Molecular diversity at 18 loci in 321 wild and 92 domesticate lines reveal no reduction of nucleotide diversity during Triticum monococcum (Einkorn) domestication: implications for the origin of agriculture.
about
New insight into the history of domesticated apple: secondary contribution of the European wild apple to the genome of cultivated varietiesSequencing of chloroplast genomes from wheat, barley, rye and their relatives provides a detailed insight into the evolution of the Triticeae tribeGenetic structure in cultivated grapevines is linked to geography and human selectionEvolutionary history of wild barley (Hordeum vulgare subsp. spontaneum) analyzed using multilocus sequence data and paleodistribution modeling.A catalogue of Triticum monococcum genes encoding toxic and immunogenic peptides for celiac disease patientsDArT markers: diversity analyses, genomes comparison, mapping and integration with SSR markers in Triticum monococcum.Impacts of recent cultivation on genetic diversity pattern of a medicinal plant, Scutellaria baicalensis (Lamiaceae)Crossability of Triticum urartu and Triticum monococcum wheats, homoeologous recombination, and description of a panel of interspecific introgression lines.Metabolite profiling of a diverse collection of wheat lines using ultraperformance liquid chromatography coupled with time-of-flight mass spectrometryThe genetic expectations of a protracted model for the origins of domesticated crops.Adaptive divergence with gene flow in incipient speciation of Miscanthus floridulus/sinensis complex (Poaceae).VRN-1 gene- associated prerequisites of spring growth habit in wild tetraploid wheat T. dicoccoides and the diploid A genome speciesNGS technologies for analyzing germplasm diversity in genebanks.Population-based resequencing revealed an ancestral winter group of cultivated flax: implication for flax domestication processes.Identification of wheat gene Sr35 that confers resistance to Ug99 stem rust race group.Genetic diversity and domestication origin of tea plant Camellia taliensis (Theaceae) as revealed by microsatellite markers.A comparative view of the evolution of grasses under domestication.Evolution of polyploid triticum wheats under cultivation: the role of domestication, natural hybridization and allopolyploid speciation in their diversification.Early agricultural pathways: moving outside the 'core area' hypothesis in Southwest Asia.A critical review of the protracted domestication model for Near-Eastern founder crops: linear regression, long-distance gene flow, archaeological, and archaeobotanical evidence.Population genetic analysis of a global collection of Fragaria vesca using microsatellite markers.Genome-Wide Association Analysis of the Anthocyanin and Carotenoid Contents of Rose Petals.The grain Hardness locus characterized in a diverse wheat panel (Triticum aestivum L.) adapted to the central part of the Fertile Crescent: genetic diversity, haplotype structure, and phylogeny.Genetic Relationship in Cicer Sp. Expose Evidence for Geneflow between the Cultigen and Its Wild Progenitor.Demographic factors shaped diversity in the two gene pools of wild common bean Phaseolus vulgaris LGenome size variation in diploid and tetraploid wild wheatsBarley domestication: the end of a central dogma?Leveraging genomic resources of model species for the assessment of diversity and phylogeny in wild and domesticated lentil.The Bo1-specific PCR marker AWW5L7 is predictive of boron tolerance status in a range of exotic durum and bread wheats.Molecular and agro-morphological characterization of ancient wheat landraces of turkey.Nucleotide diversity of a genomic sequence similar to SHATTERPROOF (PvSHP1) in domesticated and wild common bean (Phaseolus vulgaris L.).Reassessing domestication events in the Near East: Einkorn and Triticum urartu.On the Origin of the Non-brittle Rachis Trait of Domesticated Einkorn Wheat.Geographic mosaics and changing rates of cereal domestication.Comparative analysis of genome composition in Triticeae reveals strong variation in transposable element dynamics and nucleotide diversity.DNA evidence for multiple introductions of barley into Europe following dispersed domestications in Western AsiaDomestication evolution, genetics and genomics in wheatCultivation and domestication had multiple origins: arguments against the core area hypothesis for the origins of agriculture in the Near East
P2860
Q21092418-664CE332-77E6-4542-93F5-9909AEA37DE4Q28657953-6332AF0E-D58D-4526-B9EC-04241F970A41Q28703537-EA8A98AC-9526-48D5-B6E0-DA8BF4301810Q30768541-AD28A28D-6FEA-4D20-B650-CBBA48F5C6E4Q33395385-4131A04F-656C-43E9-9C5F-A4FB21F29ECAQ33507458-0F0D3FCA-4225-49B1-A0BD-E1D2A7A32408Q33568128-73FBE90F-D8A1-4624-8796-2216882221ACQ34352063-A44BC0DE-0AB9-410A-B6FE-F5A1AF35C851Q34407853-1D77BDA8-1FBA-4D81-97D7-AE6A48A98D91Q34820518-618AB717-DE7A-490C-88D7-EA02AD2568AAQ35264139-BE5FEC45-4421-4CC5-B503-7C1DA1825C4AQ35608205-94654915-F44B-4940-A414-5BAB34A994A2Q35761806-C8D1895A-473B-4E81-8F4D-135D0C4ADEDBQ36101471-F8349E37-E03F-4D0C-B240-34D69F623582Q36567081-7F216258-B815-43CA-BCAD-72F6C652D048Q37473824-FC10A0DB-859D-458E-8B4E-7E62A5B4F708Q37514471-90420489-9B8D-4986-922E-4EB30BD8E4B9Q37840878-1B9415C5-10C3-4A0C-8F4D-C56E929C6C29Q37953362-88EB1717-548C-4DCB-AA9B-33FCB02CA86BQ38020296-26E85736-47C0-48D8-AC8C-5AF35D13CF67Q38602150-D5296FFF-1B6F-4F65-9BE8-701842438AAAQ38779988-6B14DFEF-2BC3-422D-9453-450008720281Q38905345-C056A325-23A8-4346-83C0-187D6572BC39Q40453903-5D8A5A72-D424-47D4-A94E-28DBB68903F0Q41272736-AA35EC8A-F1B5-4490-AB5E-334C7B3747F2Q41496400-FBF4C541-9BCC-4F9A-9EF5-26F9B1531A4DQ42045684-D30CD195-E864-44DF-B233-AFCBC7F4F440Q43749201-66F1A5DE-4E3D-4780-9544-86DA8421471CQ44282319-78496B02-851C-4DBE-B24C-DD84DB2A914DQ46260526-138824A6-61A7-4301-B9DF-BC571D873015Q46844178-2301B40D-66B1-4E36-9967-181C84B0DBF1Q47681872-B0993FBD-3FEB-42B0-B89C-2333BB3FAD66Q49504459-211135FF-64D7-483B-A04A-395B60D4A9C5Q51771712-D567B5A0-E9DB-4FC3-9530-A4D7882F5DB1Q53772691-8487D66B-1387-443A-B8C7-6DAE33F2281AQ56610626-411727BE-D9ED-430E-BE4F-20B3EBBAC34CQ56699924-138B56E4-A5E6-4F67-8106-BFFA6629A9CEQ57753341-EC8E7E99-AD97-4816-B858-58E6A14F1927
P2860
Molecular diversity at 18 loci in 321 wild and 92 domesticate lines reveal no reduction of nucleotide diversity during Triticum monococcum (Einkorn) domestication: implications for the origin of agriculture.
description
2007 nî lūn-bûn
@nan
2007 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2007 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
Molecular diversity at 18 loci ...... for the origin of agriculture.
@ast
Molecular diversity at 18 loci ...... for the origin of agriculture.
@en
Molecular diversity at 18 loci ...... ity during Triticum monococcum
@nl
type
label
Molecular diversity at 18 loci ...... for the origin of agriculture.
@ast
Molecular diversity at 18 loci ...... for the origin of agriculture.
@en
Molecular diversity at 18 loci ...... ity during Triticum monococcum
@nl
prefLabel
Molecular diversity at 18 loci ...... for the origin of agriculture.
@ast
Molecular diversity at 18 loci ...... for the origin of agriculture.
@en
Molecular diversity at 18 loci ...... ity during Triticum monococcum
@nl
P2093
P921
P356
P1476
Molecular diversity at 18 loci ...... for the origin of agriculture.
@en
P2093
Salamini F
P304
P356
10.1093/MOLBEV/MSM192
P577
2007-09-26T00:00:00Z