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Inverse Control of Rab Proteins by Yersinia ADP-ribosyltransferase and Glycosyltransferase Related to Clostridial Glucosylating Toxins
Gerhard Stefan Ost
Christophe Wirth
Xenia Bogdanović
Wei-Chun Kao
Björn Schorch
Philipp J. K. Aktories
Panagiotis Papatheodorou
Carsten Schwan
Andreas Schlosser
Thomas Jank
Carola Hunte
Klaus Aktories
出版
Universität
, 2020
URL
http://books.google.com.hk/books?id=2_aezQEACAAJ&hl=&source=gbs_api
註釋
Abstract: We identified a glucosyltransferase (YGT) and an ADP-ribosyltransferase (YART) in Yersinia mollaretii, highly related to glucosylating toxins from Clostridium difficile, the cause of antibiotics-associated enterocolitis. Both Yersinia toxins consist of an amino-terminal enzyme domain, an autoprotease domain activated by inositol hexakisphosphate, and a carboxyl-terminal translocation domain. YGT N-acetylglucosaminylates Rab5 and Rab31 at Thr52 and Thr36, respectively, thereby inactivating the Rab proteins. YART ADP-ribosylates Rab5 and Rab31 at Gln79 and Gln64, respectively. This activates Rab proteins by inhibiting GTP hydrolysis. We determined the crystal structure of the glycosyltransferase domain of YGT (YGTG) in the presence and absence of UDP at 1.9- and 3.4-Å resolution, respectively. Thereby, we identified a previously unknown potassium ion-binding site, which explains potassium ion-dependent enhanced glycosyltransferase activity in clostridial and related toxins. Our findings exhibit a novel type of inverse regulation of Rab proteins by toxins and provide new insights into the structure-function relationship of glycosyltransferase toxins
