超小绿藻奥氏藻中卡尔文循环的独特调控

Unique regulation of the Calvin cycle in the ultrasmall green alga Ostreococcus.

作者信息

Robbens Steven, Petersen Jörn, Brinkmann Henner, Rouzé Pierre, Van de Peer Yves

出版信息

J Mol Evol. 2007 May;64(5):601-4. doi: 10.1007/s00239-006-0159-y. Epub 2007 Apr 24.

Abstract

Glyceraldehyde-3-phosphate dehydrogenase (GapAB) and CP12 are two major players in controlling the inactivation of the Calvin cycle in land plants at night. GapB originated from a GapA gene duplication and differs from GapA by the presence of a specific C-terminal extension that was recruited from CP12. While GapA and CP12 are assumed to be generally present in the Plantae (glaucophytes, red and green algae, and plants), up to now GapB was exclusively found in Streptophyta, including the enigmatic green alga Mesostigma viride. However, here we show that two closely related prasinophycean green algae, Ostreococcus tauri and Ostreococcus lucimarinus, also possess a GapB gene, while CP12 is missing. This remarkable finding either antedates the GapA/B gene duplication or indicates a lateral recruitment. Moreover, Ostreococcus is the first case where the crucial CP12 function may be completely replaced by GapB-mediated GapA/B aggregation.

摘要

3-磷酸甘油醛脱氢酶（GapAB）和CP12是控制陆地植物夜间卡尔文循环失活的两个主要因子。GapB起源于GapA基因的复制，与GapA的不同之处在于其具有从CP12招募而来的特定C端延伸。虽然GapA和CP12普遍存在于植物界（灰胞藻、红藻、绿藻和植物）中，但到目前为止，GapB仅在链形植物中被发现，包括神秘的绿藻中带藻。然而，我们在此表明，两种亲缘关系密切的绿藻，即莱茵衣藻和地中海衣藻，也拥有GapB基因，而CP12缺失。这一显著发现要么早于GapA/B基因复制，要么表明存在横向招募。此外，衣藻是第一个关键的CP12功能可能完全被GapB介导的GapA/B聚集所取代的例子。

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超小绿藻奥氏藻中卡尔文循环的独特调控

Unique regulation of the Calvin cycle in the ultrasmall green alga Ostreococcus.

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