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嗜甲基甲基ophilus甲基otrophus W3A1-NS中甲胺利用(mau)基因的组织。

Organization of the methylamine utilization (mau) genes in Methylophilus methylotrophus W3A1-NS.

作者信息

Chistoserdov A Y, McIntire W S, Mathews F S, Lidstrom M E

机构信息

W. M. Keck Laboratories 138-78, California Institute of Technology, Pasadena 91125.

出版信息

J Bacteriol. 1994 Jul;176(13):4073-80. doi: 10.1128/jb.176.13.4073-4080.1994.

DOI:10.1128/jb.176.13.4073-4080.1994
PMID:8021188
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC205606/
Abstract

The organization of genes involved in utilization of methylamine (mau genes) was studied in Methylophilus methylotrophus W3A1. The strain used was a nonmucoid variant termed NS (nonslimy). The original mucoid strain was shown to be identical to the NS strains on the basis of chromosomal digest and hybridization patterns. An 8-kb PstI fragment of the chromosome from M. methylotrophus W3A1-NS encoding the mau genes was cloned and a 6,533-bp region was sequenced. Eight open reading frames were found inside the sequenced area. On the basis of a high level of sequence identity with the Mau polypeptides from Methylobacterium extorquens AM1, the eight open reading frames were identified as mauFBEDAGLM. The mau gene cluster from M. methylotrophus W3A1 is missing two genes, mauC (amicyanin) and mauJ (whose function is unknown), which have been found between mauA and mauG in all studied mau gene clusters. Mau polypeptides sequenced so far from five different bacteria show considerable identity. A mauA mutant of M. methylotrophus W3A1-NS that was constructed lost the ability to grow on all amines as sources of nitrogen but still retained the ability to grow on trimethylamine as a source of carbon. Thus, unlike M. extorquens AM1 and Methylobacillus flagellatum KT, M. methylotrophus W3A1-NS does not have an additional methylamine dehydrogenase system for amine oxidation. Using a promoter-probe vector, we identified a promoter upstream of mauF and used it to construct a potential expression vector, pAYC229.

摘要

对嗜甲基甲基ophilus甲基otrophus W3A1中参与甲胺利用的基因(mau基因)的组织进行了研究。所使用的菌株是一种非黏液变体,称为NS(不黏糊)。基于染色体消化和杂交模式,显示原始黏液菌株与NS菌株相同。克隆了来自嗜甲基甲基ophilus W3A1-NS染色体的一个8 kb PstI片段,该片段编码mau基因,并对一个6533 bp的区域进行了测序。在测序区域内发现了8个开放阅读框。基于与来自嗜甲基甲基杆菌AM1的Mau多肽的高度序列同一性,这8个开放阅读框被鉴定为mauFBEDAGLM。嗜甲基甲基ophilus W3A1的mau基因簇缺少两个基因,即mauC(含铜蓝蛋白)和mauJ(其功能未知),在所有研究的mau基因簇中,这两个基因位于mauA和mauG之间。到目前为止,从五种不同细菌中测序的Mau多肽显示出相当高的同一性。构建的嗜甲基甲基ophilus W3A1-NS的mauA突变体失去了以所有胺作为氮源生长的能力,但仍保留了以三甲胺作为碳源生长的能力。因此,与嗜甲基甲基杆菌AM1和鞭毛甲基杆菌KT不同,嗜甲基甲基ophilus W3A1-NS没有用于胺氧化的额外甲胺脱氢酶系统。使用启动子探针载体,我们在mauF上游鉴定了一个启动子,并使用它构建了一个潜在的表达载体pAYC229。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4de9/205606/3e4571fbc05f/jbacter00031-0263-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4de9/205606/3e4571fbc05f/jbacter00031-0263-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4de9/205606/3e4571fbc05f/jbacter00031-0263-a.jpg

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