Two O-Methyltransferases from Phylogenetically Unrelated Cow Parsley (Anthriscus sylvestris) and Hinoki-Asunaro (Thujopsis dolabrata var. hondae) as a Signature of Lineage-Specific Evolution in Lignan Biosynthesis

Yamamura Masaomi; Kumatani Masato; Shiraishi AkiraMatsuura YuKobayashi KeisukeSuzuki AyanoKawamura AtsushiSatake HonooRagamustari Safendrri KomaraSuzuki ShiroSuzuki HideyukiShibata DaisukeKawai ShingoOno EiichiroUmezawa Toshiaki

首页> 外文期刊>Plant and cell physiology >Two O-Methyltransferases from Phylogenetically Unrelated Cow Parsley (Anthriscus sylvestris) and Hinoki-Asunaro (Thujopsis dolabrata var. hondae) as a Signature of Lineage-Specific Evolution in Lignan Biosynthesis

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Two O-Methyltransferases from Phylogenetically Unrelated Cow Parsley (Anthriscus sylvestris) and Hinoki-Asunaro (Thujopsis dolabrata var. hondae) as a Signature of Lineage-Specific Evolution in Lignan Biosynthesis

机译：Two O-Methyltransferases from Phylogenetically Unrelated Cow Parsley (Anthriscus sylvestris) and Hinoki-Asunaro (Thujopsis dolabrata var. hondae) as a Signature of Lineage-Specific Evolution in Lignan Biosynthesis

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O-Methyltransferases (OMTs) play important roles in antitumor lignan biosynthesis. To date, six OMTs catalyzing the methylation of dibenzylbutyrolactone lignans as biosynthetic precursors of antitumor lignans have been identified. However, there is still no systematic understanding of the diversity and regularity of the biosynthetic mechanisms among various plant lineages. Herein, we report the characterization of two OMTs from Anthriscus sylvestris and Thujopsis dolabrata var. hondae designated as AsSecoNorYatein (SNY) OMT and TdSNYOMT together with the six known OMTs to evaluate their diversity and regularity. Although A. sylvestris 5-O-methylthujaplicatin (SecoNorYatein) and 4-O-demethylyatein (NorYatein) OMT (AsSNYOMT) and TdSNYOMT accept 5-O-methylthujaplicatin and 4-O-demethylyatein as substrates, phylogenetic analysis indicated that these two OMTs shared low amino acid sequence identity, 33.8, indicating a signature of parallel evolution. The OMTs and the six previously identified OMTs were found to be diverse in terms of their substrate specificity, regioselectivity and amino acid sequence identity, indicating independent evolution in each plant species. Meanwhile, two-entropy analysis detected four amino acid residues as being specifically acquired by dibenzylbutyrolactone lignan OMTs. Site-directed mutation of AsSNYOMT indicated that two of them contributed specifically to 5-O-methylthujaplicatin methylation. The results provide a new example of parallel evolution and the diversity and regularity of OMTs in plant secondary (specialized) metabolism.

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《Plant and cell physiology》 |2023年第1期|124-147|共24页
作者
Yamamura Masaomi; Kumatani Masato; Shiraishi AkiraMatsuura YuKobayashi KeisukeSuzuki AyanoKawamura AtsushiSatake HonooRagamustari Safendrri KomaraSuzuki ShiroSuzuki HideyukiShibata DaisukeKawai ShingoOno EiichiroUmezawa Toshiaki;
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Kyoto Univ;

Shizuoka Univ;

Kazusa DNA Res InstSuntory Global Innovat Ctr Ltd;

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正文语种英语
中图分类植物生理学;植物细胞学;微生物学;
关键词
Anthriscus sylvestris; Lignan; OMT; Parallel evolution; Podophyllotoxin; Thujopsis dolabrata; Yatein; PODOPHYLLUM LIGNANS; CONVERGENT EVOLUTION; SYRINGYL LIGNIN; MONOLIGNOL BIOSYNTHESIS; SUBSTRATE-SPECIFICITY; BIOLOGICAL-ACTIVITIES; ENZYME-ACTIVITIES; FUROFURAN LIGNAN; MEDICINAL AGENT; PLANT-ORIGIN;

Two O-Methyltransferases from Phylogenetically Unrelated Cow Parsley (Anthriscus sylvestris) and Hinoki-Asunaro (Thujopsis dolabrata var. hondae) as a Signature of Lineage-Specific Evolution in Lignan Biosynthesis

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