Enhanced rutin accumulation in tobacco leaves by overexpressing the NtFLS2 gene

• Published in: Bioscience, biotechnology, and biochemistry Vol. 81; no. 9; pp. 1721 - 1725
• Main Authors: Shi, Junli, Li, Wenzheng, Gao, Yulong, Wang, Bingwu, Li, Yong, Song, Zhongbang
• Format: Journal Article
• Language: English
• Published: England Taylor & Francis 02.09.2017; Oxford University Press
• Subjects: flavonoid biosynthesis; Flavonoids - biosynthesis; Flavonoids - metabolism; flavonol synthase; Gene Expression; Nicotiana - genetics; Nicotiana - metabolism; NtFLS2; Oxidoreductases - genetics; Phylogeny; Plant Leaves - metabolism; Plant Proteins - genetics; Plants, Genetically Modified; rutin; Rutin - metabolism; tobacco; flavonoid biosynthesis; tobacco; rutin; flavonol synthase; NtFLS2
• ISSN: 0916-8451; 1347-6947
• DOI: 10.1080/09168451.2017.1353401

Rutin, one of the metabolites of the flavonoid pathway, shows great potential in industrial applications as a key component in pharmaceutical medicines and biological pesticides. Although the genetic manipulation of transcription factors (TFs) could increase rutin levels in plants, the accompanying accumulation of structurally similar chemicals complicates industrial rutin extraction. In this study, we demonstrated remarkably elevated rutin content (3.5-4.4-fold relative to controls) in transgenic tobacco plants by overexpressing NtFLS2. The levels of other intermediates in the branch pathway did not change much except for a moderate increase of kaempferol-3-O-rutinoside. Furthermore, the transcript levels of pathway genes in transgenic lines were comparable with controls, indicating genetic engineering did not significantly alter the branch pathway. Additionally, the transgenic tobacco plants appeared normal except for a flower color change from light red to white suggesting that it could be a valuable material for industrial extraction of rutin.