A Combination of Structural, Genetic, Phenotypic and Enzymatic Analyses Reveals the Importance of a Predicted Fucosyltransferase to Protein O-Glycosylation in the Bacteroidetes

Diverse members of the Bacteroidetes phylum have general protein O-glycosylation systems that are essential for processes such as host colonization and pathogenesis. Here, we analyzed the function of a putative fucosyltransferase (FucT) family that is widely encoded in Bacteroidetes protein O-glycos...

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Autores principales: Tomek, Markus B., Janesch, Bettina, Braun, Matthias L., Taschner, Manfred, Figl, Rudolf, Grünwald-Gruber, Clemens, Coyne, Michael J., Blaukopf, Markus, Altmann, Friedrich, Kosma, Paul, Kählig, Hanspeter, Comstock, Laurie E., Schäffer, Christina
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8698959/
https://www.ncbi.nlm.nih.gov/pubmed/34944439
http://dx.doi.org/10.3390/biom11121795
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author Tomek, Markus B.
Janesch, Bettina
Braun, Matthias L.
Taschner, Manfred
Figl, Rudolf
Grünwald-Gruber, Clemens
Coyne, Michael J.
Blaukopf, Markus
Altmann, Friedrich
Kosma, Paul
Kählig, Hanspeter
Comstock, Laurie E.
Schäffer, Christina
author_facet Tomek, Markus B.
Janesch, Bettina
Braun, Matthias L.
Taschner, Manfred
Figl, Rudolf
Grünwald-Gruber, Clemens
Coyne, Michael J.
Blaukopf, Markus
Altmann, Friedrich
Kosma, Paul
Kählig, Hanspeter
Comstock, Laurie E.
Schäffer, Christina
author_sort Tomek, Markus B.
collection PubMed
description Diverse members of the Bacteroidetes phylum have general protein O-glycosylation systems that are essential for processes such as host colonization and pathogenesis. Here, we analyzed the function of a putative fucosyltransferase (FucT) family that is widely encoded in Bacteroidetes protein O-glycosylation genetic loci. We studied the FucT orthologs of three Bacteroidetes species—Tannerella forsythia, Bacteroides fragilis, and Pedobacter heparinus. To identify the linkage created by the FucT of B. fragilis, we elucidated the full structure of its nine-sugar O-glycan and found that l-fucose is linked β1,4 to glucose. Of the two fucose residues in the T. forsythia O-glycan, the fucose linked to the reducing-end galactose was shown by mutational analysis to be l-fucose. Despite the transfer of l-fucose to distinct hexose sugars in the B. fragilis and T. forsythia O-glycans, the FucT orthologs from B. fragilis, T. forsythia, and P. heparinus each cross-complement the B. fragilis ΔBF4306 and T. forsythia ΔTanf_01305 FucT mutants. In vitro enzymatic analyses showed relaxed acceptor specificity of the three enzymes, transferring l-fucose to various pNP-α-hexoses. Further, glycan structural analysis together with fucosidase assays indicated that the T. forsythia FucT links l-fucose α1,6 to galactose. Given the biological importance of fucosylated carbohydrates, these FucTs are promising candidates for synthetic glycobiology.
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spelling pubmed-86989592021-12-24 A Combination of Structural, Genetic, Phenotypic and Enzymatic Analyses Reveals the Importance of a Predicted Fucosyltransferase to Protein O-Glycosylation in the Bacteroidetes Tomek, Markus B. Janesch, Bettina Braun, Matthias L. Taschner, Manfred Figl, Rudolf Grünwald-Gruber, Clemens Coyne, Michael J. Blaukopf, Markus Altmann, Friedrich Kosma, Paul Kählig, Hanspeter Comstock, Laurie E. Schäffer, Christina Biomolecules Article Diverse members of the Bacteroidetes phylum have general protein O-glycosylation systems that are essential for processes such as host colonization and pathogenesis. Here, we analyzed the function of a putative fucosyltransferase (FucT) family that is widely encoded in Bacteroidetes protein O-glycosylation genetic loci. We studied the FucT orthologs of three Bacteroidetes species—Tannerella forsythia, Bacteroides fragilis, and Pedobacter heparinus. To identify the linkage created by the FucT of B. fragilis, we elucidated the full structure of its nine-sugar O-glycan and found that l-fucose is linked β1,4 to glucose. Of the two fucose residues in the T. forsythia O-glycan, the fucose linked to the reducing-end galactose was shown by mutational analysis to be l-fucose. Despite the transfer of l-fucose to distinct hexose sugars in the B. fragilis and T. forsythia O-glycans, the FucT orthologs from B. fragilis, T. forsythia, and P. heparinus each cross-complement the B. fragilis ΔBF4306 and T. forsythia ΔTanf_01305 FucT mutants. In vitro enzymatic analyses showed relaxed acceptor specificity of the three enzymes, transferring l-fucose to various pNP-α-hexoses. Further, glycan structural analysis together with fucosidase assays indicated that the T. forsythia FucT links l-fucose α1,6 to galactose. Given the biological importance of fucosylated carbohydrates, these FucTs are promising candidates for synthetic glycobiology. MDPI 2021-11-30 /pmc/articles/PMC8698959/ /pubmed/34944439 http://dx.doi.org/10.3390/biom11121795 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Tomek, Markus B.
Janesch, Bettina
Braun, Matthias L.
Taschner, Manfred
Figl, Rudolf
Grünwald-Gruber, Clemens
Coyne, Michael J.
Blaukopf, Markus
Altmann, Friedrich
Kosma, Paul
Kählig, Hanspeter
Comstock, Laurie E.
Schäffer, Christina
A Combination of Structural, Genetic, Phenotypic and Enzymatic Analyses Reveals the Importance of a Predicted Fucosyltransferase to Protein O-Glycosylation in the Bacteroidetes
title A Combination of Structural, Genetic, Phenotypic and Enzymatic Analyses Reveals the Importance of a Predicted Fucosyltransferase to Protein O-Glycosylation in the Bacteroidetes
title_full A Combination of Structural, Genetic, Phenotypic and Enzymatic Analyses Reveals the Importance of a Predicted Fucosyltransferase to Protein O-Glycosylation in the Bacteroidetes
title_fullStr A Combination of Structural, Genetic, Phenotypic and Enzymatic Analyses Reveals the Importance of a Predicted Fucosyltransferase to Protein O-Glycosylation in the Bacteroidetes
title_full_unstemmed A Combination of Structural, Genetic, Phenotypic and Enzymatic Analyses Reveals the Importance of a Predicted Fucosyltransferase to Protein O-Glycosylation in the Bacteroidetes
title_short A Combination of Structural, Genetic, Phenotypic and Enzymatic Analyses Reveals the Importance of a Predicted Fucosyltransferase to Protein O-Glycosylation in the Bacteroidetes
title_sort combination of structural, genetic, phenotypic and enzymatic analyses reveals the importance of a predicted fucosyltransferase to protein o-glycosylation in the bacteroidetes
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8698959/
https://www.ncbi.nlm.nih.gov/pubmed/34944439
http://dx.doi.org/10.3390/biom11121795
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