Overexpression of CsDFR and CsANR enhanced flavonoids accumulation and antioxidant potential of roots in tobacco

Abstract

Flavonoids are widespread throughout the plant kingdom and present in different parts of plants. Tea (Camellia sinensis) is well known for very high content of flavonoids especially flavan-3-ols antioxidants and is an aluminium (Al) accumulator plant. Dihydroflavonol 4-reductase (DFR) and anthocyanidin reductase (ANR) are known to be regulatory enzymes of flavonoid biosynthetic pathway. In this study, cDNA encoding DFR (CsDFR) and ANR (CsANR) from tea were overexpressed individually in tobacco to check their influence on accumulation of flavonoid contents and antioxidant potential in roots of transgenic tobacco. Root morphological features, such as total volume and the number of lateral roots were improved in CsDFR and CsANR overexpressing tobacco plants relative to control tobacco plants. Both types of transgenic showed higher content of flavonoids and proanthocyanidins and lower content of anthocyanins in the roots compared to roots of control tobacco. Among flavan-3-ols, only epigallocatechin was observed in the roots and its content was higher in CsDFR and CsANR overexpressing tobacco as compared to control tobacco. Expression of genes encoding various other enzymes of flavonoid pathway like Phenylalanine ammonia-lyase, Chalcone isomerase, Flavanol synthase and Anthocyanin synthase was increased in roots of CsDFR and CsANR overexpressing tobacco plants as compared to control tobacco. The antioxidant potential of root portion of CsDFR and CsANR transgenic tobacco plants was found to be increased as indicated by enhanced total free radical scavenging activity and tolerance against Al toxicity. Taken together, these changes in roots of CsDFR and CsANR transgenic tobacco provided tolerance to aluminum toxicity.