about
Development of the human infant intestinal microbiotaBordetella pertussis, the causative agent of whooping cough, evolved from a distinct, human-associated lineage of B. bronchisepticaDiversity of the human intestinal microbial floraArchaea and their potential role in human disease.Methanogenic Archaea and human periodontal diseaseNasal microenvironments and interspecific interactions influence nasal microbiota complexity and S. aureus carriageMetagenomic analysis of the human distal gut microbiomeRapid quantitative profiling of complex microbial populationsEarly Transcriptional Signatures of the Immune Response to a Live Attenuated Tetravalent Dengue Vaccine Candidate in Non-human PrimatesSurveillance for Unexplained Deaths and Critical Illnesses Due to Possibly Infectious Causes, United States, 1995-1998A new view of the tree of lifeSequencing and analysis of the genome of the Whipple's disease bacterium Tropheryma whippleiMarine mammals harbor unique microbiotas shaped by and yet distinct from the seaREPRODUCIBLE RESEARCH WORKFLOW IN R FOR THE ANALYSIS OF PERSONALIZED HUMAN MICROBIOME DATAHuman microbiome science: vision for the future, Bethesda, MD, July 24 to 26, 2013Probiotics, prebiotics, and the host microbiome: the science of translation"Inconvenient truths" in the pursuit of scientific knowledge and public healthThe pervasive effects of an antibiotic on the human gut microbiota, as revealed by deep 16S rRNA sequencingIncomplete recovery and individualized responses of the human distal gut microbiota to repeated antibiotic perturbation.How likely is it that biological agents will be used deliberately to cause widespread harm? Policymakers and scientists need to take seriously the possibility that potential pandemic pathogens will be misused.Distinct distal gut microbiome diversity and composition in healthy children from Bangladesh and the United States.Metagenomic detection of phage-encoded platelet-binding factors in the human oral cavity.Actionable sequence data on infectious diseases in the clinical workplace.Lethal invasive cestodiasis in immunosuppressed patients.Localization of Tropheryma whippelii rRNA in tissues from patients with Whipple's disease.Acquired predisposition to mycobacterial disease due to autoantibodies to IFN-gamma.Molecular analysis of the bacterial microbiota in the human stomachHow bacterial communities expand functional repertoires.Phase variation and microevolution at homopolymeric tracts in Bordetella pertussis.Comparative analysis of viral gene expression programs during poxvirus infection: a transcriptional map of the vaccinia and monkeypox genomes.Microbial prevalence, diversity and abundance in amniotic fluid during preterm labor: a molecular and culture-based investigation.Exploring the potential of variola virus infection of cynomolgus macaques as a model for human smallpox.Exploring microbial diversity and taxonomy using SSU rRNA hypervariable tag sequencing.Modulation of the NF-kappaB pathway by Bordetella pertussis filamentous hemagglutinin.Bacterial diversity in the oral cavity of 10 healthy individualsDissecting interferon-induced transcriptional programs in human peripheral blood cells.A geographically-diverse collection of 418 human gut microbiome pathway genome databases.Patterns of host genome-wide gene transcript abundance in the peripheral blood of patients with acute dengue hemorrhagic fever.Microbiota's 'little helpers': bacteriophages and antibiotic-associated responses in the gut microbiome.Application of polymerase chain reaction to the diagnosis of infectious diseases.
P50
Q21003936-1E7C7DE4-1DF4-43EB-AA98-4EA37B17364AQ21131623-E6B3F260-2DFB-4F60-B0A0-3B9481FD0018Q24544241-F47EE2E1-94A8-4CFA-ADFF-FC37A569381FQ24545533-DF426E2B-C2D1-46B6-BBDD-2A6697C9788FQ24568024-25EC6FE2-500A-425E-85A7-216131DF8C90Q24614067-56EA8D24-1B52-4A66-91F8-4E14A4D3E1D4Q24633486-B3EFE2FD-1CD9-4BEE-80F5-17B352A477D7Q25257215-727659BF-7C9F-4BF4-8297-B51E4613E495Q27303669-DCDD51F4-6F30-4FC9-9114-DC55A1EF7B44Q27489402-078E1EE0-DF6A-49F7-BA41-0CA286A021B5Q28005548-EA7B2B89-1DC6-4ABF-A27F-EB2F19E44DE1Q28212154-2A7A3EC3-9DC0-4F9B-AA44-7CA35156CFA9Q28601292-C7FA9586-DD5F-4933-959F-43A2023D0B30Q28602497-7857B8D2-3F79-4E74-9C67-DE6CB244E0EBQ28655573-2000B93F-1A7F-48C3-91CC-35A74D28D788Q28657826-56CC163D-455F-451B-90C0-49C2E5473E55Q28660966-7913C6EB-A235-4427-854B-BFF743430856Q29615054-50DFA6D0-5D92-426B-8B0C-3CB152CAC80BQ29617796-4E6BD749-17A3-43B3-AE08-5DECAD6E307CQ30382649-DA2C0003-9BFF-40DF-A2C2-D47F32ECEC6AQ30422767-15162FFB-443D-4CFC-B758-1D3470EF74BBQ30499059-6062C87F-88DC-48C7-8A53-FC172F318FECQ30869953-3BF5F5E2-D95A-4B50-BBF0-48426B737971Q30945161-9FD058E9-FF88-441D-A241-8D19F1603E1DQ31883147-E16FD12C-CFA6-4B03-B225-B65AA4B6982CQ33222437-F42F155D-7E3C-423F-88F4-9405682BBBD0Q33231429-5B5E09BD-E8EE-4681-A353-2C2CA6D29A2AQ33269788-CA1E65FB-B907-4071-BBEF-C1BAFC0EA9D0Q33284950-EB2BF991-6784-4D1D-A5B7-73904D998DB8Q33350226-6A35DADC-72D1-4CC0-AE9C-2DAE95BF39C3Q33363136-98C4F881-6D32-4EDF-A108-3274DBC03FBFQ33363190-2E644E9B-6ADA-4717-88F1-058CFB408A75Q33385985-9BBC8A7A-BBB6-4FBF-8500-337F3BA65B52Q33388254-B93C88B2-75C0-4A70-A183-98E00F08E431Q33545635-F526217E-2721-4B89-A1A4-098CDD5F49E5Q33546362-594E5E12-B411-4064-A6FD-683F0DED2897Q33552496-0365D7C2-7BB6-4073-8B3F-86ABE1887F52Q33702837-26CE9AE3-40FC-4B8D-A159-763A815E8B12Q33742567-9CBEAB39-E4DB-492B-851A-75B3E2A3D624Q33756514-96728D3A-0F5B-4CE5-AD2A-C4A78FCCEDA7
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
David A Relman
@ast
David A Relman
@en
David A Relman
@es
David A Relman
@nl
David A Relman
@sl
type
label
David A Relman
@ast
David A Relman
@en
David A Relman
@es
David A Relman
@nl
David A Relman
@sl
altLabel
David Relman
@en
prefLabel
David A Relman
@ast
David A Relman
@en
David A Relman
@es
David A Relman
@nl
David A Relman
@sl
P214
P244
P106
P21
P214
P244
n2005182633
P31
P496
0000-0001-8331-1354
P735
P7859
lccn-n2005182633