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通过随机插入诱变分离产甲烷古菌马氏甲烷球菌的乙酸营养缺陷型菌株。

Isolation of acetate auxotrophs of the methane-producing archaeon Methanococcus maripaludis by random insertional mutagenesis.

作者信息

Kim W, Whitman W B

机构信息

Department of Microbiology, University of Georgia, Athens, Georgia 30602-2605, USA.

出版信息

Genetics. 1999 Aug;152(4):1429-37. doi: 10.1093/genetics/152.4.1429.

DOI:10.1093/genetics/152.4.1429
PMID:10430573
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1460683/
Abstract

To learn more about autotrophic growth of methanococci, we isolated nine conditional mutants of Methanococcus maripaludis after transformation of the wild type with a random library in pMEB.2, a suicide plasmid bearing the puromycin-resistance cassette pac. These mutants grew poorly in mineral medium and required acetate or complex organic supplements such as yeast extract for normal growth. One mutant, JJ104, was a leaky acetate auxotroph. A plasmid, pWDK104, was recovered from this mutant by electroporation of a plasmid preparation into Escherichia coli. Transformation of wild-type M. maripaludis with pWDK104 produced JJ104-1, a mutant with the same phenotype as JJ104, thus establishing that insertion of pWDK104 into the genome was responsible for the phenotype. pWDK104 contained portions of the methanococcal genes encoding an ABC transporter closely related to MJ1367-MJ1368 of M. jannaschii. Because high levels of molybdate, tungstate, and selenite restored growth to wild-type levels, this transporter may be specific for these oxyanions. A second acetate auxotroph, JJ117, had an absolute growth requirement for either acetate or cobalamin, and wild-type growth was observed only in the presence of both. Cobinamide, 5', 6'-dimethylbenzimidazole, and 2-aminopropanol did not replace cobalamin. This phenotype was correlated with tandem insertions in the genome but not single insertions and appeared to have resulted from an indirect effect on cobamide metabolism. Plasmids rescued from other mutants contained portions of ORFs denoted in M. jannaschii as endoglucanase (MJ0555), transketolase (MJ0681), thiamine biosynthetic protein thiI (MJ0931), and several hypothetical proteins (MJ1031, MJ0835, and MJ0835.1).

摘要

为了更深入了解甲烷球菌的自养生长,我们用携带嘌呤霉素抗性盒pac的自杀质粒pMEB.2中的随机文库转化野生型马氏甲烷球菌后,分离出了9个条件突变体。这些突变体在矿物培养基中生长不佳,正常生长需要乙酸盐或复杂的有机补充物,如酵母提取物。其中一个突变体JJ104是一个渗漏型乙酸盐营养缺陷型。通过将质粒制备物电穿孔导入大肠杆菌,从这个突变体中回收了一个质粒pWDK104。用pWDK104转化野生型马氏甲烷球菌产生了JJ104 - 1,这是一个与JJ104具有相同表型的突变体,从而确定将pWDK104插入基因组是导致该表型的原因。pWDK104包含编码与詹氏甲烷球菌的MJ1367 - MJ1368密切相关的ABC转运蛋白的甲烷球菌基因部分。由于高浓度的钼酸盐、钨酸盐和亚硒酸盐可使生长恢复到野生型水平,这种转运蛋白可能对这些含氧阴离子具有特异性。第二个乙酸盐营养缺陷型JJ117对乙酸盐或钴胺素具有绝对的生长需求,只有在两者都存在时才能观察到野生型生长。钴胺酰胺、5',6'-二甲基苯并咪唑和2-氨基丙醇不能替代钴胺素。这种表型与基因组中的串联插入相关,而与单个插入无关,似乎是对钴胺素代谢的间接影响导致的。从其他突变体中拯救出的质粒包含詹氏甲烷球菌中被标注为内切葡聚糖酶(MJ0555)、转酮醇酶(MJ0681)、硫胺素生物合成蛋白thiI(MJ0931)以及几种假定蛋白(MJ1031、MJ0835和MJ0835.1)的开放阅读框部分。

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