Massive parallel 16S rRNA gene pyrosequencing reveals highly diverse fecal bacterial and fungal communities in healthy dogs and cats.
about
Metagenomic surveys of gut microbiotaCats are not small dogs: is there an immunological explanation for why cats are less affected by arthropod-borne disease than dogs?16S rRNA gene pyrosequencing reveals bacterial dysbiosis in the duodenum of dogs with idiopathic inflammatory bowel diseaseCharacterization of Microbial Population Shifts during Sample StorageBacterial and archaea community present in the Pine Barrens Forest of Long Island, NY: unusually high percentage of ammonia oxidizing bacteriaPotential Environmental Factors Affecting Oil-Degrading Bacterial Populations in Deep and Surface Waters of the Northern Gulf of MexicoToolbox Approaches Using Molecular Markers and 16S rRNA Gene Amplicon Data Sets for Identification of Fecal Pollution in Surface Water.Molecular assessment of the fecal microbiota in healthy cats and dogs before and during supplementation with fructo-oligosaccharides (FOS) and inulin using high-throughput 454-pyrosequencingBacterial microbiome of the nose of healthy dogs and dogs with nasal disease.The fecal microbiota of semi-free-ranging wood bison (Bison bison athabascae).A diet change from dry food to beef induces reversible changes on the faecal microbiota in healthy, adult client-owned dogsThe gastrointestinal tract of farmed mink (Neovison vison) maintains a diverse mucosa-associated microbiota following a 3-day fasting periodUtilizing pyrosequencing and quantitative PCR to characterize fungal populations among house dust samples.Bacterial microbiome in the nose of healthy cats and in cats with nasal diseaseDeep Illumina-based shotgun sequencing reveals dietary effects on the structure and function of the fecal microbiome of growing kittens.Molecular analysis of bacterial communities in biofilms of a drinking water clearwell.Effect of a multi-species synbiotic formulation on fecal bacterial microbiota of healthy cats and dogs as evaluated by pyrosequencing.Equine stomachs harbor an abundant and diverse mucosal microbiota.Intestinal aganglionosis is associated with early and sustained disruption of the colonic microbiome.Faecal microbiota of cats with insulin-treated diabetes mellitusOligotyping reveals differences between gut microbiomes of free-ranging sympatric Namibian carnivores (Acinonyx jubatus, Canis mesomelas) on a bacterial species-like levelCoaggregation occurs amongst bacteria within and between biofilms in domestic showerheads.Microbial dysbiosis in pediatric patients with Crohn's disease.Consumption of different soymilk formulations differentially affects the gut microbiomes of overweight and obese men.Dietary format alters fecal bacterial populations in the domestic cat (Felis catus)The fecal microbiome in dogs with acute diarrhea and idiopathic inflammatory bowel diseasePyrosequencing the canine faecal microbiota: breadth and depth of biodiversity.Microbiota alterations in acute and chronic gastrointestinal inflammation of cats and dogs2011 and 2012 Early Careers Achievement Awards: use of genomic biology to study companion animal intestinal microbiota.Evaluating bacterial community structures in oil collected from the sea surface and sediment in the northern Gulf of Mexico after the Deepwater Horizon oil spill.A high-throughput microfluidic dental plaque biofilm system to visualize and quantify the effect of antimicrobialsEffects of dietary cooked navy bean on the fecal microbiome of healthy companion dogs.Ruminant feces harbor diverse uncultured symbiotic actinobacteria.Post-weaning diet affects faecal microbial composition but not selected adipose gene expression in the cat (Felis catus).The fungal microbiome in chronic rhinosinusitis: richness, diversity, postoperative changes and patient outcomes.Human milk oligosaccharides shorten rotavirus-induced diarrhea and modulate piglet mucosal immunity and colonic microbiota.Phylogenetic analysis of faecal microbiota from captive cheetahs reveals underrepresentation of Bacteroidetes and Bifidobacteriaceae.Elucidation of bacteria found in car interiors and strategies to reduce the presence of potential pathogens.Fecal microbiota of cats with naturally occurring chronic diarrhea assessed using 16S rRNA gene 454-pyrosequencing before and after dietary treatment.Comparative analysis of bacterial diversity and communities inhabiting the fairy ring of Tricholoma matsutake by barcoded pyrosequencing.
P2860
Q26799820-A066C0E7-F535-49B5-9452-61CE0DEB61A6Q28077205-5757C27F-2C45-48F3-9153-A6E1943C6F1CQ28728392-71B8C395-4752-4D1F-AF47-F846FCBEFD65Q28732030-1B3C12F4-F805-4A70-A941-DD345560A6FDQ28743653-72545F82-92C4-4A77-8A93-EDE6E1609C51Q30834395-4572CF40-8044-4E8E-AC11-B3D45BCBFF97Q30984340-CCD70F12-9948-4D25-8B8E-A60D767F458FQ33583670-E7B141A8-32E3-4890-BB97-A91981E65F25Q33620944-3F6765BD-1E51-4F98-8F5E-139557D726FDQ33723118-A735A01B-F73D-45EC-9721-6463494C8CE0Q33743470-6CACD5E1-0F08-40EE-A078-C8A55B9E1757Q33762652-AA98EE3C-B96B-4AD7-8C51-A1C53E018353Q33836314-E2A9F71B-0BA8-4E44-942A-AAADBB2E09E1Q33853557-E07F40A6-5C00-46E8-A0EF-5C019F14D040Q33881631-F1B58A59-942D-46EF-BFD9-74FF9B2EDE52Q33920304-69A22100-32FB-4432-935B-A7F6726DF4C8Q34069944-96954662-AC55-423D-8ED9-8323471872B4Q34151290-02DE475F-7C6F-4B67-B35C-0EED26C22407Q34280698-03DCA08E-6458-4B23-B766-C098B6E89C61Q34287258-CFB19DF8-6A3D-46CF-A6BE-CFCD5406DC0FQ34336377-D279165A-00E0-4CBA-8997-175AF6B4CB0CQ34351315-5294B8C6-2AEC-4358-A5E7-CD006A2B6D24Q34353528-FC9AA725-CCE1-456C-A85F-660EEB36632EQ34380926-737B590D-207A-4988-8B26-2C9A16F93726Q34538882-00F907DA-5F52-4370-9D52-DA0C01FEE720Q34540297-2A923E3B-AC45-4809-B8AA-395C1B8CF367Q34575179-583940B2-69C2-4E0B-AA86-80EB9BE97744Q34589689-2A7BB17A-A7C2-4FBA-99B3-E5219CC28EA4Q34617853-7D4432E2-7603-4044-AAB2-2ECBDAAE2325Q34660216-C0DB2080-D712-4339-8BCB-54F48F7BDCC0Q34784019-A47C5BDA-CE7A-48CD-A38E-A5FB4EEDB23DQ34990462-AB747A13-5D79-4E28-A8AD-1471168943FAQ35021465-45A03035-2DC5-450F-869F-58F9A2B31B7FQ35060397-1A5E7BA5-E570-4CA7-BF67-7EF3FDF817F1Q35087142-A73BD72B-D796-4A92-85B7-0FF5E308AC10Q35093316-9687068C-3BC1-4A6D-853C-79686AB818D2Q35096720-650F4FDB-ECD3-4130-837F-DCC2255E56C0Q35101792-9F64EDED-8118-4395-B5DF-DE747AF79D48Q35109992-89D3780E-6D9E-4F2A-9BF1-4F61BBF04FACQ35186651-D6CA22C6-18E4-4204-BF85-F0961A594900
P2860
Massive parallel 16S rRNA gene pyrosequencing reveals highly diverse fecal bacterial and fungal communities in healthy dogs and cats.
description
2011 nî lūn-bûn
@nan
2011 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Massive parallel 16S rRNA gene ...... ties in healthy dogs and cats.
@ast
Massive parallel 16S rRNA gene ...... ties in healthy dogs and cats.
@en
type
label
Massive parallel 16S rRNA gene ...... ties in healthy dogs and cats.
@ast
Massive parallel 16S rRNA gene ...... ties in healthy dogs and cats.
@en
prefLabel
Massive parallel 16S rRNA gene ...... ties in healthy dogs and cats.
@ast
Massive parallel 16S rRNA gene ...... ties in healthy dogs and cats.
@en
P2860
P50
P1476
Massive parallel 16S rRNA gene ...... ities in healthy dogs and cats
@en
P2093
Jörg M Steiner
Stefanie Handl
P2860
P304
P356
10.1111/J.1574-6941.2011.01058.X
P577
2011-02-14T00:00:00Z