7-Deoxyloganetic acid synthase catalyzes a key 3 step oxidation to form 7-deoxyloganetic acid in Catharanthus roseus iridoid biosynthesis

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• 作者：Vonny Salim¹ ; ^{vs08to@badger.ac.brocku.ca" class="auth_mail} ; Brent Wiens ^{bw09ep@badger.ac.brocku.ca" class="auth_mail} ; Sayaka Masada-Atsumi² ; ^{smasadaatsumi@nihs.go.jp" class="auth_mail} ; Fang Yu ^{fyu0506@gmail.com" class="auth_mail} ; Vincenzo De Luca ; ^{vdeluca@brocku.ca" class="auth_mail}
• 关键词：Madagascar Periwinkle ; Catharanthus roseus ; Apocynaceae ; Secologanin biosynthesis ; 7-Deoxyloganetic acid synthase ; Virus induced gene silencing ; Functional characterization
• 刊名：Phytochemistry
• 出版年：May, 2014
• 年：2014
• 卷：101
• 期：Complete
• 页码：23-31
• 全文大小：1155 K

文摘

Iridoids are key intermediates required for the biosynthesis of monoterpenoid indole alkaloids (MIAs), as well as quinoline alkaloids. Although most iridoid biosynthetic genes have been identified, one remaining three step oxidation required to form the carboxyl group of 7-deoxyloganetic acid has yet to be characterized. Here, it is reported that virus-induced gene silencing of 7-deoxyloganetic acid synthase (7DLS, CYP76A26) in Catharanthus roseus greatly decreased levels of secologanin and the major MIAs, catharanthine and vindoline in silenced leaves. Functional expression of this gene in Saccharomyces cerevisiae confirmed its function as an authentic 7DLS that catalyzes the 3 step oxidation of iridodial-nepetalactol to form 7-deoxyloganetic acid. The identification of CYP76A26 removes a key bottleneck for expression of iridoid and related MIA pathways in various biological backgrounds.