A Bayesian approach to inferring population structure from dominant markers.
about
ISSR and AFLP analysis of the temporal and spatial population structure of the post-fire annual, Nicotiana attenuata, in SW UtahInter-island movements and population differentiation in a pelagic seabirdReinforcement of reproductive isolation between adjacent populations in the Park Grass ExperimentGenetic diversity and geographic differentiation in endangered Ammopiptanthus (Leguminosae) populations in desert regions of northwest China as revealed by ISSR analysisDivergent selection and local adaptation in disjunct populations of an endangered conifer, Keteleeria davidiana var. formosana (Pinaceae)Iceberg scour and shell damage in the Antarctic bivalve Laternula ellipticaA preliminary study of genetic variation in populations of Monstera adansonii var. klotzschiana (Araceae) from North-East Brazil, estimated with AFLP molecular markersDistinct migratory and non-migratory ecotypes of an endemic New Zealand eleotrid (Gobiomorphus cotidianus) - implications for incipient speciation in island freshwater fish speciesBody size evolution simultaneously creates and collapses species boundaries in a clade of scincid lizardsInference of population structure using multilocus genotype data: dominant markers and null allelesInter-simple sequence repeat data reveals high genetic diversity in wild populations of the narrowly distributed endemic Lilium regale in the Minjiang River Valley of ChinaGenomic admixture increases fitness during a biological invasion.Quantifying population genetic differentiation from next-generation sequencing data.Moment estimation of population diversity and genetic distance from data on recessive markers.Recent developments in genetic data analysis: what can they tell us about human demographic history?Importance of genetic drift during Pleistocene divergence as revealed by analyses of genomic variation.Linking direct and indirect data on dispersal: isolation by slope in a headwater stream salamander.AFLP genome scan to detect genetic structure and candidate loci under selection for local adaptation of the invasive weed Mikania micrantha.Statistical analysis of amplified fragment length polymorphism data: a toolbox for molecular ecologists and evolutionists.Ten years of AFLP in ecology and evolution: why so few animals?Gene-flow patterns in Atlantic and Mediterranean populations of the Lusitanian sea star Asterina gibbosa.Population structure and diversity in sexual and asexual populations of the pathogenic fungus Melampsora lini.Molecular phylogeography of East Asian Kirengeshoma (Hydrangeaceae) in relation to quaternary climate change and landbridge configurations.Genetic population structure of sympatric and allopatric populations of Baltic ciscoes (Coregonus albula complex, Teleostei, Coregonidae).Epigenetic variation in mangrove plants occurring in contrasting natural environmentMitochondrial and nuclear markers highlight the biodiversity of Kalotermes flavicollis (Fabricius, 1793) (Insecta, Isoptera, Kalotermitidae) in the Mediterranean area.Unified framework to evaluate panmixia and migration direction among multiple sampling locations.Sequence-related amplified polymorphism (SRAP) markers: A potential resource for studies in plant molecular biology(1.).Increased inbreeding and strong kinship structure in Taxus baccata estimated from both AFLP and SSR dataDelimiting species boundaries and the conservation genetics of the endangered maritime ringlet butterfly (Coenonympha nipisiquit McDunnough).Application of genomic SSR locus polymorphisms on the identification and classification of chrysanthemum cultivars in ChinaGenetic variation in cultivated Rheum tanguticum populations.Natural selection in the water: freshwater invasion and adaptation by water colour in the Amazonian pufferfish.Spatial genetic structure and mitochondrial DNA phylogeography of Argentinean populations of the grasshopper Dichroplus elongatus.Population genetic variation in the tree fern Alsophila spinulosa (Cyatheaceae): effects of reproductive strategyGenetic consequence of restricted habitat and population decline in endangered Isoetes sinensis (Isoetaceae).Genetic variation within native populations of endemic silkmoth Antheraea assamensis (Helfer) from Northeast India indicates need for in situ conservation.Transformer-4 version 2.0.1, a free multi-platform software to quickly reformat genotype matrices of any marker type, and archive them in the Demiurge information system.Population genetic structure of the grasshopper Eyprepocnemis plorans in the south and east of the Iberian Peninsula.Empirical Bayes inference of pairwise F(ST) and its distribution in the genome.
P2860
Q24792767-DD2B339F-9660-4E9E-94EB-0B78DE4582AFQ28206388-104CCEB2-87BC-4026-ADE5-8A96D95E085BQ28260120-70214980-7A61-4E33-AE8E-C8D32A183FF5Q28651133-3A0FA311-1147-4184-902F-1B9C2903C758Q28675857-B2E38CF1-BE9F-4F2F-9A62-0A467CBB8845Q28727400-4AFC0A57-4221-4E6A-8C5F-354D42D45EDDQ28750669-81C772BA-BEF6-4031-94D0-12D9F28F83EDQ28755327-13E2B562-4A26-4E26-A180-FFC0A0605926Q28757519-36CE4DFB-EAE1-4F6A-B708-9998BC5BADE9Q29615942-CC9C2821-F90F-46F8-A37D-1CDD2561A33AQ30000350-0C1C542D-D090-4AE2-AA66-336297FF5AA0Q30451329-AC1922D8-CA90-4B5E-96BE-C471263E7186Q30663555-6FF10316-CEB2-4C22-B1C3-3084EA0CA66AQ30911512-1ECC618C-C255-4AF8-9544-B6D9811F6F48Q30915200-FD92A700-252B-4BB3-A8D2-EA470CEFA48DQ31015115-048B3889-EA95-4FC4-9DE8-4C347B3F3501Q31037913-6BEDC0D9-0D5D-45DB-A0E2-EAE951EC9C5CQ31076690-7C0F198B-8F2A-4000-9322-C11174955C5AQ31127277-2B954392-2CA2-4043-958D-78F1F29607B0Q33221746-34BE5C10-D1EE-403F-A60E-F5AA04E9D685Q33223178-04AB2F6E-1C91-49F3-9D44-781863D42282Q33345892-91C949C4-94FE-435A-BC22-C6D423AB668FQ33460673-5BB01FD4-B0F1-4E09-9B97-C2A64D9D7410Q33547167-9E524638-F89D-4EC4-9735-DC38FFC4C50EQ33570383-63C60C40-5203-4111-9A48-869E3814D668Q33791450-BFCAF8A0-468B-4BDB-9F55-8740990439AEQ33853193-1786DC7D-52AB-4E96-9A03-20F4A9B67F3BQ33920053-2711C6CF-EC8F-49BF-A6CC-FF283F0F04CEQ33945318-4BFED141-CBA5-47A9-A443-805BE2F15B7DQ34005634-74C72384-908E-481C-A53D-09ED542A912EQ34078455-4D02D599-9F06-4765-8614-C66D7B8E80A4Q34228429-48B36FEB-34E9-43D8-B39D-B5D9F3BA9D38Q34253566-3E3C0C8D-F92E-49BA-8CF0-74B7A456DD92Q34364104-F898E6E7-270B-4C01-B637-F863D7080460Q34388199-20D50DAB-E5FF-4742-96D3-6F5178E72D32Q34458557-DBC9FD0A-31D7-4086-8A9A-D61B294B2185Q34490817-637BC90C-6384-406F-A16A-76698D68E7B0Q34600817-D44EB8AD-F350-4923-9784-E7A9FE9BF6DFQ34631997-C149A250-5E1F-4D3C-ACD9-60E47D1D3777Q34657093-4A0605D3-DF8C-456C-9C32-4D8F80377818
P2860
A Bayesian approach to inferring population structure from dominant markers.
description
2002 nî lūn-bûn
@nan
2002 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
A Bayesian approach to inferring population structure from dominant markers.
@ast
A Bayesian approach to inferring population structure from dominant markers.
@en
A Bayesian approach to inferring population structure from dominant markers.
@nl
type
label
A Bayesian approach to inferring population structure from dominant markers.
@ast
A Bayesian approach to inferring population structure from dominant markers.
@en
A Bayesian approach to inferring population structure from dominant markers.
@nl
prefLabel
A Bayesian approach to inferring population structure from dominant markers.
@ast
A Bayesian approach to inferring population structure from dominant markers.
@en
A Bayesian approach to inferring population structure from dominant markers.
@nl
P2093
P2860
P1433
P1476
A Bayesian approach to inferring population structure from dominant markers.
@en
P2093
Dipak K Dey
Kent E Holsinger
Paul O Lewis
P2860
P304
P356
10.1046/J.1365-294X.2002.01512.X
P577
2002-07-01T00:00:00Z