Characterization of Brassica Napus Flavonol Synthase Involved in Flavonol Biosynthesis in Brassica Napus L

Overview

Journal J Agric Food Chem

Specialties Chemistry
Nutritional Sciences

Date 2015 Aug 13

PMID 26264830

Citations 23

Authors

Tien Thanh Vu

Chan Young Jeong

Hoai Nguyen Nguyen

Dongho Lee

Sang A Lee

Ji Hye Kim

Suk-Whan Hong

Hojoung Lee

Affiliations

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Abstract

Recently, Brassica napus has become a very important crop for plant oil production. Flavonols, an uncolored flavonoid subclass, have a high antioxidative effect and are known to have antiproliferative, antiangiogenic, and neuropharmacological properties. In B. napus, some flavonoid structural genes have been identified, such as, BnF3H-1, BnCHS, and BnC4H-1. However, no studies on FLS genes in B. napus have been conducted. Thus, in this study, we cloned and characterized the function of BnFLS gene B. napus. By overexpression of the BnFLS gene, flavonol (kaempferol and quercetin) levels were recovered in the Arabidopsis atfls1-ko mutant. In addition, we found that the higher endogenous flavonol levels of BnFLS-ox in vitro shoots correlated with slightly higher ROS scavenging activities. Thus, our results indicate that the BnFLS gene encodes for a BnFLS enzyme that can be manipulated to specifically increase flavonol accumulation in oilseed plants and other species such as Arabidopsis.

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