Keiichiro Tanigawa scite author profile

Bifidobacteria are health-promoting enteric commensals that are assumed to proliferate predominantly in the intestines of breast-fed infants by assimilating human milk oligosaccharides (HMOs) that are frequently fucosylated and/or sialylated. We previously identified two different α-l-fucosidases in Bifidobacterium bifidum and showed that the strain furnishes an extracellular degradation pathway for fucosylated HMOs. However, the catabolism of sialylated HMOs by bifidobacteria has remained unresolved. Here we describe the identification and characterization of an exo-α-sialidase in bifidobacteria. By expression cloning, we isolated a novel exo-α-sialidase gene (siabb2) from B. bifidum JCM1254, which encodes a protein (SiaBb2) consisting of 835-amino-acid residues with a predicted molecular mass of 87 kDa. SiaBb2 possesses an N-terminal signal sequence, a sialidase catalytic domain classified into the glycoside hydrolase family 33 (GH33) and a C-terminal transmembrane region, indicating that the mature SiaBb2 is an extracellular membrane-anchored enzyme. The recombinant enzyme expressed in Escherichia coli showed the highest activity in an acidic pH range from 4.0 to 5.0, and at 50 °C. Notably, 80% activity remained after 30 min incubation at 80 °C, indicating that the enzyme is highly thermostable. SiaBb2 liberated sialic acids from sialyloligosaccharides, gangliosides, glycoproteins and colominic acid; however, the linkage preference of the enzyme was remarkably biased toward the α2,3-linkage rather than α2,6- and α2,8-linkages. Expression of siabb2 in B. longum 105-A, which has no endogenous exo-α-sialidase, enabled this strain to degrade sialyloligosaccharides present in human milk. Our results suggest that SiaBb2 plays a crucial role in bifidobacterial catabolism of sialylated HMOs.

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The volumetric liquid-phase mass transfer coefficient in bubble columns

Hikita

Asai

Tanigawa

et al. 1981

The Chemical Engineering Journal

130

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Multilocus sequence typing reveals a novel subspeciation of Lactobacillus delbrueckii

Tanigawa

Watanabe

2011

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Currently, the species Lactobacillus delbrueckii is divided into four subspecies, L. delbrueckii subsp. delbrueckii, L. delbrueckii subsp. bulgaricus, L. delbrueckii subsp. indicus and L. delbrueckii subsp. lactis. These classifications were based mainly on phenotypic identification methods and few studies have used genotypic identification methods. As a result, these subspecies have not yet been reliably delineated. In this study, the four subspecies of L. delbrueckii were discriminated by phenotype and by genotypic identification [amplified-fragment length polymorphism (AFLP) and multilocus sequence typing (MLST)] methods. The MLST method developed here was based on the analysis of seven housekeeping genes (fusA, gyrB, hsp60, ileS, pyrG, recA and recG). The MLST method had good discriminatory ability: the 41 strains of L. delbrueckii examined were divided into 34 sequence types, with 29 sequence types represented by only a single strain. The sequence types were divided into eight groups. These groups could be discriminated as representing different subspecies. The results of the AFLP and MLST analyses were consistent. The type strain of L. delbrueckii subsp. delbrueckii, YIT 0080 T , was clearly discriminated from the other strains currently classified as members of this subspecies, which were located close to strains of L. delbrueckii subsp. lactis. The MLST scheme developed in this study should be a useful tool for the identification of strains of L. delbrueckii to the subspecies level.

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Exon redefinition by a point mutation within exon 5 of the glucose-6-phosphatase gene is the major cause of glycogen storage disease type 1a in Japan

Kajihara

Matsuhashi²,

Yamamoto³

et al. 1995

Hepatology

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