Microbiota_(g%C3%A8nere)Dv%C3%A6rglivstr%C3%A6-sl%C3%A6gten%D0%9C%D0%B8%D0%BA%D1%80%D0%BE%D0%B1%D0%B8%D0%BE%D1%82%D0%B0%D0%9C%D0%B8%D0%BA%D1%80%D0%BE%D0%B1%D0%B8%D0%BE%D1%82%D0%B0%D0%9C%D0%B8%D0%BA%D1%80%D0%BE%D0%B1%D0%B8%D0%BE%D1%82%D0%B0Microbiota%D0%9C%D0%B8%D0%BA%D1%80%D0%BE%D0%B1%D0%B8%D0%BE%D1%82%D0%B0Microbiota%D0%9C%D0%B8%D0%BA%D1%80%D0%BE%D0%B1%D0%B8%D0%BE%D1%82%D0%B0%D0%9C%D1%96%D0%BA%D1%80%D0%BE%D0%B1%D1%96%D0%BE%D1%82%D0%B0Q13073722
about
P427
The impact of metagenomic interplay on the mosquito redox homeostasisMicrobiota and pathogen 'pas de deux': setting up and breaking down barriers to intestinal infection.The Hybrid Mouse Diversity Panel: a resource for systems genetics analyses of metabolic and cardiovascular traits.T cell epitope mimicry between Sjögren's syndrome Antigen A (SSA)/Ro60 and oral, gut, skin and vaginal bacteria.Tetranychus urticae mites do not mount an induced immune response against bacteria.Management of colonic diverticular disease in the third millennium: Highlights from a symposium held during the United European Gastroenterology Week 2017.Intestinal Microbiota Influences Non-intestinal Related Autoimmune Diseases.Emerging concepts in non-invasive monitoring of Crohn's disease.A Metabolomic-Based Evaluation of the Role of Commensal Microbiota throughout the Gastrointestinal Tract in MiceThe Digestive Health among Participants of the Woodstock Rock Festival in Poland-A Cross-Sectional SurveyHow to Process Sputum Samples and Extract Bacterial DNA for Microbiota AnalysisEditorial [Hot topic: Microbiota, Innate Immune and Anti-Inflammation (Guest Editor: Jun Sun)]Fecal Microbiota Analysis in Patients Going through a Depressive Episode during Treatment in a Psychiatric Hospital SettingHealth Outcomes, Pathogenesis and Epidemiology of Severe Acute Malnutrition (HOPE-SAM): rationale and methods of a longitudinal observational studyStunted childhood growth is associated with decompartmentalization of the gastrointestinal tract and overgrowth of oropharyngeal taxaThe microbiome of Haemaphysalis lemuris (Acari: Ixodidae), a possible vector of pathogens of endangered lemur species in MadagascarDiversity and Composition of Pelagic Prokaryotic and Protist Communities in a Thin Arctic Sea-Ice RegimeContribution of Host Defence Proteins and Peptides to Host-Microbiota Interactions in Chronic Inflammatory Lung DiseasesCloacal and Ocular Microbiota of the Endangered Australian Northern QuollIn Vitro Fermentation Behavior of Isomalto/Malto-Polysaccharides Using Human Fecal Inoculum Indicates Prebiotic PotentialImpact of Altered Intestinal Microbiota on Chronic Kidney Disease ProgressionStreptococcus Salivarius: A Potential Salivary Biomarker for Orofacial Granulomatosis and Crohn's Disease?Isolation of novel gut bifidobacteria using a combination of metagenomic and cultivation approachesFunctional dysbiosis within dental plaque microbiota in cleft lip and palate patientssecreted antigen A generates muropeptides to enhance host immunity and limit bacterial pathogenesisCorrigendum: Sialyllactose and Galactooligosaccharides Promote Epithelial Barrier Functioning and Distinctly Modulate Microbiota Composition and Short Chain Fatty Acid ProductionGender-Specific Associations Between Saliva Microbiota and Body Sizegen. nov., sp. nov.; gen. nov., sp. nov.; gen. nov., sp. nov. and sp. nov. isolated from breast milk from healthy breastfeeding African womenIssues and current standards of controls in microbiome researchCorrelations of the Gastric and Duodenal Microbiota with Histological, Endoscopic, and Symptomatic GastritisDSM 32315 Supplementation Attenuates the Effects of Challenge on the Growth Performance and Intestinal Microbiota of Broiler ChickensA Preventive Prebiotic Supplementation Improves the Sweet Taste Perception in Diet-Induced Obese MiceDisruption of sleep architecture in Prevotella enterotype of patients with obstructive sleep apnea-hypopnea syndromeA Pilot Low-Inflammatory Dietary Intervention to Reduce Inflammation and Improve Quality of Life in Patients With Familial Adenomatous Polyposis: Protocol Description and Preliminary ResultsMAMI: a birth cohort focused on maternal-infant microbiota during early lifeCNCM I-745 Modulates the Fecal Bile Acids Metabolism During Antimicrobial Therapy in Healthy VolunteersNegligible Impact of Perinatal Tulathromycin Metaphylaxis on the Developmental Dynamics of Fecal Microbiota and Their Accompanying Antimicrobial Resistome in PigletsChronic Inflammatory Diseases: Are We Ready for Microbiota-based Dietary Intervention?The Gut Microbiota-Host Partnership as a Potential Driver of Kawasaki SyndromeProbiotics and Prebiotics for the Amelioration of Type 1 Diabetes: Present and Future Perspectives
P921
Q28067079-20C794F0-7CF4-4EA2-A9FB-E421FA134EC4Q30276689-EBBC87FA-74A3-4840-958F-C67479428627Q30276950-95FF2091-E829-4436-8D47-0666711CEA4FQ30405454-AB0723A8-6716-45F0-A789-EBA9BC054334Q51201943-5C1FA6F1-9C1E-47D9-A45D-43CAE229F48CQ54965289-25EB204E-915D-453A-89CD-22C68A54DD1EQ55195884-85DE6BE8-4BE3-4B45-945E-39DF537DCBDFQ55364545-7548E075-3F38-499F-9DD5-40856D835D51Q57065418-89532696-A9FA-4038-8107-D90AD51B69DBQ57463046-4C771317-CF44-4D91-859C-BB5C0C229400Q57808236-C8636405-B69D-4209-8097-7F988C0055D3Q60585231-918BD091-EC4B-48F6-BF6E-B538A8ED09B8Q61943463-BBB4BFE8-27D0-419F-8216-C482B5FDB7BCQ62486855-A0B92C04-A07A-4E48-888E-7A62278D605BQ62489043-09E619EC-ABC2-4586-91D5-3B8F96D21752Q62490184-78FBC4D5-C5F4-4674-9870-934B4EB34BFEQ62491851-EEA6AA37-27C7-4414-81E3-23AF7A27E907Q62589151-A6FA7013-C5FC-44B3-8AC0-A49DF9186FFEQ62897697-0238D33D-EA15-4E09-B71D-82F01E6CA6A0Q63379436-371C5FBD-B813-4F3A-A482-78D8A06621F7Q63684332-09FBA766-C74D-417B-80F3-B1ABF92A9674Q64040318-2EA0B1C0-5776-4215-8154-0DBF5C9FA1F3Q64053510-BFEE2ACC-DE52-4832-B326-48F4FE6747B8Q64056840-F9F614BB-5260-4A65-9051-AD439A2C69E9Q64058301-12BCC190-97C7-48FC-B122-97065788506DQ64058632-748BF138-64EF-4CD4-8AA2-369A4538BB56Q64058753-BE24D736-FEB1-41D2-99C9-A5E8B61ECAEFQ64059004-B1EF51CA-7AAD-4CF5-A432-1B4C3093242BQ64062909-9B8B1405-E0D3-465F-B0C4-D094167F39E5Q64063574-D13261D2-26EB-4482-ABD8-83DB64CA56C3Q64064021-5D245602-C89A-4891-A7C6-2A488E36D79AQ64064410-960A4E77-B00B-4826-B2A6-BA9F9B363084Q64066103-6E2DA6B9-D7BF-49F0-BD21-F97D56E12FF2Q64067021-6A0B730A-1EFE-4A31-8833-4BE655241091Q64067400-CDFEB96C-B701-4233-BF3B-4357D9475293Q64067716-F508BB3B-991B-4C14-AE8F-01E243E861F5Q64071759-D03969E7-18A2-472F-A8CC-0307C248E6E2Q64071914-7F62240B-6D81-4AA5-8524-4CB852FC44A9Q64071991-AD17C64F-89F8-4141-B39B-127A0CD2A824Q64072310-40426B17-11FE-482E-9223-14B76E75464E
P921
description
Gattung der Familie Zypressengewächse (Cupressaceae)
@de
gen de plante
@ro
genero di planti
@io
genre de plantes
@fr
genus of plants
@en
genus tumbuh-tumbuhan
@id
geslacht uit de familie Taxodiaceae
@nl
gjini e bimëve
@sq
gènere de plantes
@ca
género de plantas
@es
name
Dværglivstræ-slægten
@da
Microbiota
@ast
Microbiota
@bg
Microbiota
@ca
Microbiota
@de
Microbiota
@en
Microbiota
@es
Microbiota
@fr
Microbiota
@ga
Microbiota
@hu
type
label
Dværglivstræ-slægten
@da
Microbiota
@ast
Microbiota
@bg
Microbiota
@ca
Microbiota
@de
Microbiota
@en
Microbiota
@es
Microbiota
@fr
Microbiota
@ga
Microbiota
@hu
altLabel
Macrobiota
@en
Microbiota
@da
микробиота
@ru
prefLabel
Dværglivstræ-slægten
@da
Microbiota
@ast
Microbiota
@bg
Microbiota
@ca
Microbiota
@de
Microbiota
@en
Microbiota
@es
Microbiota
@fr
Microbiota
@ga
Microbiota
@hu
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5b01c91d-918e-42b9-8408-45a48d7917c4
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P5037
urn:lsid:ipni.org:names:31976-1