脱落酸
灰葡萄孢菌
倍半萜
生物化学
生物合成
生物
植物激素
生物转化
酶
细胞色素P450
代谢中间体
代谢途径
细胞色素
甲戊酸途径
基因
植物
作者
Junya Takino,T. Kozaki,Taro Ozaki,Chengwei Liu,Atsushi Minami,Hideaki Oikawa
标识
DOI:10.1080/09168451.2019.1618700
摘要
ABSTRACT Abscisic acid (ABA) is one of the plant hormones that regulates physiological functions in various organisms, including plants, sponges, and humans. The biosynthetic machinery in plants is firmly established, while that in fungi is still unclear. Here, we elucidated the functions of the four biosynthetic genes, bcABA1-bcABA4, found in Botrytis cinerea by performing biotransformation experiments and in vitro enzymatic reactions with putative biosynthetic intermediates. The first-committed step is the cyclization of farnesyl diphosphate to give α-ionylideneethane catalyzed by a novel sesquiterpene synthase, BcABA3, which exhibits low amino acid sequence identities with sesquiterpene synthases. Subsequently, two cytochrome P450s, BcABA1 and BcABA2, mediate oxidative modifications of the cyclized product to afford 1ʹ,4ʹ-trans-dihydroxy-α-ionylideneacetic acid, which undergoes alcohol oxidation to furnish ABA. Our results demonstrated that production of ABA does not depend on the nucleotide sequence of bcABA genes. The present study set the stage to investigate the role of ABA in infections.
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