The relationship among gene expression, the evolution of gene dosage, and the rate of protein evolution
about
sameAs
Determinants of the rate of protein sequence evolutionOn the quest for selective constraints shaping the expressivity of the genes casting retropseudogenes in humanGenome evolution in the allotetraploid frog Xenopus laevis.Variation in auxin sensing guides AUX/IAA transcriptional repressor ubiquitylation and destruction.Biophysical Models of Protein Evolution: Understanding the Patterns of Evolutionary Sequence Divergence.Early stages of functional diversification in the Rab GTPase gene family revealed by genomic and localization studies in Paramecium species.The emerging biofuel crop Camelina sativa retains a highly undifferentiated hexaploid genome structure.Expression level, evolutionary rate, and the cost of expression.Gene expression in a paleopolyploid: a transcriptome resource for the ciliate Paramecium tetraurelia.Gene-body CG methylation and divergent expression of duplicate genes in riceImproved methods and resources for paramecium genomics: transcription units, gene annotation and gene expression.Codon-by-codon modulation of translational speed and accuracy via mRNA folding.Insights into three whole-genome duplications gleaned from the Paramecium caudatum genome sequence.The odds of duplicate gene persistence after polyploidization.Neutral and adaptive explanations for an association between caste-biased gene expression and rate of sequence evolution.Comparative analysis of human and mouse expression data illuminates tissue-specific evolutionary patterns of miRNAsYoung proteins experience more variable selection pressures than old proteins.Differential retention and divergent resolution of duplicate genes following whole-genome duplicationSex linkage, sex-specific selection, and the role of recombination in the evolution of sexually dimorphic gene expressionPrevalent role of gene features in determining evolutionary fates of whole-genome duplication duplicated genes in flowering plants.Gene age predicts the strength of purifying selection acting on gene expression variation in humansGenomic rearrangements and the evolution of clusters of locally adaptive loci.A systematic survey of an intragenic epistatic landscape.Latent effects of Hsp90 mutants revealed at reduced expression levels.Contrasting modes and tempos of venom expression evolution in two snake speciesGene expression and fractionation resistance.Nonrandom gene loss from the Drosophila miranda neo-Y chromosome.Highlight: the degenerating Y chromosome: under the pressures of sex and selection.Cis-acting signals modulate the efficiency of programmed DNA elimination in Paramecium tetraurelia.Ancient gene duplications have shaped developmental stage-specific expression in Pristionchus pacificus.Mammalian X chromosome inactivation evolved as a dosage-compensation mechanism for dosage-sensitive genes on the X chromosome.Protein misinteraction avoidance causes highly expressed proteins to evolve slowlyEvolution of dosage compensation under sexual selection differs between X and Z chromosomesHigh expression hampers horizontal gene transfer.The Paramecium germline genome provides a niche for intragenic parasitic DNA: evolutionary dynamics of internal eliminated sequences.Statistical analysis of fractionation resistance by functional category and expression.Expression properties exhibit correlated patterns with the fate of duplicated genes, their divergence, and transcriptional plasticity in Saccharomycotina.Expression Differentiation Is Constrained to Low-Expression Proteins over Ecological Timescales.Genomic evidence for elevated mutation rates in highly expressed genesConvergent gene loss following gene and genome duplications creates single-copy families in flowering plants
P2860
Q28645761-D1E34065-AA2A-433C-9E5E-933E3F20572AQ28740937-9D3C0846-B87F-4FE3-982E-70408BF63EDAQ30275672-61F1848E-C243-42D6-9078-01E3CEFDFE8DQ30313118-0ADD99F3-B969-4975-94C0-3BE68CEF3BD2Q30399998-DBBE97E4-91BA-4F9B-B10D-AAF0AED80B41Q33563379-DF7DE421-8D06-42CF-BD54-780332597A8FQ33587367-243E42B1-6B3F-4841-B744-510A469AD5EBQ33706863-F6A99ED9-9F47-4F6C-8F9A-E4720C5EDE6FQ33713226-A0CC1C68-22E8-4454-8BE6-030267161415Q33752756-95F4284E-5356-4214-BF0F-7B5FE9C14A5AQ33837592-32218EDC-0815-4320-AEA4-0783E5B2C2D6Q33932964-EF9A6536-5230-4404-BC5C-74CF12105A01Q34016651-824B1E15-3AD6-4E2D-B0FB-41B1D325B9DAQ34094564-CDB7E6A6-90AD-4095-A8AE-E4F77FC0F389Q34107439-49111D74-EF17-4A4F-9AD6-C165866B6270Q34211326-E57D76DA-3316-4EAA-80D2-7613630DC02DQ34239196-D3D24025-9FBC-4461-8F28-1785106D885EQ34350098-846CCC0F-37E0-4C35-A0AF-956AC394CA35Q34388337-7F93D125-F523-4F64-AE7F-9010F50C6CB0Q34581916-CA83C2DC-2828-4625-BDF0-1FB5FED5DB3EQ34657893-D2CDC56E-1FC5-414B-BE8B-0C7FCE9E1759Q34682169-44487C2A-10F7-4DDE-A144-FF2AAF58E242Q34740848-2C6B3EAB-9489-4DB3-A506-94E6F9D847FAQ34795559-3DF3888C-40E2-4BC9-9828-73C9EAEFF8B5Q34864126-CF5BFC26-AA38-45F8-A7DE-3924C8846CDAQ35540704-87AB7DF7-9677-4D93-A3C2-D6C75A7BCDA6Q35609426-4E661DEE-D430-46DC-8ADA-314200ED3222Q35678735-125AD05C-B4C2-4B19-B9EB-58FC31F3223FQ35754334-482A47F1-B77B-4FF2-9999-62246511E56EQ35775351-245ED15C-3293-489F-9334-03FA0076D50CQ35887061-E981207A-9193-44B2-9D07-5B6FA0F04CC8Q35887320-C71638CF-2184-45F0-82B6-E73F162FBC7AQ35917147-1D19F27C-E1CE-492D-A9D2-6382AD164FF2Q35930294-6762FF41-5BB9-4852-AC2E-026A1BE1219FQ36297399-ECB1A7EA-87C2-44D7-8907-6A62E1122AA9Q36394704-BA1259DA-C2AB-4787-9E7F-A69A7892731AQ36410597-2B31C7A4-EAEC-4D32-9B0B-BA80D7B8A21FQ36429817-160D956A-2AB2-4755-BD47-48EA4E5B5850Q36440506-B3E94B1F-FC81-44C0-B923-2986E518B9E0Q36637322-FB8E8A1D-C952-41B5-A172-4CB44ED016A6
P2860
The relationship among gene expression, the evolution of gene dosage, and the rate of protein evolution
description
2010 nî lūn-bûn
@nan
2010 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի մայիսին 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
The relationship among gene ex ...... the rate of protein evolution
@ast
The relationship among gene ex ...... the rate of protein evolution
@en
The relationship among gene ex ...... the rate of protein evolution
@nl
type
label
The relationship among gene ex ...... the rate of protein evolution
@ast
The relationship among gene ex ...... the rate of protein evolution
@en
The relationship among gene ex ...... the rate of protein evolution
@nl
prefLabel
The relationship among gene ex ...... the rate of protein evolution
@ast
The relationship among gene ex ...... the rate of protein evolution
@en
The relationship among gene ex ...... the rate of protein evolution
@nl
P2093
P2860
P3181
P1433
P1476
The relationship among gene ex ...... the rate of protein evolution
@en
P2093
Daniel Kahn
Jean-François Gout
Laurent Duret
P2860
P304
P3181
P356
10.1371/JOURNAL.PGEN.1000944
P407
P577
2010-05-13T00:00:00Z