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Douwe Van Sinderen

Bifidobacteria: from ecology to genomics

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TY  - JOUR
  - Turroni, F,van Sinderen, D,Ventura, M
  - 2009
  - January
  - Frontiers In Bioscience
  - Bifidobacteria: from ecology to genomics
  - Validated
  - WOS: 35 ()
  - Bifidobacteria Genomics Probiotic Bacteria Prebiotic Features Review ADOLESCENTIS DSM 20083 ALPHA-L-ARABINOFURANOSIDASE AMINO-ACID-SEQUENCE BETA-FRUCTOFURANOSIDASE INTESTINAL MICROBIOTA COLONIC MICROBIOTA D-GALACTOSIDASE BREVE UCC2003 PROBIOTIC BACTERIA MUCIN DEGRADATION
  - 14
  - 4673
  - 4684
  - Bifidobacteria are high G+C Gram positive bacteria belonging to the phylum Actinobacteria. In recent years bifidobacteria have attracted a lot of attention because of their perceived positive contribution to the functionality of the human gastro intestinal tract. For this reason, scientific research on these bacteria has been rapidly expanding, in particular in areas such as genomics, molecular ecology and genetics. Ecological studies together with genome-based sequencing efforts have provided scientific evidence for the considerable contribution of bifidobacteria to the human gut microbiome. Furthermore, bifidobacterial genomics has revealed various genetic adaptations of these bacteria to the gastrointestinal niche.
  - 10.2741/3559
DA  - 2009/01
ER  - 
@article{V243942013,
   = {Turroni,  F and van Sinderen,  D and Ventura,  M },
   = {2009},
   = {January},
   = {Frontiers In Bioscience},
   = {Bifidobacteria: from ecology to genomics},
   = {Validated},
   = {WOS: 35 ()},
   = {Bifidobacteria Genomics Probiotic Bacteria Prebiotic Features Review ADOLESCENTIS DSM 20083 ALPHA-L-ARABINOFURANOSIDASE AMINO-ACID-SEQUENCE BETA-FRUCTOFURANOSIDASE INTESTINAL MICROBIOTA COLONIC MICROBIOTA D-GALACTOSIDASE BREVE UCC2003 PROBIOTIC BACTERIA MUCIN DEGRADATION},
   = {14},
  pages = {4673--4684},
   = {{Bifidobacteria are high G+C Gram positive bacteria belonging to the phylum Actinobacteria. In recent years bifidobacteria have attracted a lot of attention because of their perceived positive contribution to the functionality of the human gastro intestinal tract. For this reason, scientific research on these bacteria has been rapidly expanding, in particular in areas such as genomics, molecular ecology and genetics. Ecological studies together with genome-based sequencing efforts have provided scientific evidence for the considerable contribution of bifidobacteria to the human gut microbiome. Furthermore, bifidobacterial genomics has revealed various genetic adaptations of these bacteria to the gastrointestinal niche.}},
   = {10.2741/3559},
  source = {IRIS}
}
AUTHORSTurroni, F,van Sinderen, D,Ventura, M
YEAR2009
MONTHJanuary
JOURNAL_CODEFrontiers In Bioscience
TITLEBifidobacteria: from ecology to genomics
STATUSValidated
TIMES_CITEDWOS: 35 ()
SEARCH_KEYWORDBifidobacteria Genomics Probiotic Bacteria Prebiotic Features Review ADOLESCENTIS DSM 20083 ALPHA-L-ARABINOFURANOSIDASE AMINO-ACID-SEQUENCE BETA-FRUCTOFURANOSIDASE INTESTINAL MICROBIOTA COLONIC MICROBIOTA D-GALACTOSIDASE BREVE UCC2003 PROBIOTIC BACTERIA MUCIN DEGRADATION
VOLUME14
ISSUE
START_PAGE4673
END_PAGE4684
ABSTRACTBifidobacteria are high G+C Gram positive bacteria belonging to the phylum Actinobacteria. In recent years bifidobacteria have attracted a lot of attention because of their perceived positive contribution to the functionality of the human gastro intestinal tract. For this reason, scientific research on these bacteria has been rapidly expanding, in particular in areas such as genomics, molecular ecology and genetics. Ecological studies together with genome-based sequencing efforts have provided scientific evidence for the considerable contribution of bifidobacteria to the human gut microbiome. Furthermore, bifidobacterial genomics has revealed various genetic adaptations of these bacteria to the gastrointestinal niche.
PUBLISHER_LOCATION
ISBN_ISSN
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URL
DOI_LINK10.2741/3559
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