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Structural basis of the strict specificity of a bacterial GH31 α-1,3-glucosidase for nigerooligosaccharides

Marina Ikegaya, Toshio Moriya, Naruhiko Adachi, Masato Kawasaki, Enoch Y. Park, Takatsugu Miyazaki

2022Journal of Biological Chemistry19 citationsDOIOpen Access PDF

Abstract

values of LlGH31_u1 against kojibiose and maltose were 13% and 2.1% of that against nigerose, indicating that LlGH31_u1 has a higher specificity to the α-1,3 linkage of nigerose than other characterized GH31 enzymes, including eukaryotic enzymes. Furthermore, the three-dimensional structures of LlGH31_u1 determined using X-ray crystallography and cryogenic electron microscopy revealed that LlGH31_u1 forms a hexamer and has a C-terminal domain comprising four α-helices, suggesting that it contributes to hexamerization. Finally, crystal structures in complex with nigerooligosaccharides and kojibiose along with mutational analysis revealed the active site residues involved in substrate recognition in this enzyme. This study reports the first structure of a bacterial GH31 α-1,3-glucosidase and provides new insight into the substrate specificity of GH31 enzymes and the physiological functions of bacterial and fungal GH31_u1 members.

Topics & Concepts

Glycoside hydrolaseEnzymeBiochemistryLactococcus lactisHydrolaseActive siteStructural similarityHyperthermophileRandom hexamerBiologyMaltoseEnzyme kineticsStereochemistryChemistryBacteriaArchaeaGeneticsGeneLactic acidEnzyme Production and CharacterizationMicrobial Metabolites in Food BiotechnologyEnzyme Structure and Function
Structural basis of the strict specificity of a bacterial GH31 α-1,3-glucosidase for nigerooligosaccharides | Litcius