α-L-Fucosidases from an Alpaca Faeces Metagenome: Characterisation of Hydrolytic and Transfucosylation Potential

Krupinskaitė, Agnė; Stanislauskienė, Rūta; Serapinas, Pijus; Rutkienė, Rasa; Gasparavičiūtė, Renata; Meškys, Rolandas; Stankevičiūtė, Jonita

doi:10.3390/ijms25020809

IJMS

2024

DOI: 10.3390/ijms25020809

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α-L-Fucosidases from an Alpaca Faeces Metagenome: Characterisation of Hydrolytic and Transfucosylation Potential

Agnė Krupinskaitė,

Rūta Stanislauskienė,

Pijus Serapinas

et al.

Abstract: In various life forms, fucose-containing glycans play vital roles in immune recognition, developmental processes, plant immunity, and host-microbe interactions. Together with glucose, galactose, N-acetylglucosamine, and sialic acid, fucose is a significant component of human milk oligosaccharides (HMOs). Fucosylated HMOs benefit infants by acting as prebiotics, preventing pathogen attachment, and potentially protecting against infections, including HIV. Although the need for fucosylated derivatives is clear, t… Show more

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Structural elucidation and characterization of GH29A α‐l‐fucosidases and the effect of pH on their transglycosylation

Yang,

Holck,

Thorhallsson

et al. 2024

The FEBS Journal

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GH29A α‐l‐fucosidases (EC 3.2.1.51) catalyze the release of α‐l‐fucosyl moieties from the nonreducing end of glycoconjugates by hydrolysis and some also catalyze transglycosylation. The latter is particularly interesting with regard to designing enzymatic synthesis of human milk oligosaccharides (HMOs). We combined the bioinformatics tool conserved unique peptide patterns (CUPP) and phylogenetic clustering to discover new microbial GH29A α‐l‐fucosidases of the underexplored CUPP group GH29:13.1. Three uncharacterized bacterial enzymes (EaGH29, SeGH29, and PmGH29) and two previously identified GH29A α‐l‐fucosidases (BF3242 and TfFuc1) were selected for reaction optimization, biochemical, and structural characterization. Kinetics, pH‐temperature optima, and substrate preference for 2‐chloro‐4‐nitrophenyl‐α‐l‐fucopyranoside (CNP‐α‐l‐Fuc) and 2′‐fucosyllactose (2′FL) were determined. Transglycosylation was favored at high neutral to alkaline pH, especially for EaGH29, SeGH29, TfFuc1, and BF3242, mainly because hydrolysis was decreased. The α‐l‐fucosidases exhibited medium regioselectivity in transglycosylation, generally forming two out of five detected lacto‐N‐fucopentaose (LNFP) isomers from 2′FL and lacto‐N‐tetraose (LNT). Alkaline pH also affected the transglycosylation product regioselectivity of SeGH29, which was also affected by a Leu/Phe exchange in the acceptor binding site. New crystal structures of TfFuc1 and BF3242 showed congruence in active site topology between these two enzymes and contributed to understanding the function of GH29A α‐l‐fucosidases. Notably, the structural data provide new insight into the role of an Asn residue located between the two catalytic residues in the active site.

show abstract

Structural elucidation and characterization of GH29A α‐l‐fucosidases and the effect of pH on their transglycosylation

Yang,

Holck,

Thorhallsson

et al. 2024

The FEBS Journal

View full text Add to dashboard Cite

show abstract

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α-L-Fucosidases from an Alpaca Faeces Metagenome: Characterisation of Hydrolytic and Transfucosylation Potential

Cited by 1 publication

References 73 publications

Structural elucidation and characterization of GH29A α‐l‐fucosidases and the effect of pH on their transglycosylation

Structural elucidation and characterization of GH29A α‐l‐fucosidases and the effect of pH on their transglycosylation

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