Ecological adaptation determines functional mammalian olfactory subgenomes
about
sameAs
The draft genomes of soft-shell turtle and green sea turtle yield insights into the development and evolution of the turtle-specific body planCoevolution of retroelements and tandem zinc finger genesMolecular Evolution and Functional Divergence of Trace Amine-Associated ReceptorsSight or scent: lemur sensory reliance in detecting food quality varies with feeding ecology.Comparative sequence analyses of genome and transcriptome reveal novel transcripts and variants in the Asian elephant Elephas maximusPenguins reduced olfactory receptor genes common to other waterbirdsORDB, HORDE, ODORactor and other on-line knowledge resources of olfactory receptor-odorant interactionsContrasting Patterns of Evolutionary Diversification in the Olfactory Repertoires of Reptile and Bird GenomesMOXD2, a Gene Possibly Associated with Olfaction, Is Frequently Inactivated in BirdsAquatic adaptation and the evolution of smell and taste in whalesLed by the nose: Olfaction in primate feeding ecology.Frequent loss and alteration of the MOXD2 gene in catarrhines and whales: a possible connection with the evolution of olfactionExtreme expansion of the olfactory receptor gene repertoire in African elephants and evolutionary dynamics of orthologous gene groups in 13 placental mammalsStrong links between genomic and anatomical diversity in both mammalian olfactory chemosensory systemsLoss of olfactory receptor function in hominin evolutionFrom the ultrasonic to the infrared: molecular evolution and the sensory biology of bats.Rod monochromacy and the coevolution of cetacean retinal opsinsMutual influences between the main olfactory and vomeronasal systems in development and evolutionAquatic adaptations in the nose of carnivorans: evidence from the turbinatesComparative genomics of the odorant-binding and chemosensory protein gene families across the Arthropoda: origin and evolutionary history of the chemosensory systemWidespread losses of vomeronasal signal transduction in batsRole of ortho-retronasal olfaction in mammalian cortical evolution.Female mate choice can drive the evolution of high frequency echolocation in bats: a case study with Rhinolophus mehelyi.The promise of genomics in the study of plant-pollinator interactions.Characterization of squamate olfactory receptor genes and their transcripts by the high-throughput sequencing approach.Baiji genomes reveal low genetic variability and new insights into secondary aquatic adaptationsGenetic signatures for enhanced olfaction in the African mole-ratsComparative genomics reveals contraction in olfactory receptor genes in batsFunctional evolution of mammalian odorant receptors.Personal receptor repertoires: olfaction as a model.Different noses for different mice and men.The loss of taste genes in cetaceansReconstruction and evolutionary history of eutherian chromosomes.Correlated evolution among six gene families in Drosophila revealed by parallel change of gene numbers.Evolution of herbivory in Drosophilidae linked to loss of behaviors, antennal responses, odorant receptors, and ancestral diet.Inventory of the cichlid olfactory receptor gene repertoires: identification of olfactory genes with more than one coding exon.Genomic Methods Take the Plunge: Recent Advances in High-Throughput Sequencing of Marine Mammals.Unique Turbinal Morphology in Horseshoe Bats (Chiroptera: Rhinolophidae).The influence of nasal airflow on respiratory and olfactory epithelial distribution in felidsThe missense of smell: functional variability in the human odorant receptor repertoire.
P2860
Q22122072-A003E40E-271E-4896-83BB-4BFD0CE5F9DFQ24632903-1210DB6D-450E-47EE-9304-7A1F53DE1BD9Q27318380-B243963D-F648-4815-9FF0-05F568F5F606Q27331513-255C24B6-9FC2-4389-956E-36A95DDECD4DQ28109503-3D801E9C-474B-483B-A0D9-915902863F67Q28597814-66754435-0C9C-4421-943F-8A8859D13A1AQ28598085-45812D7B-6B19-4C49-AAE7-DD8952A66AB9Q28601002-9EFBE8E5-647B-40B4-B28E-92119DB08ED2Q28604308-FCD51A24-E452-4254-81B7-D1D896241FC4Q28606385-728FA90D-79A5-42AA-9C88-4D96431348ECQ28607228-2ECEDE7E-A27A-4294-8C90-236FE22073A4Q28654754-16A0A9AB-FB7D-45B5-AD61-53BAC3E9EE97Q28655930-0AAB16A0-EEC5-4CE0-8CBA-8827A8C664D4Q28658471-CD28298C-FD0F-46F4-A5B6-0B4CE95D7CA4Q28660881-0AD313B4-8B8D-4B72-BED2-4E42E7C95D8AQ28685283-B0BFD4F2-82EF-457C-A862-FE37BD3C3DD2Q28708944-25A354DF-249D-452B-8101-38BE2E4A8A5AQ28710220-35477F00-9883-4485-8E41-CBE7A8A9F5ECQ28741904-1334F40C-498F-44D8-95BF-F016B888F7F4Q28742703-0E9BBBF1-2034-49D3-97DF-749DC53839B2Q28743957-D38E5681-6AD9-4B25-B824-20C5BEBA4574Q30363257-29E573FA-8B23-4D50-BA5C-0E715176C1B7Q30433502-F06D971C-EABA-44ED-9A6C-FA6A6808BCD8Q30436190-FEDC0473-D6DB-4CEA-9FDA-E31414DB6C5DQ30513943-6969D15F-8543-4286-B32B-B84FE66BB454Q30557269-B3393A8F-0C54-4D38-9C8B-C4A33C6E9F3BQ31155781-34C3B4CA-91CF-455D-A2B6-8578544BA73DQ33669619-1699D631-A24F-46DA-AB6F-A6E4CF3B5056Q34341418-B0105978-3DDD-41E1-8F04-7D43322E2D56Q34386595-5EA87E63-6856-44F2-854E-326A05284268Q34386616-195C2CF0-4C39-485B-80D1-C4459348A214Q34515488-D8206E40-3128-4E10-8819-552D7B2ED37CQ34558049-D13A4672-8F94-4919-BA82-C6A4D0F44B32Q35003145-21F259C0-F302-4B74-812C-CF9E1670FBEDQ35189819-08C2371B-2CB6-450F-96C9-5F1F965E9178Q35205673-78AA92E9-C698-4F20-8BF7-AA137CC606B9Q36100788-A9051713-8B1A-470C-83A2-ABA46CEA7EF2Q36198056-3C0861D7-4868-4E57-BE00-08AC9CAABB08Q37036391-83B0D8D2-7868-4F2B-A76E-1ABE592C340BQ37708771-ABE17B68-C172-4270-99E7-C63C03B71DA2
P2860
Ecological adaptation determines functional mammalian olfactory subgenomes
description
2010 nî lūn-bûn
@nan
2010 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Ecological adaptation determines functional mammalian olfactory subgenomes
@ast
Ecological adaptation determines functional mammalian olfactory subgenomes
@en
Ecological adaptation determines functional mammalian olfactory subgenomes
@nl
type
label
Ecological adaptation determines functional mammalian olfactory subgenomes
@ast
Ecological adaptation determines functional mammalian olfactory subgenomes
@en
Ecological adaptation determines functional mammalian olfactory subgenomes
@nl
prefLabel
Ecological adaptation determines functional mammalian olfactory subgenomes
@ast
Ecological adaptation determines functional mammalian olfactory subgenomes
@en
Ecological adaptation determines functional mammalian olfactory subgenomes
@nl
P2093
P2860
P50
P3181
P356
P1433
P1476
Ecological adaptation determines functional mammalian olfactory subgenomes
@en
P2093
Sara Hayden
Tess A Crider
William J Murphy
P2860
P3181
P356
10.1101/GR.099416.109
P407
P577
2010-01-01T00:00:00Z