罂粟基因组与吗啡类物质生物合成。

The opium poppy genome and morphinan production.

机构信息

MOE Key Lab for Intelligent Networks and Networks Security, School of Electronics and Information Engineering, Xi'an Jiaotong University, Xi'an, 710049 China.

The First Affiliated Hospital of Xi'an Jiaotong University, Xi'an, 710061 China.

出版信息

Science. 2018 Oct 19;362(6412):343-347. doi: 10.1126/science.aat4096. Epub 2018 Aug 30.

DOI:10.1126/science.aat4096

PMID:30166436

Abstract

Morphinan-based painkillers are derived from opium poppy ( L.). We report a draft of the opium poppy genome, with 2.72 gigabases assembled into 11 chromosomes with contig N50 and scaffold N50 of 1.77 and 204 megabases, respectively. Synteny analysis suggests a whole-genome duplication at ~7.8 million years ago and ancient segmental or whole-genome duplication(s) that occurred before the Papaveraceae-Ranunculaceae divergence 110 million years ago. Syntenic blocks representative of phthalideisoquinoline and morphinan components of a benzylisoquinoline alkaloid cluster of 15 genes provide insight into how this cluster evolved. Paralog analysis identified P450 and oxidoreductase genes that combined to form the gene fusion essential for morphinan biosynthesis in opium poppy. Thus, gene duplication, rearrangement, and fusion events have led to evolution of specialized metabolic products in opium poppy.

摘要

吗啡类止痛药源自罂粟（L.）。我们报告了罂粟基因组的草案，该基因组共 27.2 千兆碱基，组装成 11 条染色体，其 contig N50 和 scaffold N50 分别为 1.77 和 204 兆碱基。共线性分析表明，约 780 万年前发生了全基因组复制，1.1 亿年前在罂粟科-毛茛科分化之前发生了古老的片段或全基因组复制。15 个基因的苯酞异喹啉和吗啡类生物碱簇的代表顺式作用块提供了有关该簇如何进化的见解。旁系分析鉴定了 P450 和氧化还原酶基因，它们结合形成了基因融合，这对于罂粟中吗啡类生物合成是必不可少的。因此，基因复制、重排和融合事件导致了罂粟中特殊代谢产物的进化。

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罂粟基因组与吗啡类物质生物合成。

The opium poppy genome and morphinan production.

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