Unravelling human trypanotolerance: IL8 is associated with infection control whereas IL10 and TNFα are associated with subsequent disease development
about
Trypanosoma brucei gambiense Infections in Mice Lead to Tropism to the Reproductive Organs, and Horizontal and Vertical TransmissionPerformance of the SD BIOLINE® HAT rapid test in various diagnostic algorithms for gambiense human African trypanosomiasis in the Democratic Republic of the CongoAPOL1 renal risk variants have contrasting resistance and susceptibility associations with African trypanosomiasis.Sensitivity and Specificity of a Prototype Rapid Diagnostic Test for the Detection of Trypanosoma brucei gambiense Infection: A Multi-centric Prospective StudySystems analysis uncovers inflammatory Th/Tc17-driven modules during acute GVHD in monkey and human T cells.An Overview of Trypanosoma brucei Infections: An Intense Host-Parasite Interaction.The within-host dynamics of African trypanosome infections.Candidate gene polymorphisms study between human African trypanosomiasis clinical phenotypes in Guinea.The double-edged sword of evolution.Human Leukocyte Antigen-G: A Promising Prognostic Marker of Disease Progression to Improve the Control of Human African Trypanosomiasis.Maintenance of B cells during chronic murine Trypanosoma brucei gambiense infection.A polymorphism in the haptoglobin, haptoglobin related protein locus is associated with risk of human sleeping sickness within Cameroonian populations.Candidate genes-based investigation of susceptibility to Human African Trypanosomiasis in Côte d'Ivoire.Do Cryptic Reservoirs Threaten Gambiense-Sleeping Sickness Elimination?Description of the first sleeping sickness case diagnosed in Burkina Faso since two decadesInflammatory and Pro-resolving Lipids in Trypanosomatid Infections: A Key to Understanding Parasite Control
P2860
Q28552110-A7F9D9FA-81D8-47B0-A374-E033289EB49BQ33866223-A950F324-5D25-4384-A8A1-1D294F8B82F4Q33866444-F4B0373D-515A-4CDD-B74F-6156F1114476Q35983488-82A29780-6F31-4A03-A494-35973EFFAB77Q37439966-8A00E01B-CF3C-4A81-BFD5-C534930C6698Q37531559-414E7A3C-8AB9-48CA-93CD-D160AFB5DDB4Q38543502-6A428630-55A9-4137-8AD3-EB273F9E77B5Q38615202-372DE1B5-0BF0-4E38-8F18-6A4BBD4809B4Q40149300-EDC4CF3D-74E0-42A2-9153-3DA642279FE1Q40595918-17F1B446-3E97-418B-937D-8C2FCF71F8D9Q40633362-FEAB26DF-547E-4F21-9F84-81591DB4D899Q43923950-8A24D4EB-87A9-4067-A0A1-C0FDA973647AQ43923961-0EAEE60C-A981-453A-B52A-A7C38E471E03Q48507471-E024A90D-240C-45FF-8BE8-A2E194CE50F0Q56334721-A0B0D754-17A8-40DF-9C63-E3A91155E3A7Q58728070-C1B0C61F-4911-4D4F-A34D-D0A04ED608EE
P2860
Unravelling human trypanotolerance: IL8 is associated with infection control whereas IL10 and TNFα are associated with subsequent disease development
description
2014 nî lūn-bûn
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2014 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
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2014 թվականի նոյեմբերին հրատարակված գիտական հոդված
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2014年の論文
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2014年学术文章
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2014年学术文章
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2014年学术文章
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name
Unravelling human trypanotoler ...... subsequent disease development
@ast
Unravelling human trypanotoler ...... subsequent disease development
@en
Unravelling human trypanotoler ...... subsequent disease development
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type
label
Unravelling human trypanotoler ...... subsequent disease development
@ast
Unravelling human trypanotoler ...... subsequent disease development
@en
Unravelling human trypanotoler ...... subsequent disease development
@nl
prefLabel
Unravelling human trypanotoler ...... subsequent disease development
@ast
Unravelling human trypanotoler ...... subsequent disease development
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Unravelling human trypanotoler ...... subsequent disease development
@nl
P2093
P2860
P50
P1433
P1476
Unravelling human trypanotoler ...... subsequent disease development
@en
P2093
Bruno Bucheton
Hassane Sakande
Laurence Flori
Mamadou Camara
Mamadou Leno
Oumou Camara
Vincent Jamonneau
P2860
P304
P356
10.1371/JOURNAL.PPAT.1004469
P577
2014-11-06T00:00:00Z