Abstract
Bacteroidetes are efficient degraders of complex carbohydrates, much thanks to their use of polysaccharide utilization loci (PULs). An integral part of PULs are highly specialized carbohydrate-active enzymes, sometimes composed of multiple linked domains with discrete functions—multicatalytic enzymes. We present the biochemical characterization of a multicatalytic enzyme from a large PUL encoded by the gut bacterium Bacteroides eggerthii. The enzyme, BeCE15A-Rex8A, has a rare and novel architecture, with an N-terminal carbohydrate esterase family 15 (CE15) domain and a C-terminal glycoside hydrolase family 8 (GH8) domain. The CE15 domain was identified as a glucuronoyl esterase (GE), though with relatively poor activity on GE model substrates, attributed to key amino acid substitutions in the active site compared to previously studied GEs. The GH8 domain was shown to be a reducing-end xylose-releasing exo-oligoxylanase (Rex), based on having activity on xylooligosaccharides but not on longer xylan chains. The full-length BeCE15A-Rex8A enzyme and the Rex domain were capable of boosting the activity of a commercially available GH11 xylanase on corn cob biomass. Our research adds to the understanding of multicatalytic enzyme architectures and showcases the potential of discovering novel and atypical carbohydrate-active enzymes from mining PULs.
Highlights
Bacteroidetes are efficient degraders of complex carbohydrates, much thanks to their use of polysaccharide utilization loci (PULs)
SusC/D pairs to loci spanning more than 30 genes
Translation of the intergenic sequence between HMPREF1016_02157 and HMPREF1016_02159 revealed a putative GH95 domain (785 amino acids) which is in agreement with enzymes found in previously studied PULs targeting GAX15
Summary
Bacteroidetes are efficient degraders of complex carbohydrates, much thanks to their use of polysaccharide utilization loci (PULs). Our research adds to the understanding of multicatalytic enzyme architectures and showcases the potential of discovering novel and atypical carbohydrate-active enzymes from mining PULs. Abbreviations AllylGlcA Allyl glucuronic acid ester BnzGlcA Benzyl glucuronoate CAZy Carbohydrate-active enzymes database CAZyme Carbohydrate-active enzyme CE Carbohydrate esterase CE15 Carbohydrate esterase family 15 GAX Glucuronoarabinoxylan GE Glucuronoyl esterase GH Glycoside hydrolase HGM Human gut microbiota HPAEC-PAD High-performance anion-exchange chromatography with pulsed amperometric detection LCC Lignin-carbohydrate complex MeGalA Methyl galacturonoate MeGlcA Methyl glucuronoate PDB Protein data bank PUL Polysaccharide utilization locus PULDB Polysaccharide-Utilization Loci DataBase Rex Reducing-end xylose-releasing exo-oligoxylanase. Whether or not there is an “ideal” HGM composition is not fully known[5], but in healthy adults the dominant bacterial phyla are typically Bacteroidetes and Firmicutes[6] Both of these phyla include numerous species capable of efficiently degrading complex polysaccharides, which are a major component of dietary fiber. This might be caused by a lack of appropriate substrates, analytics, or appropriate reaction conditions, or that there is no synergy between the catalytic domains
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