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海洋氨氧化古菌的应激反应为环境种群的生理状态提供信息。

Stress response of a marine ammonia-oxidizing archaeon informs physiological status of environmental populations.

机构信息

Department of Civil and Environmental Engineering, University of Washington, Seattle, WA, USA.

Department of Biology, New York University Abu Dhabi, Abu Dhabi, UAE.

出版信息

ISME J. 2018 Feb;12(2):508-519. doi: 10.1038/ismej.2017.186. Epub 2017 Oct 20.

DOI:10.1038/ismej.2017.186
PMID:29053148
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5776466/
Abstract

High representation by ammonia-oxidizing archaea (AOA) in marine systems is consistent with their high affinity for ammonia, efficient carbon fixation, and copper (Cu)-centric respiratory system. However, little is known about their response to nutrient stress. We therefore used global transcriptional and proteomic analyses to characterize the response of a model AOA, Nitrosopumilus maritimus SCM1, to ammonia starvation, Cu limitation and Cu excess. Most predicted protein-coding genes were transcribed in exponentially growing cells, and of ~74% detected in the proteome, ~6% were modified by N-terminal acetylation. The general response to ammonia starvation and Cu stress was downregulation of genes for energy generation and biosynthesis. Cells rapidly depleted transcripts for the A and B subunits of ammonia monooxygenase (AMO) in response to ammonia starvation, yet retained relatively high levels of transcripts for the C subunit. Thus, similar to ammonia-oxidizing bacteria, selective retention of amoC transcripts during starvation appears important for subsequent recovery, and also suggests that AMO subunit transcript ratios could be used to assess the physiological status of marine populations. Unexpectedly, cobalamin biosynthesis was upregulated in response to both ammonia starvation and Cu stress, indicating the importance of this cofactor in retaining functional integrity during times of stress.

摘要

海洋系统中氨氧化古菌(AOA)的高丰度与其对氨的高亲和力、高效的碳固定以及铜中心呼吸系统一致。然而,关于它们对营养胁迫的反应知之甚少。因此,我们使用全球转录组和蛋白质组学分析来描述模式 AOA,海洋亚硝化单胞菌 SCM1,对氨饥饿、铜限制和铜过量的反应。大多数预测的蛋白质编码基因在指数生长期细胞中转录,在蛋白质组中检测到的约 74%的基因中,约 6%被 N 端乙酰化修饰。对氨饥饿和 Cu 胁迫的一般反应是能量产生和生物合成相关基因的下调。细胞在氨饥饿时迅速耗尽氨单加氧酶(AMO)的 A 和 B 亚基的转录物,但相对保留较高水平的 C 亚基的转录物。因此,与氨氧化细菌类似,在饥饿期间选择性保留 amoC 转录物对于随后的恢复很重要,这也表明 AMO 亚基转录物的比值可用于评估海洋种群的生理状态。出乎意料的是,钴胺素生物合成在氨饥饿和 Cu 胁迫下均上调,表明在应激期间该辅助因子对于保持功能完整性的重要性。

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Proteomics and comparative genomics of Nitrososphaera viennensis reveal the core genome and adaptations of archaeal ammonia oxidizers.维也纳硝化球菌的蛋白质组学和比较基因组学揭示了古菌氨氧化菌的核心基因组及适应性。
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Abundant Lysine Methylation and N-Terminal Acetylation in Sulfolobus islandicus Revealed by Bottom-Up and Top-Down Proteomics.通过自下而上和自上而下的蛋白质组学揭示冰岛硫化叶菌中丰富的赖氨酸甲基化和N端乙酰化
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