一株突变的嗜盐古菌地中海盐杆菌能够保留抑制其他嗜盐古菌生长的能力。

A halocin-H4 mutant Haloferax mediterranei strain retains the ability to inhibit growth of other halophilic archaea.

机构信息

Department of Molecular Microbiology and Biotechnology, George S. Wise Faculty of Life Sciences, Tel Aviv University, Tel Aviv, Israel,

出版信息

Extremophiles. 2013 Nov;17(6):973-9. doi: 10.1007/s00792-013-0579-8. Epub 2013 Sep 14.

DOI:10.1007/s00792-013-0579-8

PMID:24037372

Abstract

Many members of the Halobacteriaceae were found to produce halocins, molecules that inhibit the growth of other halophilic archaea. Halocin H4 that is produced by Haloferax mediterranei and inhibits the growth of Halobacterium salinarum is one of the best studied halocins to date. The gene encoding this halocin had been previously identified as halH4, located on one of Hfx. mediterranei megaplasmids. We generated a mutant of the halH4 gene and examined the killing ability of the Haloferax mediterranei halH4 mutant with respect to both Halobacterium salinarum and Haloferax volcanii. We showed that both wild-type Hfx. mediterranei and the halH4 mutant strain efficiently inhibited the growth of both species, indicating halocin redundancy. Surprisingly, the halH4 deletion mutant exhibited faster growth in standard medium than the wild type, and is likely to have a better response to several nucleotides, which could explain this phenotype.

摘要

许多盐杆菌科的成员被发现能够产生抑菌素，这种分子可以抑制其他嗜盐古菌的生长。由地中海盐杆菌产生并抑制盐杆菌生长的抑菌素 H4 是迄今为止研究最多的抑菌素之一。编码这种抑菌素的基因先前被鉴定为 halH4，位于地中海盐杆菌的一个巨型质粒上。我们生成了 halH4 基因的突变体，并研究了地中海盐杆菌 halH4 突变体对盐杆菌和沃氏嗜盐球菌的杀伤能力。我们表明，野生型地中海盐杆菌和 halH4 突变菌株都能有效地抑制这两种菌的生长，表明抑菌素有冗余性。令人惊讶的是，halH4 缺失突变体在标准培养基中的生长速度比野生型更快，并且可能对几种核苷酸有更好的反应，这可以解释这种表型。

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一株突变的嗜盐古菌地中海盐杆菌能够保留抑制其他嗜盐古菌生长的能力。

A halocin-H4 mutant Haloferax mediterranei strain retains the ability to inhibit growth of other halophilic archaea.

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