乙酰-CoA合成快照,伍德-荣格达尔途径中二氧化碳固定的最后一步

Max Dongsheng Yin, Olivier N. Lemaire, José Guadalupe Rosas-Jiménez, Mélissa Belhamri, Anna Shevchenko, Gerhard Hummer, Tristan Wagner, Bonnie J. Murphy
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引用次数: 0

摘要

在古老的微生物伍德-荣格达尔途径中,一氧化碳是通过乙酰-CoA 在双功能一氧化碳脱氢酶/乙酰-CoA 合成酶复合体(CODH/ACS)中合成的多步骤过程固定的。在这里,我们展示了气体转化乙酰梭菌(Clostridium autoethanogenum)中 CODH/ACS 的催化快照,描述了整个反应的分子编排,包括电子传递到 CODH 以进行 CO2 还原、从冠状铁硫蛋白(CoFeSP)伴侣到 ACS 活性位点的甲基转移以及乙酰-CoA 生成。与 CODH 不同的是,多链 ACS 经历了巨大的构象变化,以形成与 CODH 活性位点的内部连接,容纳 CoFeSP 进行甲基转移,并保护反应中间产物。总之,这些结构使我们能够绘制出这种酶的详细反应机制,它对厌氧生物的二氧化碳固定至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Snapshots of acetyl-CoA synthesis, the final step of CO2 fixation in the Wood-Ljungdahl pathway
In the ancient microbial Wood-Ljungdahl pathway, CO2 is fixed in a multi-step process with acetyl-CoA synthesis at the bifunctional carbon monoxide dehydrogenase/acetyl-CoA synthase complex (CODH/ACS). Here, we present catalytic snapshots of the CODH/ACS from the gas-converting acetogen Clostridium autoethanogenum, characterizing the molecular choreography of the overall reaction including electron transfer to the CODH for CO2 reduction, methyl transfer from the corrinoid iron-sulfur protein (CoFeSP) partner to the ACS active site and acetyl-CoA production. Unlike CODH, the multidomain ACS undergoes large conformational changes to form an internal connection to the CODH active site, accommodate the CoFeSP for methyl transfer and protect the reaction intermediates. Altogether, the structures allow us to draw a detailed reaction mechanism of this enzyme crucial for CO2 fixation in anaerobic organisms.
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