Important roles of Ruminococcaceae in the human intestine for resistant starch utilization

Intricate ecosystem of the human gut microbiome is affected by various environmental factors, genetic makeup of the individual, and diet. Specifically, resistant starch (RS) is indigestible in the small intestine but nourishes the gut microbiota in the colon. Degradation of RS in the gut begins with...

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Published in	Food science and biotechnology Vol. 33; no. 9; pp. 2009 - 2019
Main Authors	Kim, Ye-Jin, Jung, Dong-Hyun, Park, Cheon-Seok
Format	Journal Article
Language	English
Published	Singapore Springer Nature Singapore 01.07.2024 Springer Nature B.V 한국식품과학회
Subjects	acetates Acetic acid Bifidobacterium adolescentis butyrates Chemistry Chemistry and Materials Science colon diet Digestive system ecosystems Environmental factors family Food Science Gastrointestinal tract Genetic transformation humans inflammation Intestinal microflora intestinal microorganisms Intestine Invited Review Microbiomes Microorganisms Nutrition propionic acid resistant starch Ruminococcaceae Ruminococcus bromii Small intestine Starch 식품과학 RS-degrading bacteria Short-chain fatty acid Resistant starch Gut microorganism Ruminococcaceae
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ISSN	1226-7708 2092-6456 2092-6456
DOI	10.1007/s10068-024-01621-0

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Abstract	Intricate ecosystem of the human gut microbiome is affected by various environmental factors, genetic makeup of the individual, and diet. Specifically, resistant starch (RS) is indigestible in the small intestine but nourishes the gut microbiota in the colon. Degradation of RS in the gut begins with primary degraders, such as Bifidobacterium adolescentis and Ruminococcus bromii . Recently, new RS degraders, such as Ruminococcoides bili , have been reported. These microorganisms play crucial roles in the transformation of RS into short-chain fatty acids (SCFAs), such as acetate, propionate, and butyrate. SCFAs are necessary to maintain optimal intestinal health, regulate inflammation, and protect against various illnesses. This review discusses the effects of RS on gut and highlights its complex interactions with gut flora, especially the Ruminococcaceae family.
AbstractList	Intricate ecosystem of the human gut microbiome is affected by various environmental factors, genetic makeup of the individual, and diet. Specifically, resistant starch (RS) is indigestible in the small intestine but nourishes the gut microbiota in the colon. Degradation of RS in the gut begins with primary degraders, such as Bifidobacterium adolescentis and Ruminococcus bromii. Recently, new RS degraders, such as Ruminococcoides bili, have been reported. These microorganisms play crucial roles in the transformation of RS into short-chain fatty acids (SCFAs), such as acetate, propionate, and butyrate. SCFAs are necessary to maintain optimal intestinal health, regulate inflammation, and protect against various illnesses. This review discusses the effects of RS on gut and highlights its complex interactions with gut flora, especially the Ruminococcaceae family.Intricate ecosystem of the human gut microbiome is affected by various environmental factors, genetic makeup of the individual, and diet. Specifically, resistant starch (RS) is indigestible in the small intestine but nourishes the gut microbiota in the colon. Degradation of RS in the gut begins with primary degraders, such as Bifidobacterium adolescentis and Ruminococcus bromii. Recently, new RS degraders, such as Ruminococcoides bili, have been reported. These microorganisms play crucial roles in the transformation of RS into short-chain fatty acids (SCFAs), such as acetate, propionate, and butyrate. SCFAs are necessary to maintain optimal intestinal health, regulate inflammation, and protect against various illnesses. This review discusses the effects of RS on gut and highlights its complex interactions with gut flora, especially the Ruminococcaceae family. Intricate ecosystem of the human gut microbiome is affected by various environmental factors, genetic makeup of the individual, and diet. Specifically, resistant starch (RS) is indigestible in the small intestine but nourishes the gut microbiota in the colon. Degradation of RS in the gut begins with primary degraders, such as Bifidobacterium adolescentis and Ruminococcus bromii. Recently, new RS degraders, such as Ruminococcoides bili, have been reported. These microorganisms play crucial roles in the transformation of RS into short-chain fatty acids (SCFAs), such as acetate, propionate, and butyrate. SCFAs are necessary to maintain optimal intestinal health, regulate inflammation, and protect against various illnesses. This review discusses the effects of RS on gut and highlights its complex interactions with gut flora, especially the Ruminococcaceae family. KCI Citation Count: 0 Intricate ecosystem of the human gut microbiome is affected by various environmental factors, genetic makeup of the individual, and diet. Specifically, resistant starch (RS) is indigestible in the small intestine but nourishes the gut microbiota in the colon. Degradation of RS in the gut begins with primary degraders, such as and . Recently, new RS degraders, such as , have been reported. These microorganisms play crucial roles in the transformation of RS into short-chain fatty acids (SCFAs), such as acetate, propionate, and butyrate. SCFAs are necessary to maintain optimal intestinal health, regulate inflammation, and protect against various illnesses. This review discusses the effects of RS on gut and highlights its complex interactions with gut flora, especially the family. Intricate ecosystem of the human gut microbiome is affected by various environmental factors, genetic makeup of the individual, and diet. Specifically, resistant starch (RS) is indigestible in the small intestine but nourishes the gut microbiota in the colon. Degradation of RS in the gut begins with primary degraders, such as Bifidobacterium adolescentis and Ruminococcus bromii . Recently, new RS degraders, such as Ruminococcoides bili , have been reported. These microorganisms play crucial roles in the transformation of RS into short-chain fatty acids (SCFAs), such as acetate, propionate, and butyrate. SCFAs are necessary to maintain optimal intestinal health, regulate inflammation, and protect against various illnesses. This review discusses the effects of RS on gut and highlights its complex interactions with gut flora, especially the Ruminococcaceae family. Intricate ecosystem of the human gut microbiome is affected by various environmental factors, genetic makeup of the individual, and diet. Specifically, resistant starch (RS) is indigestible in the small intestine but nourishes the gut microbiota in the colon. Degradation of RS in the gut begins with primary degraders, such as Bifidobacterium adolescentis and Ruminococcus bromii. Recently, new RS degraders, such as Ruminococcoides bili, have been reported. These microorganisms play crucial roles in the transformation of RS into short-chain fatty acids (SCFAs), such as acetate, propionate, and butyrate. SCFAs are necessary to maintain optimal intestinal health, regulate inflammation, and protect against various illnesses. This review discusses the effects of RS on gut and highlights its complex interactions with gut flora, especially the Ruminococcaceae family.
Author	Jung, Dong-Hyun Kim, Ye-Jin Park, Cheon-Seok
Author_xml	– sequence: 1 givenname: Ye-Jin surname: Kim fullname: Kim, Ye-Jin organization: Department of Food Science and Biostechnology, Graduate School of Biotechnology and Institute of Life Science and Resources, Kyung Hee University – sequence: 2 givenname: Dong-Hyun surname: Jung fullname: Jung, Dong-Hyun organization: Division of Food and Nutrition, Chonnam National University – sequence: 3 givenname: Cheon-Seok orcidid: 0000-0002-6921-3034 surname: Park fullname: Park, Cheon-Seok email: cspark@khu.ac.kr organization: Department of Food Science and Biostechnology, Graduate School of Biotechnology and Institute of Life Science and Resources, Kyung Hee University
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SubjectTerms	acetates Acetic acid Bifidobacterium adolescentis butyrates Chemistry Chemistry and Materials Science colon diet Digestive system ecosystems Environmental factors family Food Science Gastrointestinal tract Genetic transformation humans inflammation Intestinal microflora intestinal microorganisms Intestine Invited Review Microbiomes Microorganisms Nutrition propionic acid resistant starch Ruminococcaceae Ruminococcus bromii Small intestine Starch 식품과학
Title	Important roles of Ruminococcaceae in the human intestine for resistant starch utilization
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