Evolution by the birth-and-death process in multigene families of the vertebrate immune system.
about
Using paleogenomics to study the evolution of gene families: origin and duplication history of the relaxin family hormones and their receptorsReduced MHC and neutral variation in the Galápagos hawk, an island endemicThe evolutionary relationship between microbial rhodopsins and metazoan rhodopsinsLineage-specific loss of function of bitter taste receptor genes in humans and nonhuman primatesExtensive gains and losses of olfactory receptor genes in mammalian evolutionMolecular fossils in the human genome: identification and analysis of the pseudogenes in chromosomes 21 and 22Molecular Evolution of a Primate-Specific microRNA FamilySelectionism and neutralism in molecular evolutionHost-parasite interactions and the evolution of ploidyThe human and murine protocadherin-beta one-exon gene families show high evolutionary conservation, despite the difference in gene numberConcerted evolution: molecular mechanism and biological implications.Heterogeneous but conserved natural killer receptor gene complexes in four major orders of mammalsConcerted and birth-and-death evolution of multigene familiesFunctional divergence of duplicated genes formed by polyploidy during Arabidopsis evolutionComparative genomics and molecular dynamics of DNA repeats in eukaryotesExpression pattern of three-finger toxin and phospholipase A2 genes in the venom glands of two sea snakes, Lapemis curtus and Acalyptophis peronii: comparison of evolution of these toxins in land snakes, sea kraits and sea snakesOrigin of the metazoan phyla: molecular clocks confirm paleontological estimatesGene content and function of the ancestral chromosome fusion site in human chromosome 2q13-2q14.1 and paralogous regionsEvolution of olfactory receptor genes in the human genomeRapid evolution of major histocompatibility complex class I genes in primates generates new disease alleles in humans via hitchhiking diversityEvolutionary dynamics of olfactory and other chemosensory receptor genes in vertebratesHost-parasite interactions and the evolution of gene expression.Recent segmental and gene duplications in the mouse genomeThe adaptive evolution database (TAED)Duplication and positive selection among hominin-specific PRAME genes.Two differentially expressed ommochrome-binding protein-like genes (obp1 and obp2) in larval fat body of the European corn borer, Ostrinia nubilalisA genome-wide survey of Major Histocompatibility Complex (MHC) genes and their paralogues in zebrafishThe orthology of HLA-E and H2-Qa1 is hidden by their concerted evolution with other MHC class I molecules.Baton pass hypothesis: successive incorporation of unconserved endogenous retroviral genes for placentation during mammalian evolutionMammalian small nucleolar RNAs are mobile genetic elementsGenome-wide functional divergence after the symbiosis of proteobacteria with insects unraveled through a novel computational approachSize distribution of function-based human gene sets and the split-merge modelEarly Duplication of a Single MHC IIB Locus Prior to the Passerine RadiationsBalancing selection and recombination as evolutionary forces caused population genetic variations in golden pheasant MHC class I genesGene duplications are extensive and contribute significantly to the toxic proteome of nematocysts isolated from Acropora digitifera (Cnidaria: Anthozoa: Scleractinia)Massive expansion and functional divergence of innate immune genes in a protostomeThe expansion and functional diversification of the mammalian ribonuclease a superfamily epitomizes the efficiency of multigene families at generating biological noveltyEvolutionary dynamics of the interferon-induced transmembrane gene family in vertebratesMolecular bases of genetic diversity and evolution of the immunoglobulin heavy chain variable region (IGHV) gene locus in leporidsRemarkable conservation of distinct nonclassical MHC class I lineages in divergent amphibian species
P2860
Q21134735-D70AE116-99C3-4268-8A90-22739BA2CC34Q21284067-926E49EC-F6BA-444C-9045-00539EC01B83Q21284862-FB339122-E2A6-4D5B-A22B-3D2F99A0F9DCQ21558767-6D9C0FF7-4CE3-4F30-8C61-2C00C7F3D69AQ21562317-2F78B4DE-0E66-4D1A-A7BD-FE3C030ED3BBQ22065758-1A0EBA2D-3EC2-4420-9234-425F9AB12816Q22066008-F050EF8F-B89C-42C8-98A1-8C416EE6A628Q22066021-250F51D7-B6C0-4497-877C-500ECEA9795DQ22066379-7A213C28-2367-49CB-ADCD-DAFFC0E3FA73Q24291168-8F4EF41E-6106-4BFE-9D08-0FE7D1F87468Q24539976-F9F410B5-D117-4A88-A347-4DCF9FF87AA6Q24541500-D795EC17-EE74-4D88-A872-23AB95DAB4ABQ24544285-EB58B993-DF8B-47CE-8FF3-EC505D4E1E36Q24563612-80879086-AE76-4B1E-97CF-502C86AEBE17Q24650948-49666379-7B91-4B82-801C-8AB49F6CC261Q24670238-59CCDE5A-0FA9-4FEE-A1EF-AA7F9F5E67E4Q24671837-AC1D5081-99D3-457F-9EDB-3E9BFA9BE26AQ24682165-8E2A4F1D-2739-4820-B98D-84EC48DFF8CFQ24683243-392A241A-35A3-4D22-A4F6-F78A40E80C69Q24684291-C37EBF0D-4591-4203-9B33-515CE5E3F16BQ24685771-A2159EBB-4C7D-4108-9B25-A3B28FF27D23Q24794881-A0F45EDA-E05B-499E-8470-E0DA410DA59EQ24796760-67ABCFED-F217-46C8-84E5-F0BC6F44483CQ24803703-A4CAF1DF-E852-4484-AC3C-059A489AFA56Q24814977-A25E7C45-5D94-4F30-B0C4-72E7F1CC97CAQ24815110-964C1608-4C92-459A-8DA3-C23A9A037809Q24815843-4B32EB86-80C9-4706-9982-BE256A14DC71Q25257229-1B752E0E-9DBA-4870-8EBF-3BA4A876886AQ26786773-7FA41DC0-462B-4AAB-A10D-08C9D4C9368CQ28469078-113222B6-B331-4B94-980D-3AD57748E30AQ28475165-52815CB8-E3EE-48C0-92B2-C926EC4474F5Q28595808-C87FD811-5BDE-4177-BFE3-204854540253Q28598427-C39E5974-9BEC-4800-BFB8-172302380AC8Q28604136-4BF56E8C-DB6C-4FB1-8969-64D51BA99AA1Q28606389-7ED12678-88FC-4D7A-A1F5-14E7C68FF147Q28652956-D9046ED3-95F4-4125-A5CE-D87C661B1F1BQ28661396-7ACCC9C7-AE13-4FC1-89CD-F940FFEEF590Q28712012-C1CACF67-C647-4FF9-B059-868DA66879C8Q28728831-7935F644-86BB-4BFB-861D-11133F4FFFD3Q28742320-42D298F6-D950-429C-B122-DE08A394B9E4
P2860
Evolution by the birth-and-death process in multigene families of the vertebrate immune system.
description
1997 nî lūn-bûn
@nan
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
1997年论文
@zh
1997年论文
@zh-cn
name
Evolution by the birth-and-dea ...... the vertebrate immune system.
@ast
Evolution by the birth-and-dea ...... the vertebrate immune system.
@en
type
label
Evolution by the birth-and-dea ...... the vertebrate immune system.
@ast
Evolution by the birth-and-dea ...... the vertebrate immune system.
@en
prefLabel
Evolution by the birth-and-dea ...... the vertebrate immune system.
@ast
Evolution by the birth-and-dea ...... the vertebrate immune system.
@en
P2093
P2860
P356
P1476
Evolution by the birth-and-dea ...... the vertebrate immune system.
@en
P2093
P2860
P304
P356
10.1073/PNAS.94.15.7799
P407
P577
1997-07-01T00:00:00Z