ACC合酶的双重活性：关于基因分子进化的新线索。

Dual activities of ACC synthase: Novel clues regarding the molecular evolution of genes.

作者信息

Xu Chang, Hao Bowei, Sun Gongling, Mei Yuanyuan, Sun Lifang, Sun Yunmei, Wang Yibo, Zhang Yongyan, Zhang Wei, Zhang Mengyuan, Zhang Yue, Wang Dan, Rao Zihe, Li Xin, Shen Qingxi Jeffery, Wang Ning Ning

机构信息

Department of Plant Biology and Ecology, Tianjin Key Laboratory of Protein Sciences, College of Life Sciences, Nankai University, Tianjin 300071, China.

State Key Laboratory of Medicinal Chemical Biology, Frontiers Science Center for Cell Responses, College of Life Sciences, Nankai University, Tianjin 300071, China.

出版信息

Sci Adv. 2021 Nov 12;7(46):eabg8752. doi: 10.1126/sciadv.abg8752. Epub 2021 Nov 10.

DOI:10.1126/sciadv.abg8752

PMID:34757795

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8580319/

Abstract

Ethylene plays profound roles in plant development. The rate-limiting enzyme of ethylene biosynthesis is 1-aminocyclopropane-1-carboxylate (ACC) synthase (ACS), which is generally believed to be a single-activity enzyme evolving from aspartate aminotransferases. Here, we demonstrate that, in addition to catalyzing the conversion of -adenosyl-methionine to the ethylene precursor ACC, genuine ACSs widely have C-S lyase activity. Two N-terminal motifs, including a glutamine residue, are essential for conferring ACS activity to ACS-like proteins. Motif and activity analyses of ACS-like proteins from plants at different evolutionary stages suggest that the ACC-dependent pathway is uniquely developed in seed plants. A putative catalytic mechanism for the dual activities of ACSs is proposed on the basis of the crystal structure and biochemical data. These findings not only expand our current understanding of ACS functions but also provide novel insights into the evolutionary origin of genes.

摘要

乙烯在植物发育过程中发挥着重要作用。乙烯生物合成的限速酶是1-氨基环丙烷-1-羧酸（ACC）合酶（ACS），一般认为它是一种由天冬氨酸转氨酶进化而来的单活性酶。在此，我们证明，除了催化S-腺苷甲硫氨酸转化为乙烯前体ACC外，真正的ACS广泛具有C-S裂解酶活性。包括一个谷氨酰胺残基在内的两个N端基序对于赋予类ACS蛋白ACS活性至关重要。对不同进化阶段植物的类ACS蛋白进行的基序和活性分析表明，依赖ACC的途径是在种子植物中独特发展起来的。基于晶体结构和生化数据，提出了ACS双重活性的一种假定催化机制。这些发现不仅扩展了我们目前对ACS功能的理解，也为ACS基因的进化起源提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e00b/8580319/9947091b851e/sciadv.abg8752-f1.jpg

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ACC合酶的双重活性：关于基因分子进化的新线索。

Dual activities of ACC synthase: Novel clues regarding the molecular evolution of genes.

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