Allele frequency matching between SNPs reveals an excess of linkage disequilibrium in genic regions of the human genome.
about
Genetics of autoimmune diseases: insights from population geneticsGenes associated with SLE are targets of recent positive selectionUse of genome-wide heterospecific single-nucleotide polymorphisms to estimate linkage disequilibrium in rhesus and cynomolgus macaquesPopulation genomics of wild and laboratory zebrafish (Danio rerio)Empirical distributions of F(ST) from large-scale human polymorphism dataGenome-wide estimation of linkage disequilibrium from population-level high-throughput sequencing data.Cluster analysis of genetic and epidemiological data in molecular epidemiology.Widespread ultraconservation divergence in primates.Coevolution of interacting fertilization proteinsA new analysis tool for individual-level allele frequency for genomic studies.Identification of exonic nucleotide variants of the thyroid hormone responsive protein gene associated with carcass traits and Fatty Acid composition in korean cattle.A potential novel spontaneous preterm birth gene, AR, identified by linkage and association analysis of X chromosomal markers.Challenges and recommendations for conducting epidemiological studies in the field of epilepsy pharmacogeneticsStructural genomics: correlation blocks, population structure, and genome architecture.The genetic architecture of gene expression levels in wild baboons.4040 SNPs for genomic analysis in the rhesus macaque (Macaca mulatta)A Scale-Corrected Comparison of Linkage Disequilibrium Levels between Genic and Non-Genic RegionsOn the utility of linkage disequilibrium as a statistic for identifying targets of positive selection in nonequilibrium populations.Genome-wide association study of behavioral, physiological and gene expression traits in outbred CFW mice.Relationship between Single Nucleotide Polymorphisms in the Peroxisome Proliferator-Activated Receptor Gamma Gene and Fatty Acid Composition in Korean Native CattleLinkage disequilibrium between STRPs and SNPs across the human genome.Confounding between recombination and selection, and the Ped/Pop method for detecting selectionLinkage disequilibrium and demographic history of wild and domestic canidsGene expression drives local adaptation in humans.Population Genetics and Natural Selection in Rheumatic Disease.Fine haplotype structure of a chromosome 17 region in the laboratory and wild mouse.Mathematical properties of the r2 measure of linkage disequilibriumLD-spline: mapping SNPs on genotyping platforms to genomic regions using patterns of linkage disequilibriumWindfalls and pitfalls: Applications of population genetics to the search for disease genes.Extent of linkage disequilibrium in large-breed dogs: chromosomal and breed variation.Identification of novel single nucleotide polymorphisms (SNPs) of the lipoprotein lipase (LPL) gene associated with fatty acid composition in Korean cattle.Selection for long and short sleep duration in Drosophila melanogaster reveals the complex genetic network underlying natural variation in sleep.High-throughput and parallel SNP discovery in selected candidate genes in Eucalyptus camaldulensis using Illumina NGS platform.A survey of polymorphisms detected from sequences of popular beef breeds.On the uses and applications of the most commonly used measures of linkage disequilibrium from the comparative analysis of their statistical properties.Association of haplotypic variants in DRD2, ANKK1, TTC12 and NCAM1 to alcohol dependence in independent case–control and family samplesWeak effects of common genetic variation in oxytocin and vasopressin receptor genes on rhesus macaque social behavior
P2860
Q26801766-EC5CF891-624C-4D0C-8388-4D7AAF52D3AFQ26829554-3D435EE3-A48A-4DD2-BD31-530BD2EDAC62Q28649689-2CA00F74-A53A-42D0-8A5D-795155BAF9ABQ28709028-AB281C52-2365-4DB0-B27E-A524A9C39BD5Q30000826-40B9F08B-59AB-4370-8F86-BECA2226CE97Q30827517-608528B2-F28F-43FD-8F15-174180AF1C11Q31159953-8291F342-B3B2-46A7-9179-E1FD99645AF5Q33336297-1FC1542A-2D5A-464B-9678-3CF7D9B7B36FQ33486468-7E28BA6E-6748-40D7-B428-B5B7537562B6Q33625344-E8542B33-3D84-43F2-9BB7-4390AE37791BQ34113100-8793B3F1-8155-4272-99A3-5046345A0E36Q34507367-B7A0DA0C-F099-48C7-9842-46DEBC6455EAQ35073480-BD903C65-7550-4F8F-B255-612F54E9B883Q35084731-42FF8F0F-8E10-4A8C-9202-70713096F7C9Q35249398-AD560089-5B07-4170-88EE-800A368091FFQ35510971-030AB835-EEF5-44E5-A905-7DDBA47F3EF4Q35827476-0A4EF6F7-E906-46A5-ABFA-B6336BFF6ED5Q35945747-BFBDA7D4-96BB-4577-BF48-959C8F3A693AQ36067406-2E685BD8-83D6-4C19-94B0-5701E58CBD0BQ36423321-98995ACD-9373-422D-9A10-B757B28670F2Q36718962-7B548E85-A05C-4EA7-B418-69FCCC391FAFQ36804859-CB4A94F3-980D-4BE0-B54A-EA30EB2D51D7Q37152728-5BAB9539-7325-4553-A185-3436AA8B0CF6Q39173938-85A32FA6-5BBD-4655-8323-9A74165FD69DQ39436638-95D5FDD6-0DF3-4D9C-A11A-10163247CF6BQ41871663-9105E332-46D3-4555-95B6-9B84479B2726Q42016611-69302AB6-D05E-44D7-BD5E-75D9118BD473Q42174391-5C993C5B-2A74-4B49-814D-99F9A0012294Q42784270-D1C8D1E6-DAFE-4B63-AFC7-5C97D8528E1FQ44869850-6B4AA0B7-3802-4460-8AC8-F8CC2737598EQ45353657-86CB550E-785D-44EF-AD10-2A4B56A44C24Q47134010-36733E28-7AF3-48C3-BD4D-91F8A17660A3Q47744693-0BAB9AB4-7FF5-4470-9A8E-AA7FB0386008Q50276782-C0CEC1F3-472A-4558-A5A2-554A65E321C5Q53086974-FFD70B16-036D-4DEB-BBD2-09C2FFAA094AQ57418885-4F855CE6-B546-420D-A739-2C7E5A040636Q57915609-3CFD312E-3EF2-4066-BC96-E5C2D864135F
P2860
Allele frequency matching between SNPs reveals an excess of linkage disequilibrium in genic regions of the human genome.
description
2006 nî lūn-bûn
@nan
2006 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年論文
@yue
2006年論文
@zh-hant
2006年論文
@zh-hk
2006年論文
@zh-mo
2006年論文
@zh-tw
2006年论文
@wuu
name
Allele frequency matching betw ...... c regions of the human genome.
@ast
Allele frequency matching betw ...... c regions of the human genome.
@en
Allele frequency matching betw ...... c regions of the human genome.
@nl
type
label
Allele frequency matching betw ...... c regions of the human genome.
@ast
Allele frequency matching betw ...... c regions of the human genome.
@en
Allele frequency matching betw ...... c regions of the human genome.
@nl
prefLabel
Allele frequency matching betw ...... c regions of the human genome.
@ast
Allele frequency matching betw ...... c regions of the human genome.
@en
Allele frequency matching betw ...... c regions of the human genome.
@nl
P2093
P2860
P1433
P1476
Allele frequency matching betw ...... c regions of the human genome.
@en
P2093
Deborah A Nickerson
Leonid Kruglyak
Mark J Rieder
Michael A Eberle
P2860
P356
10.1371/JOURNAL.PGEN.0020142
P577
2006-07-25T00:00:00Z