Adaptive reptile color variation and the evolution of the Mc1r gene.
about
A novel role for Mc1r in the parallel evolution of depigmentation in independent populations of the cavefish Astyanax mexicanusThe blue lizard spandrel and the island syndromeLinkage and segregation analysis of black and brindle coat color in domestic dogsTowards the identification of the loci of adaptive evolutionA combination of long term fragmentation and glacial persistence drove the evolutionary history of the Italian wall lizard Podarcis siculusBold colors in a cryptic lineage: do Eastern Indigo Snakes exhibit color dimorphism?Convergence in pigmentation at multiple levels: mutations, genes and functionTesting whether macroevolution follows microevolution: are colour differences among swans (Cygnus) attributable to variation at the MCIR locus?Parallel genetic origins of pelvic reduction in vertebratesEvolution and phylogenetic application of the MC1R gene in the Cobitoidea (Teleostei: Cypriniformes)Parallel evolution of tetrodotoxin resistance in three voltage-gated sodium channel genes in the garter snake Thamnophis sirtalis.No boundaries: genomes, organisms, and ecological interactions responsible for divergence and reproductive isolation.Coloration and the genetics of adaptation.Conservation and convergence of colour genetics: MC1R mutations in brown cavefish.Convergent evolution of SWS2 opsin facilitates adaptive radiation of threespine stickleback into different light environments.A composite six bp in-frame deletion in the melanocortin 1 receptor (MC1R) gene is associated with the Japanese brindling coat colour in rabbits (Oryctolagus cuniculus)Targeted approach to identify genetic loci associated with evolved dioxin tolerance in Atlantic killifish (Fundulus heteroclitus).Molecular and functional basis of phenotypic convergence in white lizards at White SandsMore than one way to blanch a lizard.Increasing melanism along a latitudinal gradient in a widespread amphibian: local adaptation, ontogenic or environmental plasticity?Signatures of selection in loci governing major colour patterns in Heliconius butterflies and related species.The MC1R gene in the guppy (Poecilia reticulata): Genotypic and phenotypic polymorphisms.A candidate multimodal functional genetic network for thermal adaptation.Adaptive color polymorphism and unusually high local genetic diversity in the side-blotched lizard, Uta stansburiana.A multilocus perspective on colonization accompanied by selection and gene flow.A Val85Met mutation in melanocortin-1 receptor is associated with reductions in eumelanic pigmentation and cell surface expression in domestic rock pigeons (Columba livia).Speciation on the rocks: integrated systematics of the Heteronotia spelea species complex (Gekkota; Reptilia) from Western and Central Australia.When field experiments yield unexpected results: lessons learned from measuring selection in White Sands lizards.Intraspecific Colour Variation among Lizards in Distinct Island Environments Enhances Local CamouflagePopulation genomics of resource exploitation: insights from gene expression profiles of two Daphnia ecotypes fed alternate resources.Conspicuous male coloration impairs survival against avian predators in Aegean wall lizards, Podarcis erhardiiA novel locus on chromosome 1 underlies the evolution of a melanic plumage polymorphism in a wild songbirdMicrohabitat choice in island lizards enhances camouflage against avian predatorsCandidate Gene Analysis Suggests Untapped Genetic Complexity in Melanin-Based Pigmentation in BirdsMorph specific foraging behavior by a polymorphic raptor under variable light conditionsA local duplication of the <i>Melanocortin receptor 1</i> locus in <i>Astyanax</i>.Sequence variation in the melanocortin-1 receptor (MC1R) pigmentation gene and its role in the cryptic coloration of two South American sand lizards.Mutations in different pigmentation genes are associated with parallel melanism in island flycatchers.Differential shell strength of Cepaea nemoralis colour morphs--implications for their anti-predator defence.A population genomic analysis of species boundaries: neutral processes, adaptive divergence and introgression between two hybridizing plant species.
P2860
Q21092471-097655D6-9D6D-4649-BC50-5FFE6F2FC8D8Q21284109-0DB4485B-B705-4E4A-B792-63B146AB6B59Q24685399-9459CD64-C9BA-4E57-A2C4-9D1FCC528B4BQ27003480-A3E1C129-C0E8-4F0F-857D-E9350609494BQ28583943-A5856C3C-616D-4EF7-B176-C2768527D0B9Q28703607-93D7D5C8-D184-42BD-B48E-5EC99C47D5E2Q28749434-EE433C7B-7BDC-494A-AD31-7E7153047621Q28757009-08C225C0-EBA9-495A-897B-3DED999297EDQ28767855-6EA02B84-F597-468B-A6E9-62E6157D8ED9Q28821587-33B928EB-F284-4C93-8F37-750BCBED6529Q30409940-1E2FF9AD-75DF-49C6-B737-65EC604F61BFQ30421894-1080F618-0180-45B8-A812-8765EEDD7336Q33299585-E02EE5A8-AF77-4381-8E70-B98AF64C60C4Q33410805-9DCA048E-2985-4F77-9FCC-F0478D248D75Q33554338-7FA253E3-3ABD-4ECB-9DB2-90C189583698Q33622891-9717EFD8-699A-41CD-A9EF-1A5A28523830Q33643706-6F3811BC-7C32-4C11-B2C5-A0A261D34DDDQ33719854-E71F04D1-A4FB-4FF0-9133-E4F1FB44CAA1Q33719998-08E761D6-B0EF-40DB-BACD-2D8457642B93Q33724691-DF9E6E4A-2DCD-4B1E-A4F2-D5A1B2ECB058Q33757890-3F1FA61F-DF49-4A7B-98DB-26861EEB0426Q33812040-906DA79B-9ED5-4C27-954B-E205675B990BQ34284150-32A4D3F9-E52D-40E1-B43F-31483B9EEA5DQ34469176-558BCCDD-DD07-4A85-BE98-6078D9A0880BQ34708410-D69DF8BE-0BD6-4185-A257-804E8B419A74Q34974282-7794D86C-C8D0-4059-B0FE-EA73F1A1AF71Q35045384-E655E6A9-52DF-4C24-9C63-8F580E9C21F1Q35122858-7D2BE750-9289-4D95-B2A3-41710FE1949CQ35776199-38DDE08B-AD37-4295-9C3B-90E1821AA7D2Q35820197-9BEFD561-9202-44C5-B142-9A430FB87060Q36107005-C0690CE3-E447-4D8D-8789-C441285C14DBQ36339182-3F6F0859-3963-4EA1-8C81-29F9FAB66698Q36500805-286D18A7-E4A0-4A36-8069-289BE5A4BD5AQ36955006-F6D9A1EF-5E81-4852-9ECA-2374AFE1B363Q38613354-F7D0867C-58CC-47E3-8BDB-F3E758646EF6Q38652706-5C591841-9E10-4E60-B81B-030F5AEAF5E6Q42172805-1F8BE759-CAE6-4B10-8E9F-2FB4AABE0B3AQ51278699-DC69DE26-EB94-43F2-8972-5AB5A32CF992Q51379586-FA8FCB09-338A-4B7B-9695-97056E93FF6EQ51692529-AA6D51D8-7F80-4C68-BB39-A425FCF50CDC
P2860
Adaptive reptile color variation and the evolution of the Mc1r gene.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
2004年论文
@zh
2004年论文
@zh-cn
name
Adaptive reptile color variation and the evolution of the Mc1r gene.
@en
type
label
Adaptive reptile color variation and the evolution of the Mc1r gene.
@en
prefLabel
Adaptive reptile color variation and the evolution of the Mc1r gene.
@en
P2093
P2860
P1433
P1476
Adaptive reptile color variation and the evolution of the Mc1r gene.
@en
P2093
Erica Bree Rosenblum
Hopi E Hoekstra
Michael W Nachman
P2860
P304
P356
10.1111/J.0014-3820.2004.TB00462.X
P577
2004-08-01T00:00:00Z