通过分散生长诱变提高黄色粘球菌 HW-1 的遗传操作的细胞特性。

Improving cellular properties for genetic manipulation by dispersed growing mutagenesis in Myxococcus fulvus HW-1.

机构信息

Shandong University, Jinan, People's Republic of China.

出版信息

Curr Microbiol. 2010 Jun;60(6):393-9. doi: 10.1007/s00284-009-9554-0. Epub 2009 Dec 10.

PMID:19998037

Abstract

One of the key limitations to genetic manipulation in myxobacteria is that the cells grow in clumps in liquid. A salt-tolerant strain HW-1 of Myxococcus fulvus was treated with UV irradiation and produced a completely dispersedly growing mutant UV684. There were no significant differences between the parent HW-1 and the mutant UV684 in terms of salt-tolerant growth. The mutant UV684 and the parent strain had the similar abilities of the fruiting body formation and S motility. Interestingly, the mutant exhibited high transformation/transposition efficiency with 10(5)-10(6) colony-forming units per microg DNA, which was about 10(3)-10(5) fold higher than HW-1. The results indicate that the mutation that led to dispersed growth in the UV684 mutant strain had a few impacts on social behavior, but greatly facilitated molecular genetic manipulation.

摘要

在粘细菌的遗传操作中，一个主要的限制因素是细胞在液体中聚集成团。我们用紫外线照射耐盐型粘细菌金黄粘球菌 HW-1，得到了一个完全分散生长的突变体 UV684。在耐盐生长方面，突变体 UV684 和亲株 HW-1 没有明显差异。突变体 UV684 和亲株具有相似的形成子实体和 S 运动的能力。有趣的是，突变体的转化/转座效率很高，每微克 DNA 有 10(5)-10(6)个集落形成单位，比 HW-1 高约 10(3)-10(5)倍。结果表明，导致 UV684 突变体分散生长的突变对社会行为的影响很小，但极大地促进了分子遗传操作。

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通过分散生长诱变提高黄色粘球菌 HW-1 的遗传操作的细胞特性。

Improving cellular properties for genetic manipulation by dispersed growing mutagenesis in Myxococcus fulvus HW-1.

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通过分散生长诱变提高黄色粘球菌 HW-1 的遗传操作的细胞特性。

Improving cellular properties for genetic manipulation by dispersed growing mutagenesis in Myxococcus fulvus HW-1.

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