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@article{2262444, author = {Kovalova, Terezia and Koval, Tomas and Stransky, Jan and Kolenko, Petr and Duskova, Jarmila and Svecova, Leona and Vodickova, Patricie and Spiwok, Vojtech and Benesova, Eva and Lipovova, Petra and Dohnalek, Jan}, article_location = {Hoboken, NJ USA}, article_number = {16}, doi = {http://dx.doi.org/10.1111/febs.16387}, keywords = {active site complementation; crystal structure; GH151; alpha-l-fucosidase}, language = {eng}, issn = {1742-464X}, journal = {FEBS Journal}, title = {The first structure-function study of GH151 alpha-l-fucosidase uncovers new oligomerization pattern, active site complementation, and selective substrate specificity}, url = {https://febs.onlinelibrary.wiley.com/doi/10.1111/febs.16387}, volume = {289}, year = {2022} }
TY - JOUR ID - 2262444 AU - Kovalova, Terezia - Koval, Tomas - Stransky, Jan - Kolenko, Petr - Duskova, Jarmila - Svecova, Leona - Vodickova, Patricie - Spiwok, Vojtech - Benesova, Eva - Lipovova, Petra - Dohnalek, Jan PY - 2022 TI - The first structure-function study of GH151 alpha-l-fucosidase uncovers new oligomerization pattern, active site complementation, and selective substrate specificity JF - FEBS Journal VL - 289 IS - 16 SP - 4998-5020 EP - 4998-5020 PB - WILEY-BLACKWELL SN - 1742464X KW - active site complementation KW - crystal structure KW - GH151 KW - alpha-l-fucosidase UR - https://febs.onlinelibrary.wiley.com/doi/10.1111/febs.16387 N2 - Fucosylated compounds are abundantly present in nature and are associated with many biological processes, therefore carrying great potential for use in medicine and biotechnology. Efficient ways to modify fucosylated compounds are still being developed. Promising results are provided by glycosyl hydrolases with transglycosylating activities, such as alpha-l-fucosidase isoenzyme 2 from Paenibacillus thiaminolyticus (family GH151 of Carbohydrate-Active enZYmes). Currently, there is no 3D structure representing this glycoside hydrolase family and only a few members have been investigated. Here, we present the first structure-function study of a GH151 member, providing the key insights into its specific oligomerization and active site properties. According to the crystal structure, small-angle X-ray scattering data and catalytic investigation, this enzyme functions as a tetramer of a new type and represents the second known case of active site complementation among all alpha-l-fucosidases. Mutation of the active site-complementing residue histidine 503 to alanine confirmed its influence on alpha-l-fucosidase activity and, specifically, on substrate binding. Several unique features of GH151 family alpha-l-fucosidases were revealed, including the oligomerization pattern, active site accessibility and complementation, and substrate selectivity. Some common properties of GH151 glycosyl hydrolases then would be the overall three-domain structure and conservation of the central domain loop 2 function, including its complementation role and the formation of the carbohydrate-binding platform in the active site vicinity. ER -
KOVALOVA, Terezia, Tomas KOVAL, Jan STRANSKY, Petr KOLENKO, Jarmila DUSKOVA, Leona SVECOVA, Patricie VODICKOVA, Vojtech SPIWOK, Eva BENESOVA, Petra LIPOVOVA a Jan DOHNALEK. The first structure-function study of GH151 alpha-l-fucosidase uncovers new oligomerization pattern, active site complementation, and selective substrate specificity. \textit{FEBS Journal}. Hoboken, NJ USA: WILEY-BLACKWELL, 2022, roč.~289, č.~16, s.~4998-5020. ISSN~1742-464X. Dostupné z: https://dx.doi.org/10.1111/febs.16387.
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