An endo-β-N-acetylglucosaminidase from Enterococcus faecalisV583 responsible for the hydrolysis of high-mannose and hybrid-type N-linked glycans

Bøhle, Liv Anette; Mathiesen, Geir; Vaaje‐Kolstad, Gustav; Eijsink, Vincent G. H.

doi:10.1111/j.1574-6968.2011.02419.x

Cited by 28 publications

(19 citation statements)

References 37 publications

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“…The endoglycosidases resemble chitinases in amino acid sequences but no, or only little, chitinolytic activity has been demonstrated for these enzymes. Examples of such endoglycosidases include enzymes produced by Enterococcus faecalis (Collin & Fischetti, 2004;Bøhle et al, 2011) and Streptococcus pyogenes (Collin & Olsén, 2001). We will not describe the role of these enzymes as virulence factors in any detail, since this has been the topic of another recent review (Garbe & Collin, 2012).…”

Section: Introductionmentioning

confidence: 99%

Bacterial chitinases and chitin-binding proteins as virulence factors

et al. 2013

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Section: Introductionmentioning

confidence: 99%

Bacterial chitinases and chitin-binding proteins as virulence factors

et al. 2013

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“…CBP21 catalysis was shown to be dependent on molecular oxygen, an external electron donor, and the presence of a metal ion cofactor (6), later identified as copper (19). Copper ions have been identified to activate AA10 (19,23), AA9 (7,9,10), and AA11 LPMOs (12). In addition to CBP21, LPMO activity has only been demonstrated for two other CBM33s so far, a celluloseactive CBM33 from Streptomyces coelicolor (CelS2 (8)) and a chitin-active CBM33 from Enterococcus faecalis (EfaCBM33A (24)), the latter of which is the subject of this study.…”

mentioning

confidence: 99%

Structural and Electronic Snapshots during the Transition from a Cu(II) to Cu(I) Metal Center of a Lytic Polysaccharide Monooxygenase by X-ray Photoreduction

Gudmundsson¹,

Kim²,

Wu³

et al. 2014

Journal of Biological Chemistry

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107

105

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Background: Lytic polysaccharide monooxygenases (LPMOs) exhibit a copper center that binds dioxygen for catalysis. Results: We present LPMO structures from Cu(II) to Cu(I) and analyze the transition with quantum mechanical calculations. Conclusion: Reduction changes the copper coordination state but requires only minor structural and electronic changes. Significance: These structures provide insight into LPMO catalytic activation for further mechanistic studies.

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“…Only mammal (but not insect) guts were found to contain some of these proteins, although to lesser extents compared to the lynx gut and never possessing this entire set, with the Canis familiaris gut containing the highest number of these genes (0.031% of all ORF; Table S3). Acid GLA α-galactosidases (15 hits) hydrolyze the terminal α-galactosyl moieties from complex glycolipids and glycoproteins such as ceramide trihexoside [61]; sialidases (8 hits) help break down large sugar molecules (oligosaccharides) attached to certain glyco-proteins by removing sialic acid [62]; HYA hyalurono-glucosaminidases (7 hits) catalyze the hydrolysis of hyaluronic acid and similar glycosaminoglycans that are found in numerous animal tissues, such as joints, cartilage, skin and eyes [63]; NAGLU (8 hits), GALNS (7 hits), GNS (5 hits), ARSA (7 hits) and IDS (2 hits) may contribute to the putative hydrolysis of the N -acetylgalactosamine (GalNAc) and N -acetylglucosamine (GlcNAc) components of animal tissues [64]–[66]. Binning analysis suggested that all but one of this second set of sequences binned to several genomes derived from bacteria belonging to the Bacteroidetes phylum, most likely of the Bacteroides genus (Table S4).…”

Section: Resultsmentioning

confidence: 99%

Gene Sets for Utilization of Primary and Secondary Nutrition Supplies in the Distal Gut of Endangered Iberian Lynx

et al. 2012

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Recent studies have indicated the existence of an extensive trans-genomic trans-mural co-metabolism between gut microbes and animal hosts that is diet-, host phylogeny- and provenance-influenced. Here, we analyzed the biodiversity at the level of small subunit rRNA gene sequence and the metabolic composition of 18 Mbp of consensus metagenome sequences and activity characteristics of bacterial intra-cellular extracts, in wild Iberian lynx (Lynx pardinus) fecal samples. Bacterial signatures (14.43% of all of the Firmicutes reads and 6.36% of total reads) related to the uncultured anaerobic commensals Anaeroplasma spp., which are typically found in ovine and bovine rumen, were first identified. The lynx gut was further characterized by an over-representation of ‘presumptive’ aquaporin aqpZ genes and genes encoding ‘active’ lysosomal-like digestive enzymes that are possibly needed to acquire glycerol, sugars and amino acids from glycoproteins, glyco(amino)lipids, glyco(amino)glycans and nucleoside diphosphate sugars. Lynx gut was highly enriched (28% of the total glycosidases) in genes encoding α-amylase and related enzymes, although it exhibited low rate of enzymatic activity indicative of starch degradation. The preponderance of β-xylosidase activity in protein extracts further suggests lynx gut microbes being most active for the metabolism of β-xylose containing plant N-glycans, although β-xylosidases sequences constituted only 1.5% of total glycosidases. These collective and unique bacterial, genetic and enzymatic activity signatures suggest that the wild lynx gut microbiota not only harbors gene sets underpinning sugar uptake from primary animal tissues (with the monotypic dietary profile of the wild lynx consisting of 80–100% wild rabbits) but also for the hydrolysis of prey-derived plant biomass. Although, the present investigation corresponds to a single sample and some of the statements should be considered qualitative, the data most likely suggests a tighter, more coordinated and complex evolutionary and nutritional ecology scenario of carnivore gut microbial communities than has been previously assumed.

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An endo-β-N-acetylglucosaminidase from Enterococcus faecalisV583 responsible for the hydrolysis of high-mannose and hybrid-type N-linked glycans

Cited by 28 publications

References 37 publications

Bacterial chitinases and chitin-binding proteins as virulence factors

Bacterial chitinases and chitin-binding proteins as virulence factors

Structural and Electronic Snapshots during the Transition from a Cu(II) to Cu(I) Metal Center of a Lytic Polysaccharide Monooxygenase by X-ray Photoreduction

Gene Sets for Utilization of Primary and Secondary Nutrition Supplies in the Distal Gut of Endangered Iberian Lynx

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