about
Structure, function and diversity of the healthy human microbiomeImplications of the human microbiome in inflammatory bowel diseasesAn introduction to the analysis of shotgun metagenomic dataHuman Microbiome: When a Friend Becomes an EnemyIL-22 deficiency alters colonic microbiota to be transmissible and colitogenic.Ezakiella peruensis gen. nov., sp. nov. isolated from human fecal sample from a coastal traditional community in PeruBiodiversity and functional genomics in the human microbiome.Beyond classification: gene-family phylogenies from shotgun metagenomic reads enable accurate community analysis.Loss of Sirt1 function improves intestinal anti-bacterial defense and protects from colitis-induced colorectal cancer.The "most wanted" taxa from the human microbiome for whole genome sequencingThe Human Microbiome Project: a community resource for the healthy human microbiome.A direct PCR approach to accelerate analyses of human-associated microbial communitiesImplications of the human microbiome project for epidemiologyAssembly of viral genomes from metagenomes.The inconstant gut microbiota of Drosophila species revealed by 16S rRNA gene analysis.Assembling single-cell genomes and mini-metagenomes from chimeric MDA productsCaecal fermentation, putrefaction and microbiotas in rats fed milk casein, soy protein or fish meal.Reconstructing the genomic content of microbiome taxa through shotgun metagenomic deconvolution.Active and secreted IgA-coated bacterial fractions from the human gut reveal an under-represented microbiota coreCaecal environment of rats fed far East Asian-modelled diets.Microbial communities present in the lower respiratory tract of clinically healthy birds in Pakistan.The human microbiota: the rise of an "empire".Accurate read-based metagenome characterization using a hierarchical suite of unique signatures.Clostridium amazonense sp. nov. an obliqately anaerobic bacterium isolated from a remote Amazonian community in Peru.Metagenomic Approach for Identification of the Pathogens Associated with Diarrhea in Stool SpecimensThe mucosal microbiome in shaping health and disease.Sputum DNA sequencing in cystic fibrosis: non-invasive access to the lung microbiome and to pathogen details.Next-generation sequencing technologies and their impact on microbial genomics.Selective proliferation of intestinal Barnesiella under fucosyllactose supplementation in mice.BACTERIOPHAGES OF THE URINARY MICROBIOME.Xiexin Tang improves the symptom of type 2 diabetic rats by modulation of the gut microbiota.Global Ramifications of Dust and Sandstorm MicrobiotaSequence similarity network reveals the imprints of major diversification events in the evolution of microbial life
P2860
Q24626370-DF9ABEC8-4274-4A08-AFCD-D43A10E0D886Q27022773-E9467643-1D0C-456D-987B-F8C61DE6C488Q27028042-693D6C8D-890B-4318-8717-A174F0C89FF2Q28085629-03819679-0954-4E38-B0CA-EC586EF8371FQ30539616-27654210-37EB-4620-BDE4-FEC9139E951FQ30875218-EFD1F356-C08D-4BCF-92BB-240801BCFD68Q31106599-FEA994CA-BE8F-4EF6-8CA5-34F1771FA52AQ31121929-0FBD47D0-377C-4E48-86CB-F505CEAEC71AQ33890004-8D29FE2F-74F9-402D-A6DC-9ACBAAC918E4Q34358290-FBCEE89B-448D-4E97-B83B-F8968F41E293Q34384120-6E13AAEC-260B-454E-9E29-DE30D31E9D32Q34409891-4F88D53B-5A56-4F56-B670-88162F9E3215Q34538581-BEBC4DF8-8B49-4321-A51D-7EB429FEE02AQ34730126-352E4FBB-2C8B-4BBD-9C4A-E357F71AE5F2Q34747073-C3DF7EB2-520E-4750-9DDC-3394CD86C418Q35007840-78DC61F3-2D70-4319-A23E-CECB5697D82DQ35013878-2815FDDA-B894-4141-9B47-AF804DC6F138Q35022283-DA3165A7-D7F6-4A6C-BC4D-28C40FCEA79AQ35068618-05503DB8-0375-47D3-B5D6-BD2D5BB4C108Q35095011-946C6EB5-9053-4AE9-8DD7-A3982B1F3D92Q35558686-CCFD9644-4880-4C35-AB32-7F4F5F87AAACQ35576831-2175E7A8-4B19-4858-B117-EA958DA9EFC2Q35656712-C8D9F7EE-A848-43BB-B6B5-2E81369EAFA1Q35678030-6F1839F4-4464-4565-9A98-6A63D51BBC3DQ35861348-FB8CD03F-DD0D-45AF-B4F6-6E84F69CFA0CQ37557131-370BA894-EAC3-436A-96FC-CC548C7710F4Q37637169-080BACC0-8670-4B9D-95F2-51ECF9280636Q38073562-98E7F575-1F01-405C-B899-C3E2C10B5EBBQ46947879-BD215922-1EDF-40E7-83CD-882C061C6CC3Q47548167-CC3EAD6F-669F-4911-B631-FC9DF0B26F7EQ52682415-5387E69F-BF7E-4517-9B44-DE22D1006647Q56907683-45F3534B-5D65-41E2-9C83-08CBA0A1432BQ57898449-FE566A48-5BEC-481E-807A-69C7DD5A76A0
P2860
description
2012 nî lūn-bûn
@nan
2012 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Novel bacterial taxa in the human microbiome
@ast
Novel bacterial taxa in the human microbiome
@en
Novel bacterial taxa in the human microbiome
@nl
type
label
Novel bacterial taxa in the human microbiome
@ast
Novel bacterial taxa in the human microbiome
@en
Novel bacterial taxa in the human microbiome
@nl
prefLabel
Novel bacterial taxa in the human microbiome
@ast
Novel bacterial taxa in the human microbiome
@en
Novel bacterial taxa in the human microbiome
@nl
P2093
P2860
P50
P1433
P1476
Novel bacterial taxa in the human microbiome
@en
P2093
Hongyu Gao
Katherine S Pollard
Kristine M Wylie
Rebecca M Truty
Yanjiao Zhou
P2860
P304
P356
10.1371/JOURNAL.PONE.0035294
P407
P577
2012-06-13T00:00:00Z