Diet shapes the evolution of the vertebrate bitter taste receptor gene repertoire.
about
Drosophila Bitter Taste(s)Marine invertebrate xenobiotic-activated nuclear receptors: their application as sensor elements in high-throughput bioassays for marine bioactive compoundsSequence Analysis of Bitter Taste Receptor Gene Repertoires in Different Ruminant SpeciesGourds and squashes (Cucurbita spp.) adapted to megafaunal extinction and ecological anachronism through domesticationDifferentiated adaptive evolution, episodic relaxation of selective constraints, and pseudogenization of umami and sweet taste genes TAS1Rs in catarrhine primatesPositive Darwinian selection in the singularly large taste receptor gene family of an 'ancient' fish, Latimeria chalumnaeVampire bats exhibit evolutionary reduction of bitter taste receptor genes common to other batsGenes, emotions and gut microbiota: The next frontier for the gastroenterologist.Massive losses of taste receptor genes in toothed and baleen whales.The loss of taste genes in cetaceansCharacterization of the porcine nutrient and taste receptor gene repertoire in domestic and wild populations across the globeThe bamboo-eating giant panda (Ailuropoda melanoleuca) has a sweet tooth: behavioral and molecular responses to compounds that taste sweet to humans.A functional comparison of the domestic cat bitter receptors Tas2r38 and Tas2r43 with their human orthologsRapid Expansion of Phenylthiocarbamide Non-Tasters among Japanese Macaques.Functional Analyses of Bitter Taste Receptors in Domestic Cats (Felis catus)Dietary specialization drives multiple independent losses and gains in the bitter taste gene repertoire of Laurasiatherian Mammals.Birds Generally Carry a Small Repertoire of Bitter Taste Receptor GenesBitter and sweet taste receptors in the respiratory epithelium in health and diseaseGenetic variation in bitter taste receptor genes influences the foraging behavior of plateau zokor (Eospalax baileyi).Differential bitterness in capsaicin, piperine, and ethanol associates with polymorphisms in multiple bitter taste receptor genes.Comprehensive Analysis of Mouse Bitter Taste Receptors Reveals Different Molecular Receptive Ranges for Orthologous Receptors in Mice and Humans.Bitter taste genetics--the relationship to tasting, liking, consumption and health.Role of the bitter taste receptor T2R38 in upper respiratory infection and chronic rhinosinusitis.Taste receptors in innate immunityGenomic evidence of bitter taste in snakes and phylogenetic analysis of bitter taste receptor genes in reptiles.The repertoire of bitter taste receptor genes in canids.Taste Receptors: Regulators of Sinonasal Innate Immunity.Bitter or not? BitterPredict, a tool for predicting taste from chemical structure.A Matter of Taste: Lineage-Specific Loss of Function of Taste Receptor Genes in Vertebrates.Lineage-specific evolution of bitter taste receptor genes in the giant and red pandas implies dietary adaptation.Probing the Evolutionary History of Human Bitter Taste Receptor Pseudogenes by Restoring Their Function.Reception of Aversive Taste.Copy Number Variation in TAS2R Bitter Taste Receptor Genes: Structure, Origin, and Population Genetics.Frequent expansions of the bitter taste receptor gene repertoire during evolution of mammals in the Euarchontoglires clade.Next generation semiconductor based sequencing of bitter taste receptor genes in different pig populations and association analysis using a selective DNA pool-seq approach.Expression profiling of Tas2r genes reveals a complex pattern along the mouse GI tract and the presence of Tas2r131 in a subset of intestinal Paneth cells.Genetic diversity of bitter taste receptor gene family in Sichuan domestic and Tibetan chicken populations.Independent Evolution of Strychnine Recognition by Bitter Taste Receptor Subtypes.Evolution of Gustatory Receptor Gene Family Provides Insights into Adaptation to Diverse Host Plants in Nymphalid Butterflies.The Sequenced Angiosperm Genomes and Genome Databases.
P2860
Q26774809-0B7B1700-CD31-4D21-97A4-1979EE3782FBQ27022545-E64E011F-65A7-44BA-9529-BB3FD7C87AFDQ27308852-DAC77056-902B-4472-9051-C569D96619D4Q28604229-3B1C3A36-D67E-4882-B088-0BC57F038EF1Q28652425-DBC27905-8664-4B0B-A04F-7B684B0686E8Q28654549-FFD5883C-DFFC-492A-AD0A-49843D5FAE4AQ28656146-F3C3BB27-ADC5-49DD-92D3-7FB0829D4134Q33651950-74D60C0F-37FF-40AF-972E-1CB870727385Q33836687-A6DF07B8-F1A4-493B-8277-4073AEFDB0F3Q34515488-C606717B-70A5-4356-9FA7-2E332B232C48Q34996247-24BCE271-915C-4398-873F-B6EE658F9FCAQ35132385-1D543969-55B6-414E-AD45-2DAE52CC8DA9Q35650437-BA217FC8-5BBE-4CDF-8BC2-A15929F87A4FQ35705760-188B4DC3-D5D1-4190-AA2F-E224DE9F9B13Q35815819-8CE4A94C-8FDC-4EA6-A56D-CCF99EFCF442Q36065638-335E2936-9047-4B5C-912E-E0B37C2ECDC3Q36166721-683853E6-E859-4872-A1D2-D24B9AB3671BQ36795267-AF7F5B42-A0B8-4416-B5BE-1F08D61B47B6Q36805757-034423BE-45E9-4986-BE54-C07BAA456A36Q36981259-C4CE97EC-2E6C-4F78-AC2A-D7C938851EF4Q37098969-24D76A58-AD3C-4256-97CF-64FD66C47A2BQ38257041-5F673547-1CA4-47B8-B79F-FAAA2473A264Q38258989-766FBBC0-2082-43AE-9B37-13ACF48B7321Q38260860-B24DB1A9-BC10-4376-AF55-797FD6E9E318Q38614934-D7CBD2DB-CF37-44E2-BFB3-4FB87B4F6890Q39247333-76CFA407-3377-4281-B482-BEB078CD7813Q40461697-09B7B6E8-D52E-4A1C-8BC8-2C0B7E77DACEQ42362241-B637756C-CDA6-46A4-B5BC-44F81B612862Q46242468-254C7E99-37E5-4692-8235-CE3D84A9725DQ46255453-129BA5D8-CAA0-47EF-B7DB-3CB428B428E8Q46398818-4B36248E-63F1-4D0B-B1B6-5B0E91812127Q46721912-942810AD-BEAE-4244-84E2-348A991B8030Q46886587-403C2030-694B-4646-9E8F-A38CB636B5ECQ46902398-306D066B-EA75-4626-A1D1-7EA6B9E2087FQ47864771-2B373C1F-241B-48E4-80B8-2EDD272978B0Q48250090-A33CC347-11F1-476B-8473-7979BD08A79BQ50228307-B288FB5F-1545-4D4D-AD8D-F9CFEBE1CC41Q52649456-03201171-85F8-4647-8339-9C4C28EB00E1Q55332810-4681AE92-7295-430A-83E2-4D332421C9CEQ55510701-594BDA8B-63A2-4250-9172-42680A196B81
P2860
Diet shapes the evolution of the vertebrate bitter taste receptor gene repertoire.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh
2013年學術文章
@zh-hant
name
Diet shapes the evolution of the vertebrate bitter taste receptor gene repertoire.
@en
Diet shapes the evolution of the vertebrate bitter taste receptor gene repertoire.
@nl
type
label
Diet shapes the evolution of the vertebrate bitter taste receptor gene repertoire.
@en
Diet shapes the evolution of the vertebrate bitter taste receptor gene repertoire.
@nl
prefLabel
Diet shapes the evolution of the vertebrate bitter taste receptor gene repertoire.
@en
Diet shapes the evolution of the vertebrate bitter taste receptor gene repertoire.
@nl
P2860
P356
P1476
Diet shapes the evolution of the vertebrate bitter taste receptor gene repertoire
@en
P2093
Jianzhi Zhang
P2860
P304
P356
10.1093/MOLBEV/MST219
P50
P577
2013-11-07T00:00:00Z