在高光条件下，光呼吸参与了索氏小球藻中乙酸盐的同化过程。

Photorespiration participates in the assimilation of acetate in Chlorella sorokiniana under high light.

作者信息

Xie Xiujun, Huang Aiyou, Gu Wenhui, Zang Zhengrong, Pan Guanghua, Gao Shan, He Linwen, Zhang Baoyu, Niu Jianfeng, Lin Apeng, Wang Guangce

机构信息

Key Laboratory of Experimental Marine Biology, Institute of Oceanology, Chinese Academy of Sciences, Qingdao, 266071, China.

Laboratory for Marine Biology and Biotechnology, Qingdao National Laboratory for Marine Science and Technology, Qingdao 266071, China.

出版信息

New Phytol. 2016 Feb;209(3):987-98. doi: 10.1111/nph.13659. Epub 2015 Oct 6.

DOI:10.1111/nph.13659

PMID:26439434

Abstract

The development of microalgae on an industrial scale largely depends on the economic feasibility of mass production. High light induces productive suspensions during cultivation in a tubular photobioreactor. Herein, we report that high light, which inhibited the growth of Chlorella sorokiniana under autotrophic conditions, enhanced the growth of this alga in the presence of acetate. We compared pigments, proteomics and the metabolic flux ratio in C. sorokiniana cultivated under high light (HL) and under low light (LL) in the presence of acetate. Our results showed that high light induced the synthesis of xanthophyll and suppressed the synthesis of chlorophylls. Acetate in the medium was exhausted much more rapidly in HL than in LL. The data obtained from LC-MS/MS indicated that high light enhanced photorespiration, the Calvin cycle and the glyoxylate cycle of mixotrophic C. sorokiniana. The results of metabolic flux ratio analysis showed that the majority of the assimilated carbon derived from supplemented acetate, and photorespiratory glyoxylate could enter the glyoxylate cycle. Based on these data, we conclude that photorespiration provides glyoxylate to speed up the glyoxylate cycle, and releases acetate-derived CO2 for the Calvin cycle. Thus, photorespiration connects the glyoxylate cycle and the Calvin cycle, and participates in the assimilation of supplemented acetate in C. sorokiniana under high light.

摘要

微藻的工业化规模发展在很大程度上取决于大规模生产的经济可行性。高光在管式光生物反应器培养过程中诱导产生高产悬浮液。在此，我们报告称，在自养条件下抑制小球藻生长的高光，在有乙酸盐存在时促进了这种藻类的生长。我们比较了在高光（HL）和低光（LL）条件下、有乙酸盐存在时培养的小球藻中的色素、蛋白质组学和代谢通量比。我们的结果表明，高光诱导了叶黄素的合成并抑制了叶绿素的合成。培养基中的乙酸盐在高光条件下比在低光条件下消耗得更快。从液相色谱 - 串联质谱（LC - MS/MS）获得的数据表明，高光增强了兼养小球藻的光呼吸、卡尔文循环和乙醛酸循环。代谢通量比分析结果表明，大部分同化碳来自添加的乙酸盐，光呼吸乙醛酸可进入乙醛酸循环。基于这些数据，我们得出结论，光呼吸提供乙醛酸以加速乙醛酸循环，并释放乙酸盐衍生的二氧化碳用于卡尔文循环。因此，光呼吸连接了乙醛酸循环和卡尔文循环，并参与高光条件下小球藻对添加乙酸盐的同化作用。

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在高光条件下，光呼吸参与了索氏小球藻中乙酸盐的同化过程。

Photorespiration participates in the assimilation of acetate in Chlorella sorokiniana under high light.

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