10(6) Escherichia coli cells per ml. Binding and killing were dependent on the levels of inoculated bacteria, and significant binding but little killing of the exposed bacteria occurred at an inoculum level of 2 x 10(9) E. coli per ml. Intracellular ATP decreased rapidly after exposure of E. coli to 10 mM BSS and, after 30 min, was only 1% of the original level. Extracellular ATP increased after exposure to BSS, but the accumulation of extracellular ATP was not sufficient to account for the loss of intracellular ATP. The killing of bacteria exposed to BSS may have been due to cessation of ATP synthesis or a loss of membrane integrity. Bactericidal activity of BSS was also investigated in a simulated gastric juice at pH 3. Killing of E. coli at this pH was much more rapid than at pH 7 and was apparently due to salicylate released by the conversion of BSS to bismuth oxychloride. It is proposed that the binding and killing observed for BSS contribute to the efficacy of this compound against gastrointestinal infections such as traveler's diarrhea.

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Conjugal Transfer of the Gonococcal Penicillinase Plasmid

Eisenstein

Sox

Biswas

et al. 1977

Science

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Factors affecting genetic transformation of Neisseria gonorrhoeae

Biswas¹,

Sox²,

Blackman³

et al. 1977

J Bacteriol

138

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Piliated gonococci were competent in genetic transformation in all stages of growth in minimal and enriched media, but nonpiliated cells were almost totally incompetent. Uptake of deoxyribonucleic acid into a deoxyribonuclease-insensitive state was observed only in competent piliated cells. Competence was not affected by washing of competent cells or treatment of competent cells with proteolytic enzymes. Expression of competence required presence of any of several different monovalent or divalent cations, as well as a utilizable source of energy. Efforts to produce genotypically or phenotypically competent derivatives of nonpiliated cells were unsuccessful. These experiments are consistent with the idea that pili may play a role in the irreversible uptake of transforming deoxyribonucleic acid by the gonococcus, but fail to provide evidence for other types of competence factors.

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Conjugative plasmids in Neisseria gonorrhoeae

Sox¹,

Mohammed²,

Blackman³

et al. 1978

J Bacteriol

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A conjugation system initially discovered in fl-lactamase-producing gonococci mobilized small non-selftransmissible R plasmids encoding ,8-lactamase (penicillinase) production into other gonococci, Neisseria, and Escherichia coli. This conjugation system was mediated by a separate selftransmissible plasmid of 23.9 x 106 daltons, pFA2. Conjugative plasmids capable of mobilizing R plasmids were also found in nearly 8% of the non-penicillinase-producing gonococci. These were similar to pFA2 in size, buoyant density, and restriction endonuclease digest patterns but were less efficient than pFA2 in mobilization of the penicillinase plasmid pFA3. The presence of conjugative plasmids in gonococci isolated before the appearance of penicillinase-producing strains indicates that a conjugation system for plasmid transfer predated the appearance of R plasmids in gonococci.Recently, strains of Neisseria gonorrhoeae with plasmid-mediated ,f-lactamase (penicillin-278 on July 16, 2020 by guest

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Transformation-derived Neisseria gonorrhoeae plasmids with altered structure and function

Sox¹,

Mohammed²,

Sparling³

1979

J Bacteriol

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Plasmid deoxyribonucleic acid from Neisseria gonorrhoeae containing a 7.1kilobase (kb) (4.7-megadalton) penicillinase (Pcr) plasmid transformed homogenic gonococci to penicillinase production at a low frequency. About 25% of the penicillinase-producing gonococcal transformants contained Pc' plasmids which were either larger or smaller than the 7.1 kb donor plasmid; these Pcr plasmids varied in size from 3.45 to 42 kb. Some of these altered plasmids differed from the donor plasmid in stability or in frequency of mobilization by a 36-kb (24-megadalton) conjugative plasmid. A restriction endonuclease cleavage map of the 7.1kilobase Pcr plasmid and several of the smaller deleted plasmids was constructed. The most common size of altered Pc' plasmid was 5.1 kb (3.4 megadaltons). A Pc' plasmid isolated from a gonococcus in London, England, was identical with these 5.1-kb transformant plasmids in both size and restriction endonuclease cleavage profiles, suggesting that the 5.1-kb pcr plasmid could have arisen from a 7.1-kb Pcr plasmid by a transfonnation-associated deletion in nature.

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T E Sox

Binding and killing of bacteria by bismuth subsalicylate

Conjugal Transfer of the Gonococcal Penicillinase Plasmid

Factors affecting genetic transformation of Neisseria gonorrhoeae

Conjugative plasmids in Neisseria gonorrhoeae

Transformation-derived Neisseria gonorrhoeae plasmids with altered structure and function

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