Use of mannooligosaccharides from coffee mannan by intestinal bacteria

A mannooligosaccharide mixture was obtained by hydrolysis of spent coffee grounds. Furthermore, beta-1,4-D-mannobiose, beta-1,4-D-mannotriose, beta-1,4-D-mannotetraose, and beta-1,4-D-mannopentaose were fractionated by active carbon chromatography from this mixture. Each mannooligosaccharide were in...

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Published inNippon Nōgeikagaku Kaishi Vol. 75; no. 10; pp. 1077 - 1083
Main Authors Asano, I. (Ajinomoto Co. Inc., Tokyo (Japan)), Nakamura, Y, Hoshino, H, Aoki, K, Fujii, S, Imura, N, Iino, H
Format Journal Article
LanguageJapanese
Published Japan Society for Bioscience, Biotechnology, and Agrochemistry 01.10.2001
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Abstract A mannooligosaccharide mixture was obtained by hydrolysis of spent coffee grounds. Furthermore, beta-1,4-D-mannobiose, beta-1,4-D-mannotriose, beta-1,4-D-mannotetraose, and beta-1,4-D-mannopentaose were fractionated by active carbon chromatography from this mixture. Each mannooligosaccharide were investigated for its effect on the growth of established enterobacterial strains. Regardless of the mannooligosaccharide molecular weight, all mannooligosaccharides were used by Bifidobacterium adolescentis, Lactobacillus acidophilus, and Lactobacillus gasseri. On the other hand, bad bacteria such as Clostridium perfringens and Escherichia coli that produce mutagenic substances could not use mannooligosaccharides. Therefore it could be expected that mannooligosaccharides had a potential to promote the improvement of healthful human intestinal micro flora as prebiotics.
AbstractList A mannooligosaccharide mixture was obtained by hydrolysis of spent coffee grounds. Furthermore, β-1, 4-D-mannobiose, β-1, 4-D-mannotriose, β-1, 4-D-mannotetraose, and, 6-1, 4-D-mannopentaose were fractionated by active carbon chromatography from this mixture. Eachmannooligosaccharide were investigated for its effect on the growth of established enterobacterial strains. Regardless of the mannooligosaccharide molecular weight, all mannooligosaccharides were used by Bifidobacterium adolescentis, Lactobacillus acidophilus, and Lactobacillus gasseri. On the other hand, bad bacteria such as Clostridium perfringens and Escherichia coli that produce mutagenic substances could not use mannooligosaccharides. Therefore it could beexpected that mannooligosaccharides had a potential to promote the improvement of healthful human intestinal microflora as prebiotics.
A mannooligosaccharide mixture was obtained by hydrolysis of spent coffee grounds. Furthermore, beta-1,4-D-mannobiose, beta-1,4-D-mannotriose, beta-1,4-D-mannotetraose, and beta-1,4-D-mannopentaose were fractionated by active carbon chromatography from this mixture. Each mannooligosaccharide were investigated for its effect on the growth of established enterobacterial strains. Regardless of the mannooligosaccharide molecular weight, all mannooligosaccharides were used by Bifidobacterium adolescentis, Lactobacillus acidophilus, and Lactobacillus gasseri. On the other hand, bad bacteria such as Clostridium perfringens and Escherichia coli that produce mutagenic substances could not use mannooligosaccharides. Therefore it could be expected that mannooligosaccharides had a potential to promote the improvement of healthful human intestinal micro flora as prebiotics.
Author Fujii, S
Nakamura, Y
Hoshino, H
Iino, H
Aoki, K
Imura, N
Asano, I. (Ajinomoto Co. Inc., Tokyo (Japan))
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Snippet A mannooligosaccharide mixture was obtained by hydrolysis of spent coffee grounds. Furthermore, beta-1,4-D-mannobiose, beta-1,4-D-mannotriose,...
A mannooligosaccharide mixture was obtained by hydrolysis of spent coffee grounds. Furthermore, β-1, 4-D-mannobiose, β-1, 4-D-mannotriose, β-1,...
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SubjectTerms BACTERIA
bifidobacteria
BIFIDOBACTERIUM
COFFEE
intestinal bacteria
INTESTINES
mannooloigosaccharide
OLIGOSACCHARIDES
PROBIOTICS
Title Use of mannooligosaccharides from coffee mannan by intestinal bacteria
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