Independent Wheat B and G Genome Origins in Outcrossing Aegilops Progenitor Haplotypes
about
Sequencing of chloroplast genomes from wheat, barley, rye and their relatives provides a detailed insight into the evolution of the Triticeae tribeEvolutionary history of Triticum petropavlovskyi Udacz. et Migusch. inferred from the sequences of the 3-phosphoglycerate kinase geneEvolution of the polyploid north-west Iberian Leucanthemum pluriflorum clan (Compositae, Anthemideae) based on plastid DNA sequence variation and AFLP fingerprintingEvolutionary dynamics of the Pgk1 gene in the polyploid genus Kengyilia (Triticeae: Poaceae) and its diploid relativesPhylogeny and evolutionary history of Leymus (Triticeae; Poaceae) based on a single-copy nuclear gene encoding plastid acetyl-CoA carboxylaseNew insights into the origin of the B genome of hexaploid wheat: evolutionary relationships at the SPA genomic region with the S genome of the diploid relative Aegilops speltoidesAcc homoeoloci and the evolution of wheat genomesFast-forward genetics by radiation hybrids to saturate the locus regulating nuclear-cytoplasmic compatibility in TriticumDiploid hybrid origin of Ostryopsis intermedia (Betulaceae) in the Qinghai-Tibet Plateau triggered by Quaternary climate change.Molecular characterization of vernalization loci VRN1 in wild and cultivated wheats.Wheat genomics: present status and future prospects.A catalogue of Triticum monococcum genes encoding toxic and immunogenic peptides for celiac disease patientsNucleotide diversity maps reveal variation in diversity among wheat genomes and chromosomes.Origin of the invasive Arundo donax (Poaceae): a trans-Asian expedition in herbaria.Metabolite profiling of a diverse collection of wheat lines using ultraperformance liquid chromatography coupled with time-of-flight mass spectrometryExpansion of the gamma-gliadin gene family in Aegilops and TriticumA haplotype map of allohexaploid wheat reveals distinct patterns of selection on homoeologous genomes.VRN-1 gene- associated prerequisites of spring growth habit in wild tetraploid wheat T. dicoccoides and the diploid A genome speciesPhylogeny and differentiation of the St genome in Elymus L. sensu lato (Triticeae; Poaceae) based on one nuclear DNA and two chloroplast genes.NGS technologies for analyzing germplasm diversity in genebanks.Genetic origin and composition of a natural hybrid poplar Populus × jrtyschensis from two distantly related species.The occurrence of spring forms in tetraploid Timopheevi wheat is associated with variation in the first intron of the VRN-A1 geneVariation in the wheat AP2 homoeologs, the genes underlying lodicule developmentMolecular evolution of Wcor15 gene enhanced our understanding of the origin of A, B and D genomes in Triticum aestivumCytological identification of an Aegilops variabilis chromosome carrying stripe rust resistance in wheat.Intrinsic karyotype stability and gene copy number variations may have laid the foundation for tetraploid wheat formation.TaGW2, a Good Reflection of Wheat Polyploidization and Evolution.Evolution of polyploid triticum wheats under cultivation: the role of domestication, natural hybridization and allopolyploid speciation in their diversification.Major structural genomic alterations can be associated with hybrid speciation in Aegilops markgrafii (Triticeae).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.Physical mapping of DNA markers linked to stem rust resistance gene Sr47 in durum wheat.Reconciling the evolutionary origin of bread wheat (Triticum aestivum).Diversification of the Homoeologous Lr34 Sequences in Polyploid Wheat Species and Their Diploid Progenitors.Wheat miRNA ancestors: evident by transcriptome analysis of A, B, and D genome donors.Genome size variation in diploid and tetraploid wild wheatsConsistency of the neighbor-net algorithm.On the origin of Solanum nigrum: can networks help?Optimizing automated AFLP scoring parameters to improve phylogenetic resolution.A radiation hybrid map of chromosome 1D reveals synteny conservation at a wheat speciation locus.Single-copy gene fluorescence in situ hybridization and genome analysis: Acc-2 loci mark evolutionary chromosomal rearrangements in wheat.
P2860
Q28657953-C6A98D86-2A55-4E7F-849E-CAEE79191959Q28681802-4A95CC69-9708-42A2-9DFB-27634122E316Q28687002-FC56BC83-EE10-42A6-A70B-308842AB4B34Q28731922-C08B9134-17D7-416E-B780-C8B00CB9658BQ28750316-1777F370-9B74-470A-84F4-298E807DF6A4Q28755948-F53CB2A6-02B3-4D99-9AD3-9FAE65A21EBEQ28757662-881364EE-B631-4364-811A-20B595EBF412Q28821864-260D7F0F-BF5A-4E72-80FA-E90B7E6D1D07Q30815753-C03D320F-E0E9-415D-8D95-8F5E65AFE5E2Q30986998-4959F900-5425-4BCD-B94B-B438E1E9AB3FQ33340527-E12D9074-CA50-434E-A15D-CD2210F0A2C4Q33395385-B197FB75-BF26-45D8-99D1-0551996C9D7CQ33771199-AF96EE0A-FBF7-4594-A4F8-0E6F5EB48456Q34378468-F45C335E-ADED-4C89-872B-4FD5738439E2Q34407853-B8C94D2E-4258-4D2F-8A95-DD7B126C00E2Q34471187-2D92630A-B4E9-46A4-BF70-DBF9C4984AAAQ35319987-743E5010-8659-4868-B332-76AE396F8297Q35608205-0FC4726B-4FF1-43B6-AFF0-4E6849C53D95Q35688779-9CE93526-E546-4C26-9BF8-B52E766D9E53Q35761806-27D50879-6928-4569-AC97-2CF8F5202CEFQ35993174-06440067-B13A-4181-B786-D864FC55960BQ36255051-AE620F90-FC15-40AF-A748-5807A3BBAC94Q37164326-59DD6500-BD28-4340-A6C5-D9AEB6A7136EQ37177029-8152D9E2-720C-4427-99F7-1F03018C3142Q37230051-D760C569-040B-43C0-AE5D-AFE188AE4B5EQ37353102-50A5B004-CF3F-4123-AE0B-4008EB320124Q37683092-CA593FFC-2636-4471-A02D-4814233FC469Q37840878-005F35C7-B420-47EF-862B-36E5B0EF49CAQ38399363-28BCD727-C7D2-46FF-8383-03AD70B4C2C1Q38905345-173AD200-51B0-40E3-AD9B-03A442FD6CF0Q38911878-A8225906-E9B7-4827-AF26-CB2511B5A5E0Q39463546-0ED2E279-D418-40FE-8FDC-DAAF34A98619Q39684495-E3AE7CD7-792E-4F05-8B75-4B1F62B1DD2FQ39874103-8BD4402A-9ACE-4181-8F4E-05D5E58E1027Q41496400-73C88423-C04B-4515-BACF-2F5BDE723189Q42415000-9C35519A-FE63-458C-8184-9CC9E40E9DDAQ42665212-44E16035-0E76-423E-B814-CCA762CD4137Q43655642-C97DB6C2-5EAF-4589-A4F3-C0D63251083EQ44681107-136F1522-ACED-449C-B6A4-49A6341C735CQ44916307-1D08E5FD-B1B2-4E91-933B-7BC102AAE282
P2860
Independent Wheat B and G Genome Origins in Outcrossing Aegilops Progenitor Haplotypes
description
im Oktober 2006 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована в жовтні 2006
@uk
name
Independent Wheat B and G Genome Origins in Outcrossing Aegilops Progenitor Haplotypes
@en
Independent Wheat B and G Genome Origins in Outcrossing Aegilops Progenitor Haplotypes
@nl
type
label
Independent Wheat B and G Genome Origins in Outcrossing Aegilops Progenitor Haplotypes
@en
Independent Wheat B and G Genome Origins in Outcrossing Aegilops Progenitor Haplotypes
@nl
prefLabel
Independent Wheat B and G Genome Origins in Outcrossing Aegilops Progenitor Haplotypes
@en
Independent Wheat B and G Genome Origins in Outcrossing Aegilops Progenitor Haplotypes
@nl
P2093
P2860
P50
P356
P1476
Independent Wheat B and G Genome Origins in Outcrossing Aegilops Progenitor Haplotypes
@en
P2093
P2860
P304
P356
10.1093/MOLBEV/MSL151
P577
2006-10-19T00:00:00Z