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      Crystal structures of a multifunctional triterpene/flavonoid glycosyltransferase from Medicago truncatula.

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          Abstract

          Glycosylation is a ubiquitous reaction controlling the bioactivity and storage of plant natural products. Glycosylation of small molecules is catalyzed by a superfamily of glycosyltransferases (GTs) in most plant species studied to date. We present crystal structures of the UDP flavonoid/triterpene GT UGT71G1 from Medicago truncatula bound to UDP or UDP-glucose. The structures reveal the key residues involved in the recognition of donor substrate and, by comparison with other GT structures, suggest His-22 as the catalytic base and Asp-121 as a key residue that may assist deprotonation of the acceptor by forming an electron transfer chain with the catalytic base. Mutagenesis confirmed the roles of these key residues in donor substrate binding and enzyme activity. Our results provide an initial structural basis for understanding the complex substrate specificity and regiospecificity underlying the glycosylation of plant natural products and other small molecules. This information will direct future attempts to engineer bioactive compounds in crop plants to improve plant, animal, and human health and to facilitate the rational design of GTs to improve the storage and stability of novel engineered bioactive compounds.

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          Author and article information

          Journal
          Plant Cell
          The Plant cell
          American Society of Plant Biologists (ASPB)
          1040-4651
          1040-4651
          Nov 2005
          : 17
          : 11
          Affiliations
          [1 ] Plant Biology Division, Samuel Roberts Noble Foundation, Ardmore, Oklahoma 73401, USA.
          Article
          tpc.105.035055
          10.1105/tpc.105.035055
          1276034
          16214900
          0fba1a48-f7f9-4ac6-a7a7-534c90cab166
          History

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