cDNA Cloning, Expression and Characterization of a Putative Glucosyltransferase (GT) from Grapefruit (<em>Citrus paradisi</em>) Leaves.

Roy Sarkar, Tapasree

01 August 2004

Flavonoids are plant secondary metabolites that are integral to our lives. Grapefruits are well-known for production of unique glucosylated products and the enzymes responsible are UDP-glucose:glucosyltransferases (GTs). The objective of this research was to obtain full-length clones of putative grapefruit GTs, express them, and characterize them. Previously, gene specific primers (from conserved PSPG box) and clone specific primers (from partial 5' clones) were designed, and a compiled sequence attained using SMART RACE RT-PCR. A full-length clone was obtained using primers designed from the extreme ends of the compiled sequence. The full-length clone was inserted into expression vector (pET32a) and transformed into expression host BL21(DE3)RIL. Expressed protein was tested for GT activity using different flavonoid aglycones and UDP-14C-glucose as glucose donor. Results indicated that the expressed protein was probably not a flavonoid GT. A directionally cloned grapefruit leaf cDNA library is undergoing EST mining to identify additional GT candidates.

Naringin

Naringenin

Glucosyltransferase

EST library

Flavonoid

Biology

Life Sciences

Flavonoid gene expression and metabolite profiling during fruit development in highbush blueberry (Vaccinium corymbosum L.)

Zifkin, Michael

03 November 2011

Highbush blueberry (Vaccinium corymbosum L.) has one of the highest antioxidant capacities and flavonoid concentrations of any fruit or vegetable, and regular consumption of blueberries has been connected to a wide range of health benefits. A diversity of flavonoids (flavonols, anthocyanins, proanthocyanidins) are likely responsible for many of the health benefits, and these compounds also significantly contribute to the organoleptic properties of ripe blueberries. Despite the potential importance of these flavonoids in diet, there has been little investigation into the molecular genetics of blueberry flavonoid biosynthesis. Therefore, I developed a real-time quantitative PCR protocol to monitor expression of flavonoid genes throughout development and ripening. Following evaluation of five reference genes, expression profiling of biosynthetic genes revealed that flavonoid synthesis is tightly controlled at the transcriptional level in a biphasic developmental pattern. These results are discussed in relation to flavonoid metabolite accumulation profiles, which were produced as part of a collaboration. Finally, in conjunction with a second group of collaborating scientists, some promising preliminary evidence is provided suggesting that the hormone abscisic acid might have a role in regulating ripening initiation in blueberry. / Graduate

blueberry

real-time quantitative PCR

gene expression

flavonoid biosynthesis

proanthocyanidin

anthocyanin

abscisic acid

fruite ripening

reference gene normalization

flavonoid hydroxylation

EST library