A novel marine Bacillus with multiple amino acid analog resistance and selenomethionine-dependent antibiotic productivity.

Journal of marine biotechnology Pub Date : 1998-08-01

Imada, Hotta, Okami

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Abstract

Amino acid analogs (AAA) were used as selective pressures for isolation of marine bacteria with novel physiological properties and as effecters for antibiotic production. Relatively small numbers of isolates were obtained from a minimal medium containing aminoethylcysteine (AC), 3,4-dehydroproline (DP), 5-methyltryptophan (MT), and selenomethionine (SM). These bacteria exhibited a high probability (68%) of antibiotic production in the presence of AAA, which was 10-fold higher than that (7%) in the absence of AAA. Among them, strain 14, obtained as the only SM-resistant and SM-dependent antibiotic (selenohomocystine) producer, was characterized for microbiological properties. It showed taxonomic properties falling into those of the genus Bacillus, required seawater for growth, and exhibited a high level (0.5 mM) of resistance to all the AAAs tested. Neither known Bacillus spp. nor other marine isolates showed such properties. Therefore, the strain 14 appears to be the first marine Bacillus strain with unique AAA resistance and AAA-dependent antibiotic productivity. The AAA-resistance-based strategy was thus demonstrated to be effective for isolation of novel bacteria as well as for screening for antibiotic production.

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具有多种氨基酸类似物抗性和硒代蛋氨酸依赖抗生素生产能力的新型海洋芽孢杆菌。

氨基酸类似物(AAA)被用作分离具有新生理特性的海洋细菌的选择压力和抗生素生产的效应剂。从含有氨基乙基半胱氨酸(AC)、3,4-脱氢脯氨酸(DP)、5-甲基色氨酸(MT)和硒代蛋氨酸(SM)的最小培养基中获得相对少量的分离株。这些细菌在AAA存在时产生抗生素的概率高(68%)，是不存在AAA时的10倍(7%)。其中菌株14是唯一的sm耐药和sm依赖抗生素(硒代同型半胱氨酸)产生菌，其微生物特性被表征。它的分类学特征属于芽孢杆菌属，生长需要海水，对所有被测的AAAs均表现出高水平(0.5 mM)的抗性。无论是已知的芽孢杆菌还是其他海洋分离的芽孢杆菌都没有表现出这种特性。因此，菌株14似乎是第一个具有独特的AAA抗性和AAA依赖性抗生素产量的海洋芽孢杆菌菌株。因此，基于aaa耐药的策略被证明对分离新型细菌以及筛选抗生素生产是有效的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of marine biotechnology

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