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暗代谢:对南极海冰硅藻脆杆藻如何在长期黑暗中存活的分子洞察。

Dark metabolism: a molecular insight into how the Antarctic sea-ice diatom Fragilariopsis cylindrus survives long-term darkness.

机构信息

Institute for Marine and Antarctic Studies, University of Tasmania, Hobart, 7000, Tasmania, Australia.

Centre for Food Safety and Innovation, Tasmanian Institute of Agriculture, Hobart, 7000, Tasmania, Australia.

出版信息

New Phytol. 2019 Jul;223(2):675-691. doi: 10.1111/nph.15843. Epub 2019 May 7.

DOI:10.1111/nph.15843
PMID:30985935
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6617727/
Abstract

Light underneath Antarctic sea-ice is below detectable limits for up to 4 months of the year. The ability of Antarctic sea-ice diatoms to survive this prolonged darkness relies on their metabolic capability. This study is the first to examine the proteome of a prominent sea-ice diatom in response to extended darkness, focusing on the protein-level mechanisms of dark survival. The Antarctic diatom Fragilariopsis cylindrus was grown under continuous light or darkness for 120 d. The whole cell proteome was quantitatively analysed by nano-LC-MS/MS to investigate metabolic changes that occur during sustained darkness and during recovery under illumination. Enzymes of metabolic pathways, particularly those involved in respiratory processes, tricarboxylic acid cycle, glycolysis, the Entner-Doudoroff pathway, the urea cycle and the mitochondrial electron transport chain became more abundant in the dark. Within the plastid, carbon fixation halted while the upper sections of the glycolysis, gluconeogenesis and pentose phosphate pathways became less active. We have discovered how F. cylindrus utilises an ancient alternative metabolic mechanism that enables its capacity for long-term dark survival. By sustaining essential metabolic processes in the dark, F. cylindrus retains the functionality of the photosynthetic apparatus, ensuring rapid recovery upon re-illumination.

摘要

南极海冰下的光在一年中长达 4 个月的时间里都低于可检测的限度。南极海冰硅藻能够在这种长时间的黑暗中存活下来,这依赖于它们的代谢能力。本研究首次研究了一种重要的海冰硅藻在长时间黑暗条件下的蛋白质组,重点研究了黑暗生存的蛋白质水平机制。在持续光照或黑暗下培养了 120 天的南极硅藻脆杆藻。通过纳升 LC-MS/MS 对整个细胞的蛋白质组进行定量分析,以研究在持续黑暗和光照恢复期间发生的代谢变化。代谢途径中的酶,特别是那些参与呼吸过程、三羧酸循环、糖酵解、恩特纳-杜多洛夫途径、尿素循环和线粒体电子传递链的酶,在黑暗中变得更加丰富。在黑暗中,碳固定停止,而糖酵解、糖异生和磷酸戊糖途径的上半部分变得不那么活跃。我们发现了脆杆藻如何利用一种古老的替代代谢机制,使其具有长期黑暗生存的能力。通过在黑暗中维持基本的代谢过程,脆杆藻保留了光合作用装置的功能,确保在重新光照时迅速恢复。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bf42/6617727/8e46bb419e20/NPH-223-675-g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bf42/6617727/8bcb7510fa5e/NPH-223-675-g005.jpg
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