A history of recurrent positive selection at the toll-like receptor 5 in primates.
about
Primary immunodeficiencies of pattern recognition receptorsSingle nucleotide polymorphisms of Toll-like receptors and susceptibility to infectious diseasesPopulation genetic tools for dissecting innate immunity in humansEvolutionary dynamics of human Toll-like receptors and their different contributions to host defenseDifferent selective pressures shape the evolution of Toll-like receptors in human and African great ape populationsReptile Toll-like receptor 5 unveils adaptive evolution of bacterial flagellin recognitionPromiscuity and the rate of molecular evolution at primate immunity genesAncient origin of placental expression in the growth hormone genes of anthropoid primatesAdaptive evolution and functional constraint at TLR4 during the secondary aquatic adaptation and diversification of cetaceans.Adaptive evolution of Toll-like receptor 5 in domesticated mammals.Signatures of positive selection in Toll-like receptor (TLR) genes in mammals.Protein evolution of Toll-like receptors 4, 5 and 7 within Galloanserae birdsLinking genetic variation in human Toll-like receptor 5 genes to the gut microbiome's potential to cause inflammation.Adaptation and constraint at Toll-like receptors in primatesConstraint and adaptation in newt toll-like receptor genes.Positive evolutionary selection on the RIG-I-like receptor genes in mammalsThe contribution of natural selection to present-day susceptibility to chronic inflammatory and autoimmune disease.Infectious disease and group size: more than just a numbers game.The evolution of bat nucleic acid-sensing Toll-like receptors.Conserved regulatory architecture underlies parallel genetic changes and convergent phenotypic evolutionGenetic diversity of Toll-like receptor 5 among pig populations.Functional characterisation of bovine TLR5 indicates species-specific recognition of flagellin.Expression and functional importance of innate immune receptors by intestinal epithelial cells.Toll-like receptors' pathway disturbances are associated with increased susceptibility to infections in humans.Characterization of the peripheral blood transcriptome and adaptive evolution of the MHC I and TLR gene families in the wolf (Canis lupus).Targeting Deficiencies in the TLR5 Mediated Vaginal Response to Treat Female Recurrent Urinary Tract Infection.Characterisation of Toll-like receptors 4, 5 and 7 and their genetic variation in the grey partridge.Different genetic patterns in avian Toll-like receptor (TLR)5 genes.Identification of a Toll-like receptor 1 in guinea fowl (Agelastes niger).Contrasting patterns of diversity and population differentiation at the innate immunity gene toll-like receptor 2 (TLR2) in two sympatric rodent species.Signatures of selection acting on the innate immunity gene Toll-like receptor 2 (TLR2) during the evolutionary history of rodents.Molecular evolution of the toll-like receptor multigene family in birds.
P2860
Q26828952-7E4ECCB8-EAC0-46E2-96AC-4BC5DDF52261Q26863523-9FFDD9A9-90B6-4175-A267-BF37F002C4A4Q27001032-90F84927-B7FA-47DD-9B12-FB2854BBC970Q28252291-6AC6C2EB-C5C0-47C4-9F8C-FD47A5917782Q28294476-EB8D9224-E851-4B8D-9110-032DE6BD2DA3Q28602976-214D6F8D-7CE2-4551-8272-2694657BD089Q28749670-157567D0-F334-4177-AB53-A036C2938323Q28751460-ACECC3F7-B968-47AA-BE5A-016DF3AFA1B5Q30518775-B39CFD76-8B4F-4195-8AAC-CB93D9718CD5Q30527793-515707DD-C202-4997-ACB2-2166DD34B726Q34106795-C6FC1747-CBFE-4158-BD0F-51942EB1804CQ34491472-2AD4AEAB-E08E-423A-8723-DB7F38BF38CDQ34656930-88D101BD-D6DD-4DC4-86D8-F2C823896483Q35022919-26BFFE86-86D1-4F9D-9C85-473E2E2BE193Q35047505-731D566E-2BAF-4F50-9422-07A3E4EFBF8EQ35060758-E8A70867-F051-4226-8930-0EAC496306D2Q35130067-B0604020-2AB9-43E0-9B65-F98BB7A5CC29Q35540344-8CBEE1C7-832D-478F-A94C-E7375E49EB79Q35821944-10457AE8-5D8C-4DBA-8C53-4162FCB142CEQ36485162-1F2AD856-0F02-4B53-97C2-40135F18F2CAQ36737465-D5CFE482-2990-4AD5-A7BF-95F9EFD4284FQ37671421-DE9EDC0B-3B82-49C9-A26D-3689A2C85770Q37943794-350DE275-F850-4BE1-BEA4-B68829D89A8BQ38140711-92C1DB66-5AF1-4D6D-8069-3F747E84D4F8Q38430313-6DC331A6-834B-4B20-A734-1666A2190D18Q40059623-0401CFAD-9D13-47D9-B3CC-E232924A6308Q42173563-50FC6BA1-6645-4E1F-BC40-28DD5204A0C5Q42607254-0C5B8D58-F0B9-41F3-BDF8-E9C15EFFB22CQ42647550-5BD1CDA2-7A38-4334-A857-874691001213Q51569835-2F8B4DF2-22D3-4A05-A598-AFD2D60A9651Q51589859-872C3910-2CCA-4DF9-B27A-9281D42E2613Q51609867-0FC0C29F-6BC3-4049-88FC-C57AD8037B4C
P2860
A history of recurrent positive selection at the toll-like receptor 5 in primates.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 29 January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
A history of recurrent positive selection at the toll-like receptor 5 in primates.
@en
A history of recurrent positive selection at the toll-like receptor 5 in primates.
@nl
type
label
A history of recurrent positive selection at the toll-like receptor 5 in primates.
@en
A history of recurrent positive selection at the toll-like receptor 5 in primates.
@nl
prefLabel
A history of recurrent positive selection at the toll-like receptor 5 in primates.
@en
A history of recurrent positive selection at the toll-like receptor 5 in primates.
@nl
P2093
P2860
P356
P1476
A history of recurrent positive selection at the toll-like receptor 5 in primates.
@en
P2093
Gabriela Wlasiuk
Michael W Nachman
Soofia Khan
P2860
P304
P356
10.1093/MOLBEV/MSP018
P577
2009-01-29T00:00:00Z