Duplicated genes evolve slower than singletons despite the initial rate increase
about
A catalog of neutral and deleterious polymorphism in yeastAn integrated view of protein evolutionConstraints and plasticity in genome and molecular-phenome evolutionThe evolution of vertebrate opioid receptorsCorrelating traits of gene retention, sequence divergence, duplicability and essentiality in vertebrates, arthropods, and fungiGene family evolution: an in-depth theoretical and simulation analysis of non-linear birth-death-innovation modelsFIGENIX: intelligent automation of genomic annotation: expertise integration in a new software platformEleven ancestral gene families lost in mammals and vertebrates while otherwise universally conserved in animalsGene duplication and the evolution of moonlighting proteinsEvolutionary Analyses and Natural Selection of Betaine-Homocysteine S-Methyltransferase (BHMT) and BHMT2 GenesGenome-wide analysis reveals diverged patterns of codon bias, gene expression, and rates of sequence evolution in picea gene familiesExtreme expansion of the olfactory receptor gene repertoire in African elephants and evolutionary dynamics of orthologous gene groups in 13 placental mammalsFaster evolving Drosophila paralogs lose expression rate and ubiquity and accumulate more non-synonymous SNPsAfrobatrachian mitochondrial genomes: genome reorganization, gene rearrangement mechanisms, and evolutionary trends of duplicated and rearranged genesVariation in DNA substitution rates among lineages erroneously inferred from simulated clock-like dataMultiple mechanisms promote the retained expression of gene duplicates in the tetraploid frog Xenopus laevis.The genomic distribution of intraspecific and interspecific sequence divergence of human segmental duplications relative to human/chimpanzee chromosomal rearrangements.Divergence of imprinted genes during mammalian evolution.Fast rate of evolution in alternatively spliced coding regions of mammalian genes.Phylogenetic reconstruction of orthology, paralogy, and conserved synteny for dog and humanAccelerated gene evolution and subfunctionalization in the pseudotetraploid frog Xenopus laevis.Rice pseudomolecule-anchored cross-species DNA sequence alignments indicate regional genomic variation in expressed sequence conservationDuplicate gene evolution and expression in the wake of vertebrate allopolyploidizationEvolutionary origins of a novel host plant detoxification gene in butterflies.Evolutionary analysis of the highly dynamic CHEK2 duplicon in anthropoidsIntegrated assessment of genomic correlates of protein evolutionary rate.Increased expression and protein divergence in duplicate genes is associated with morphological diversification.Relationship between operon preference and functional properties of persistent genes in bacterial genomesIdentification of shared single copy nuclear genes in Arabidopsis, Populus, Vitis and Oryza and their phylogenetic utility across various taxonomic levels.Dynamic evolution of megasatellites in yeasts.Functional bias in molecular evolution rate of Arabidopsis thalianaDivergent evolution of the chloroplast small heat shock protein gene in the genera Rhododendron (Ericaceae) and Machilus (Lauraceae).Protein coalitions in a core mammalian biochemical network linked by rapidly evolving proteins.Gene family size conservation is a good indicator of evolutionary rates.Evolutionary dynamics of human autoimmune disease genes and malfunctioned immunological genes.Asymmetric and non-uniform evolution of recently duplicated human genes.The medicinal leech genome encodes 21 innexin genes: different combinations are expressed by identified central neurons.Interrogation of alternative splicing events in duplicated genes during evolution.Young proteins experience more variable selection pressures than old proteins.The relationship between the hierarchical position of proteins in the human signal transduction network and their rate of evolution.
P2860
Q21563326-566D42D8-B58F-4B55-BDC8-BC14CB7162AEQ22122015-2B89A4DB-67F6-4A6D-ACB3-F06718F52190Q24594789-893F9581-0EB9-4354-ADF4-21C7F3E91C1DQ24627645-A2CFF2A6-3D25-4601-AC94-1B2215B3FCAFQ24632926-61F58237-4A3C-4EE3-9754-0F402360B9B7Q24802795-B1171D2A-4A07-4570-85FE-E9FD81803D9BQ24814380-9AD150CF-1712-4D78-B271-A89689AE34B2Q25257592-B7EF0980-8031-44D0-9884-D3F5A3FB6DE6Q26798437-2CDA0CEF-A3C2-4352-AA61-F884A124AA40Q27301531-3C481A6C-7472-4580-B194-6AC7D71CC836Q28648066-B120C63B-4458-4CB1-A18F-A9B68C2B2150Q28655930-5E76797D-A545-4555-8C99-4D25DD33371FQ28659726-FF9BEFFD-0BFA-409E-A0C4-6317B4687FE8Q28661305-6803D19B-73EB-4865-A226-F3631854DAC0Q28748574-F22E756D-EB6A-4F24-ADBC-42907CA050F7Q28768106-22EBAEC2-833C-4DCD-80E9-B36E0A499B9DQ30847205-EEC47A23-CBCF-472B-AD1A-51D6C8A6E383Q30981938-E5FF4435-ABE7-4B4A-88E5-6DFF1A3AF2B4Q33240156-5B7C2048-F2AF-4BB2-8705-B5A059B291B8Q33258810-8E6E7D91-B64A-4BAA-9747-41ED4F2B54A3Q33291687-BA9B4F43-8237-4274-AF8E-5D9064F78A38Q33294658-9CECCF48-9D44-4CD3-8F73-6CC17BF58472Q33318978-9BDDCC63-C4DB-4CB3-A828-33C2FC07B88DQ33320967-F32DFF9E-081B-4E86-BC72-1C3817A9B045Q33373501-FC87928F-1A3E-4DA1-B37B-C773E8F663C8Q33466747-975C06EE-9AE0-4C09-B25A-C061B26A01B1Q33521284-55973C20-6B11-4136-AAF3-9DCAE5EE49FBQ33527129-69ACCE3D-FA62-416C-96B3-98A7682FC917Q33534007-46A6DC31-CA10-4005-B821-F82308B287B4Q33548593-40BA7AC3-37ED-4F90-BD97-5998B0FE05C7Q33569354-64648D6B-26C4-47D2-BC23-0D6A6A6A8863Q33576643-39F0A0AD-266E-4094-B049-21231E3B0D2FQ33911778-A7D097DE-56D7-473B-8CB0-B7C8F63655B3Q34014414-ABB19F2C-77D4-477E-B7AC-17FB83BA74EFQ34140810-10853B88-6E28-4A00-84A1-BA5D549E0FB6Q34142138-8C7D9BB6-4E66-4B10-9121-7286031D05B2Q34167412-5413E8E3-CF00-41C2-9216-0301E73716CDQ34173743-87288373-740A-417C-973F-1CEC04874197Q34239196-573471C3-DE53-4865-8440-ECC2FED94222Q34423802-E0150194-95FC-4EB8-A5C8-243D18EA1E1E
P2860
Duplicated genes evolve slower than singletons despite the initial rate increase
description
2004 nî lūn-bûn
@nan
2004 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
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
name
Duplicated genes evolve slower than singletons despite the initial rate increase
@ast
Duplicated genes evolve slower than singletons despite the initial rate increase
@en
Duplicated genes evolve slower than singletons despite the initial rate increase
@nl
type
label
Duplicated genes evolve slower than singletons despite the initial rate increase
@ast
Duplicated genes evolve slower than singletons despite the initial rate increase
@en
Duplicated genes evolve slower than singletons despite the initial rate increase
@nl
prefLabel
Duplicated genes evolve slower than singletons despite the initial rate increase
@ast
Duplicated genes evolve slower than singletons despite the initial rate increase
@en
Duplicated genes evolve slower than singletons despite the initial rate increase
@nl
P2860
P356
P1476
Duplicated genes evolve slower than singletons despite the initial rate increase
@en
P2093
I King Jordan
P2860
P2888
P356
10.1186/1471-2148-4-22
P407
P577
2004-07-06T00:00:00Z
P5875
P6179
1023232151