Terpenoid Indole Alkaloids Biosynthesis and Metabolic Engineering in Catharanthus roseus 被引量：7

Terpenoid Indole Alkaloids Biosynthesis and Metabolic Engineering in Catharanthus roseus

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摘要 Catharanthus roseus L. （Madagascar periwinkle） biosynthesizes a diverse array of secondary metabolites including anticancer dimeric alkaloids （vinblastine and vincristine） and antihypertensive alkaloids （ajmalicine and serpentine）. The multi-step terpenoid indole alkaloids （TIAs） biosynthetic pathway in C. roseus is complex and is under strict molecular regulation. Many enzymes and genes involved in the TIAs biosynthesis have been studied in recent decades. Moreover, some regulatory proteins were found recently to control the production of TIAs in C. roseus. Based on mastering the rough scheme of the pathway and cloning the related genes, metabolic engineering of TIAs biosynthesis has been studied in C. roseus aiming at increasing the desired secondary metabolites in the past few years. The present article summarizes recent advances in isolation and characterization of TIAs biosynthesis genes and transcriptional regulators involved in the second metabolic control in C. roseus. Metabolic engineering applications in TIAs pathway via overexpression of these genes and regulators in C. roseus are also discussed. Catharanthus roseus L. （Madagascar periwinkle） biosynthesizes a diverse array of secondary metabolites including anticancer dimeric alkaloids （vinblastine and vincristine） and antihypertensive alkaloids （ajmalicine and serpentine）. The multi-step terpenoid indole alkaloids （TIAs） biosynthetic pathway in C. roseus is complex and is under strict molecular regulation. Many enzymes and genes involved in the TIAs biosynthesis have been studied in recent decades. Moreover, some regulatory proteins were found recently to control the production of TIAs in C. roseus. Based on mastering the rough scheme of the pathway and cloning the related genes, metabolic engineering of TIAs biosynthesis has been studied in C. roseus aiming at increasing the desired secondary metabolites in the past few years. The present article summarizes recent advances in isolation and characterization of TIAs biosynthesis genes and transcriptional regulators involved in the second metabolic control in C. roseus. Metabolic engineering applications in TIAs pathway via overexpression of these genes and regulators in C. roseus are also discussed.

作者 Dong-Hui Liu Hong-Bin Jin Yu-Hui Chen Li-Jie Cui Wei-Wei Ren Yi-Fu Gong Ke-Xuan Tang

机构地区 Shanghai Key Laboratory of Agrobiotechnology Department of Biochemistry and Molecular Biology Faculty of Life Sciences and Biotechnology State Key Laboratory of Genetic Engineering

出处《Journal of Integrative Plant Biology》 SCIE CAS CSCD 2007年第7期961-974,共14页 植物学报（英文版）

关键词 biosynthesis pathway Catharanthus roseus metabolic engineering terpenoid indole alkaloids. biosynthesis pathway Catharanthus roseus metabolic engineering terpenoid indole alkaloids.

分类号 Q94 [生物学—植物学]

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Journal of Integrative Plant Biology

2007年第7期

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