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Biochemical Characterization of a Cp-3-O-GT Mutant P145T and Study of the Tag Effect on GT ActivityKandel, Sangam, Shivakumar, Devaiah P., McIntosh, Cecelia A. 07 April 2016 (has links)
Flavonoids are a class of secondary metabolites, the majority of which are present in glucosylated form. Glucosyltransferases catalyze glucosylation by transferring glucose from UDP-activated sugar donor to the acceptor substrates. This research is focused on the study of the effect of a single point mutation on enzyme activity, characterization of a flavonol specific 3-O-glucosyltransferase (Cp-3-O-GT) mutant- P145T, and further modification of the clone to cleave off tags from recombinant wild type and P145T mutant proteins in order to crystallize the proteins. Multiple sequence alignment and homology modeling was done to identify candidate residues for mutation. Cp-3-O-GT was modeled with a flavonoid 3-O-GT from Vitis vinifera (VvGT) that can glucosylate both flavonols and anthocyanidins. We identified a proline residue at position 145 of Cp-3-O-GT that corresponded to a threonine residue in VvGT and designed a Cp-3-O-GTP145T mutant to test the hypothesis that that mutation of proline by threonine in Cp-3-O-GT could alter substrate or regiospecificity of Cp-3-O-GT. While the mutant P145T enzyme did not glucosylate anthocyanidins, it did glucosylate flavanones and flavones in addition to flavonols. This is significant because flavanones and flavones do not contain a 3-OH group. HPLC was performed to identify the reaction products. Early results indicated that the mutant protein glucosylates naringenin at the 7-OH position forming prunin. Results are being used to revisit and refine the structure model. In other related work, a thrombin cleavage site was inserted into wild type and recombinant P145Tenzyme and we are currently working on transformation into yeast for recombinant protein expression. Cleaving off tags is a pre-requisite to future efforts to crystallize the proteins. Solving the crustal structures will make a significant contribution to the structural and functional study of plant flavonoid GTs in general and Cp-3- O-GT in particular.
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Putative Glucosyltransferase 11 from Citrus paradisi: Cloning, Recombinant Expression in Yeast, and Substrate ScreeningWilliams, Bruce E., McIntosh, Cecelia A. 04 April 2013 (has links)
Plant secondary products, which include the flavonoids, have a variety of roles in plant systems. Their roles include biosignalling, UV protection, antifeedant activity, pollinator attraction, stress response, and many others. Glucosylation is an important modification of many flavonoids and other plant secondary products. In grapefruit, glucosylation is important in the synthesis of the bitter compound naringin. Glucosyltransferases catalyze glucosylation reactions. Putative plant secondary product glucosyltransferases may be identified by the loosely conserved “PSPG box” amino acid sequence; however, with current knowledge, biochemical characterization is the only way to determine with certainty the function of these enzymes. The hypothesis tested here is that PGT11 is a plant secondary product glucosyltransferase. Recombinant PGT11 has been expressed in yeast using the pPICZ A vector. To investigate the hypothesis, the enzyme will be screened for glucosylation activity with various flavonoid and phenolic substrates.
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