大岛栖热菌JL-2和嗜热栖热菌JL-18的基因组分析揭示了碳、氮和硫循环途径。

Thermus oshimai JL-2 and T. thermophilus JL-18 genome analysis illuminates pathways for carbon, nitrogen, and sulfur cycling.

作者信息

Murugapiran Senthil K, Huntemann Marcel, Wei Chia-Lin, Han James, Detter J C, Han Cliff, Erkkila Tracy H, Teshima Hazuki, Chen Amy, Kyrpides Nikos, Mavrommatis Konstantinos, Markowitz Victor, Szeto Ernest, Ivanova Natalia, Pagani Ioanna, Pati Amrita, Goodwin Lynne, Peters Lin, Pitluck Sam, Lam Jenny, McDonald Austin I, Dodsworth Jeremy A, Woyke Tanja, Hedlund Brian P

机构信息

School of Life Sciences, University of Nevada Las Vegas, Las Vegas, NV, USA.

出版信息

Stand Genomic Sci. 2013 Feb 25;7(3):449-68. doi: 10.4056/sigs.3667269. eCollection 2013.

DOI:10.4056/sigs.3667269

PMID:24019992

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3764938/

Abstract

The complete genomes of Thermus oshimai JL-2 and T. thermophilus JL-18 each consist of a circular chromosome, 2.07 Mb and 1.9 Mb, respectively, and two plasmids ranging from 0.27 Mb to 57.2 kb. Comparison of the T. thermophilus JL-18 chromosome with those from other strains of T. thermophilus revealed a high degree of synteny, whereas the megaplasmids from the same strains were highly plastic. The T. oshimai JL-2 chromosome and megaplasmids shared little or no synteny with other sequenced Thermus strains. Phylogenomic analyses using a concatenated set of conserved proteins confirmed the phylogenetic and taxonomic assignments based on 16S rRNA phylogenetics. Both chromosomes encode a complete glycolysis, tricarboxylic acid (TCA) cycle, and pentose phosphate pathway plus glucosidases, glycosidases, proteases, and peptidases, highlighting highly versatile heterotrophic capabilities. Megaplasmids of both strains contained a gene cluster encoding enzymes predicted to catalyze the sequential reduction of nitrate to nitrous oxide; however, the nitrous oxide reductase required for the terminal step in denitrification was absent, consistent with their incomplete denitrification phenotypes. A sox gene cluster was identified in both chromosomes, suggesting a mode of chemolithotrophy. In addition, nrf and psr gene clusters in T. oshmai JL-2 suggest respiratory nitrite ammonification and polysulfide reduction as possible modes of anaerobic respiration.

摘要

大岛栖热菌JL-2和嗜热栖热菌JL-18的完整基因组均由一条环状染色体和两个质粒组成，染色体大小分别为2.07 Mb和1.9 Mb，质粒大小在0.27 Mb至57.2 kb之间。将嗜热栖热菌JL-18的染色体与其他嗜热栖热菌菌株的染色体进行比较，发现具有高度的同线性，而同一菌株的大质粒具有高度可塑性。大岛栖热菌JL-2的染色体和大质粒与其他已测序的栖热菌菌株几乎没有或完全没有同线性。使用一组串联的保守蛋白进行的系统基因组分析证实了基于16S rRNA系统发育学的系统发育和分类归属。两条染色体均编码完整的糖酵解、三羧酸（TCA）循环和磷酸戊糖途径，以及葡糖苷酶、糖苷酶、蛋白酶和肽酶，突出了其高度多样的异养能力。两种菌株的大质粒都包含一个基因簇，该基因簇编码预测可催化硝酸盐依次还原为一氧化二氮的酶；然而，反硝化作用最后一步所需的一氧化二氮还原酶不存在，这与它们不完整的反硝化表型一致。在两条染色体中均鉴定出一个sox基因簇，表明存在化能无机营养模式。此外，大岛栖热菌JL-2中的nrf和psr基因簇表明，呼吸性亚硝酸盐氨化作用和多硫化物还原可能是厌氧呼吸的模式。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/765c/3764938/fadfa1b47b88/sigs.3667269-f1.jpg

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大岛栖热菌JL-2和嗜热栖热菌JL-18的基因组分析揭示了碳、氮和硫循环途径。

Thermus oshimai JL-2 and T. thermophilus JL-18 genome analysis illuminates pathways for carbon, nitrogen, and sulfur cycling.

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