Detecting positive selection within genomes: the problem of biased gene conversion.
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The role of GC-biased gene conversion in shaping the fastest evolving regions of the human genomeAdaptive Protein Evolution in Animals and the Effective Population Size HypothesisPopulation Genomics of Human AdaptationSequencing of the needle transcriptome from Norway spruce (Picea abies Karst L.) reveals lower substitution rates, but similar selective constraints in gymnosperms and angiospermsdbPSHP: a database of recent positive selection across human populations.Effects of natural selection and gene conversion on the evolution of human glycophorins coding for MNS blood polymorphisms in malaria-endemic African populations.Detection of Pathways Affected by Positive Selection in Primate Lineages Ancestral to HumansEvolutionary forces affecting synonymous variations in plant genomes.Microevolution of cis-regulatory elements: an example from the pair-rule segmentation gene fushi tarazu in the Drosophila melanogaster subgroup.Evidence for widespread GC-biased gene conversion in eukaryotes.Biased gene conversion skews allele frequencies in human populations, increasing the disease burden of recessive allelesSENCA: A Multilayered Codon Model to Study the Origins and Dynamics of Codon Usage.Bidirectional promoters as important drivers for the emergence of species-specific transcripts.Kr/Kc but not dN/dS correlates positively with body mass in birds, raising implications for inferring lineage-specific selection.Independent stratum formation on the avian sex chromosomes reveals inter-chromosomal gene conversion and predominance of purifying selection on the W chromosomeA model-based analysis of GC-biased gene conversion in the human and chimpanzee genomes.Positive selection in bone morphogenetic protein 15 targets a natural mutation associated with primary ovarian insufficiency in human.Biased gene conversion and GC-content evolution in the coding sequences of reptiles and vertebrates.Substitution patterns are GC-biased in divergent sequences across the metazoansOngoing GC-biased evolution is widespread in the human genome and enriched near recombination hot spots.The relationship between dN/dS and scaled selection coefficients.GC-Content evolution in bacterial genomes: the biased gene conversion hypothesis expands.Statistics and truth in phylogenomics.Quantification of GC-biased gene conversion in the human genome.Ascertaining regions affected by GC-biased gene conversion through weak-to-strong mutational hotspots.Recombination is associated with the evolution of genome structure and worker behavior in honey beesRecombination Rate Variation Modulates Gene Sequence Evolution Mainly via GC-Biased Gene Conversion, Not Hill-Robertson Interference, in an Avian System.Evolutionary Rate Heterogeneity of Primary and Secondary Metabolic Pathway Genes in Arabidopsis thaliana.GC-biased gene conversion in yeast is specifically associated with crossovers: molecular mechanisms and evolutionary significanceThe branch-site test of positive selection is surprisingly robust but lacks power under synonymous substitution saturation and variation in GCAnalytical Biases Associated with GC-Content in Molecular Evolution.Molecular population genomics: a short history.GC-biased gene conversion links the recombination landscape and demography to genomic base composition: GC-biased gene conversion drives genomic base composition across a wide range of species.Ancient vertebrate conserved noncoding elements have been evolving rapidly in teleost fishes.Life History Traits, Protein Evolution, and the Nearly Neutral Theory in Amniotes.Genome sequence of a diabetes-prone rodent reveals a mutation hotspot around the ParaHox gene clusterGermline methylation patterns determine the distribution of recombination events in the dog genome.Genome-scale detection of positive selection in nine primates predicts human-virus evolutionary conflicts.Highly variable recombinational landscape modulates efficacy of natural selection in birds.Human-specific CpG "beacons" identify loci associated with human-specific traits and disease.
P2860
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P2860
Detecting positive selection within genomes: the problem of biased gene conversion.
description
2010 nî lūn-bûn
@nan
2010 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի օգոստոսին 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
Detecting positive selection within genomes: the problem of biased gene conversion.
@en
Detecting positive selection within genomes: the problem of biased gene conversion.
@nl
type
label
Detecting positive selection within genomes: the problem of biased gene conversion.
@en
Detecting positive selection within genomes: the problem of biased gene conversion.
@nl
prefLabel
Detecting positive selection within genomes: the problem of biased gene conversion.
@en
Detecting positive selection within genomes: the problem of biased gene conversion.
@nl
P2093
P2860
P356
P1476
Detecting positive selection within genomes: the problem of biased gene conversion.
@en
P2093
Abhirami Ratnakumar
Jonas Berglund
Nicolas Galtier
Sylvain Glémin
Sylvain Mousset
P2860
P304
P356
10.1098/RSTB.2010.0007
P407
P577
2010-08-01T00:00:00Z