Metabolic engineering of isoflavone genistein in Brassica napus with soybean isoflavone synthase
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- 作者:Xiang Li (12)
Jian-Chun Qin (1)
Qing-Yu Wang (1)
Xian Wu (1)
Chen-Yong Lang (1)
Hong-Yu Pan (1)
Margaret Y. Gruber (2)
Ming-Jun Gao (2) Ming-Jun.Gao@agr.gc.ca - 关键词:Metabolic engineering – ; Brassica napus – ; Genistein – ; GmIFS2
- 刊名:Plant Cell Reports
- 出版时间:August 2011
- 出版年:2011
- 期刊代码:209_0721-7714
- 类别:bio
- 卷:30
- 期:8
- 页码:1435-1442
- 数据来源:sp
摘要
Genistein, 4′,5,7-trihydroxyisoflavone, is an isoflavonoid compound predominantly restricted to legumes and known to possess phyto-oestrogenic and antioxidative activities. The key enzyme that redirects phenylpropanoid pathway intermediates from flavonoids to isoflavonoids is the isoflavone synthase (IFS). Brassica napus is a non-legume oilseed crop with vegetative tissues producing phenylpropanoids and flavonoids, but does not naturally accumulate isoflavones due to the absence of IFS. To demonstrate whether exogenous IFS is able to use endogenous substrate to produce isoflavone genistein in oilseed crop, the soybean IFS gene (GmIFS2) was incorporated into B. napus plants. The presence of GmIFS2 in B. napus was shown to direct the synthesis and accumulation of genistein derivatives in leaves up to 0.72 mg g−1 DW. In addition, expression levels for most B. napus genes in the phenylpropanoid pathway were altered. These results suggest that the heterologous GmIFS2 enzyme is functionally active at using the B. napus naringenin as a substrate to produce genistein in oilseed rape.