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Melatonin synthesis genes N‐acetylserotonin methyltransferases evolved into caffeic acid O‐methyltransferases and both assisted in plant terrestrialization

褪黑素 生物 甲基转移酶 表观遗传学 植物进化 生态学 甲基化 遗传学 基因 基因组 内分泌学
作者
Dake Zhao,Zhengping Yao,Jiemei Zhang,Renjun Zhang,Zongmin Mou,Xue Zhang,Zonghang Li,Xiaoli Feng,Suiyun Chen,Rüssel J. Reiter
出处
期刊:Journal of Pineal Research [Wiley]
卷期号:71 (3): e12737-e12737 被引量:51
标识
DOI:10.1111/jpi.12737
摘要

Terrestrialization is one of the most momentous events in the history of plant life, which leads to the subsequent evolution of plant diversity. The transition species, in this process, had to acquire a range of adaptive mechanisms to cope with the harsh features of terrestrial environments compared to that of aquatic habitat. As an ancient antioxidant, a leading regulator of ROS signaling or homeostasis, and a presumed plant master regulator, melatonin likely assisted plants transition to land and their adaption to terrestrial ecosystems. N-acetylserotonin methyltransferases (ASMT) and caffeic acid O-methyltransferases (COMT), both in the O-methyltransferase (OMT) family, catalyze the core O-methylation reaction in melatonin biosynthesis. How these two enzymes with close relevance evolved in plant evolutionary history and whether they participated in plant terrestrialization remains unknown. Using combined phylogenetic evidence and protein structure analysis, it is revealed that COMT likely evolved from ASMT by gene duplication and subsequent divergence. Newly emergent COMT gained a significantly higher ASMT activity to produce greater amounts of melatonin for immobile plants to acclimate to the stressful land environments after evolving from the more environmentally-stable aquatic conditions. The COMT genes possess more conserved substrate-binding sites at the amino acid level and more open protein conformation compared to ASMT, and getting a new function to catalyze the lignin biosynthesis. This development directly contributed to the dominance of vascular plants among the Earth's flora and prompted plant colonization of land. Thus, ASMT, together with its descendant COMT, might play key roles in plant transition to land. The current study provides new insights into plant terrestrialization with gene duplication contributing to this process along with well-known horizontal gene transfer.
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