A chloroplast DNA inversion marks an ancient evolutionary split in the sunflower family (Asteraceae)
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Additions, losses, and rearrangements on the evolutionary route from a reconstructed ancestor to the modern Saccharomyces cerevisiae genomeRapid evolutionary change of common bean (Phaseolus vulgaris L) plastome, and the genomic diversification of legume chloroplastsThe complete plastid genome sequence of Welwitschia mirabilis: an unusually compact plastome with accelerated divergence ratesThe Complete Chloroplast Genome Sequence of Pelargonium x hortorum: Organization and Evolution of the Largest and Most Highly Rearranged Chloroplast Genome of Land PlantsHome at last: the enigmatic genera Eriachaenium and Adenocaulon (Compositae, Mutisioideae, Mutisieae, Adenocaulinae)Biochemical conservation and evolution of germacrene A oxidase in asteraceaeMolecular evidence for an African origin of the Hawaiian endemic Hesperomannia (Asteraceae)Chloroplast DNA rearrangements in Campanulaceae: phylogenetic utility of highly rearranged genomesPlastid genomics in horticultural species: importance and applications for plant population genetics, evolution, and biotechnologyPhylogenetic Relationships of the Fern Cyrtomium falcatum (Dryopteridaceae) from Dokdo Island Based on Chloroplast Genome Sequencing.Plastid Phylogenomic Analyses Resolve Tofieldiaceae as the Root of the Early Diverging Monocot Order AlismatalesThe Chloroplast Genome of Elaeagnus macrophylla and trnH Duplication Event in ElaeagnaceaeComplete chloroplast genome sequences of important oilseed crop Sesamum indicum LMultiple paleopolyploidizations during the evolution of the Compositae reveal parallel patterns of duplicate gene retention after millions of yearsMolecular evolution of the small subunit of ribulose bisphosphate carboxylase: nucleotide substitution and gene conversionStructural rearrangements of the chloroplast genome provide an important phylogenetic link in fernsndhF sequence evolution and the major clades in the sunflower familyGeography shapes the phylogeny of frailejones (Espeletiinae Cuatrec., Asteraceae): a remarkable example of recent rapid radiation in sky islandsComparative analysis of the complete sequence of the plastid genome of Parthenium argentatum and identification of DNA barcodes to differentiate Parthenium species and lines.Comparative Analysis of the Complete Chloroplast Genome of Four Endangered Herbals of NotopterygiumBotany. The rise of sunflowers.Phylogenetic Resolution in Juglans Based on Complete Chloroplast Genomes and Nuclear DNA Sequences.Lettuce costunolide synthase (CYP71BL2) and its homolog (CYP71BL1) from sunflower catalyze distinct regio- and stereoselective hydroxylations in sesquiterpene lactone metabolism.Chloroplast DNA inversion polymorphism in populations of Abies and Tsuga.The dynamic history of plastid genomes in the Campanulaceae sensu lato is unique among angiosperms.In-silico and in-vivo analyses of EST databases unveil conserved miRNAs from Carthamus tinctorius and Cynara cardunculusAdaptive evolution of the chrysanthemyl diphosphate synthase gene involved in irregular monoterpene metabolism.Complete chloroplast genome sequences of Mongolia medicine Artemisia frigida and phylogenetic relationships with other plants.Plastid primers for angiosperm phylogenetics and phylogeography.A systematic review on ethnomedicines of anti-cancer plants.Genus-Wide Screening Reveals Four Distinct Types of Structural Plastid Genome Organization in Pelargonium (Geraniaceae).PHYLOGENETIC ANALYSIS OF CHLOROPLAST DNA RESTRICTION SITE DATA AT HIGHER TAXONOMIC LEVELS: AN EXAMPLE FROM THE ASTERACEAE.The complete chloroplast DNA sequence of Eleutherococcus senticosus (Araliaceae); comparative evolutionary analyses with other three asteridsChloroplast Genome Sequence of Pigeonpea (Cajanus cajan (L.) Millspaugh) and Cajanus scarabaeoides (L.) Thouars: Genome Organization and Comparison with Other Legumes.The evolution of the plastid chromosome in land plants: gene content, gene order, gene functionComplete plastome sequencing of both living species of Circaeasteraceae (Ranunculales) reveals unusual rearrangements and the loss of the ndh gene familyComplete Chloroplast Genome Sequence and Phylogenetic Analysis of the Medicinal Plant Artemisia annua.Comparative Analysis of Four Buckwheat Species Based on Morphology and Complete Chloroplast Genome Sequences.A MOLECULAR REEXAMINATION OF INTROGRESSION BETWEEN HELIANTHUS ANNUUS AND H. BOLANDERI (COMPOSITAE).SIX INDEPENDENT LOSSES OF THE CHLOROPLAST DNA rpl2 INTRON IN DICOTYLEDONS: MOLECULAR AND PHYLOGENETIC IMPLICATIONS.
P2860
Q21092460-93A02266-D75A-4F8C-A128-204E05655F0EQ22065309-366FE75F-4618-4F1B-B4C6-25B45067D892Q22065328-A3A683BD-23A9-4E99-AF39-887948129B11Q22066016-18ABFFE5-E6F6-4071-818D-D142D8461FE0Q22813400-5AE44141-BDAD-4E00-8BFA-A29820B9DED6Q24604050-24A46BFA-0308-4F00-B167-8E4BB50A33F4Q24646979-0BA72F94-9599-44FB-A87A-E937DF1F59B1Q24805019-1D52D4DA-C4CA-416E-97C7-4AB6FC4CDEEDQ26797305-8CC273A3-72F1-4DA1-85F1-CCD285242D1AQ28584607-FA9F3ECB-0BC2-4DD1-8F42-418CB06C6A6DQ28601045-AEE53D06-DDB7-4387-B96A-003DFB2721C8Q28607381-550D2B77-2AC4-408B-8AD3-3CACD91E5AF3Q28729990-6C6402F8-15EC-422E-9B55-4DDFB18AC712Q28751925-84DFBEC6-487E-4389-8220-E868D921D601Q28769475-06B75F7C-8B26-4E70-9432-7A7F62D01D98Q28775850-581F1F8E-9A08-4572-B747-A8BAE98F7CEAQ28776053-7BB489EF-81A9-419A-B7F6-5866E8A2EAC7Q28817478-7B66C171-0E4E-405E-B641-09781F924EBBQ30886883-C5A9E141-7EF0-434A-9B10-B6C1CBD8CA99Q33608529-0F4D6830-F978-4806-BF2E-E02E3A1EA3E1Q33712597-3D1A80E4-93BF-4E9D-8FED-2A06D8C5AA8CQ33857809-E1640C93-F919-4093-B4D1-FEB7A68BE5EBQ33880610-1D783245-ADC4-4750-BC6D-084D438ED756Q33915171-32B4C641-DB04-4357-8D3B-C740539DB662Q34002654-23BEB443-9728-40AE-B9AA-5FE66EEF8C0CQ34247953-9A8E11B9-E88E-4C09-9FC0-B632EA7611AEQ34471157-33D51854-2378-4813-A808-FDD9F8E4E548Q34608652-123CCE43-FAED-4CB5-AFEA-4C19AB2967F1Q35665658-2AF2F751-DB7D-4699-AE16-6C15AB4ECDE6Q36250860-B90D52BA-6AAE-4938-8C8C-9C854AC9229CQ36273086-F8224B76-6ED5-4C8F-A206-2D63870A3F68Q36387399-F0193698-3ED2-4113-9C2C-4CF444F01903Q37461572-FA3A1B09-E4AB-4F65-B1D0-CDAD4821734AQ37486739-C2D5CC15-089E-4769-ABD7-8447A6A5E40CQ37855690-B11B2555-6F85-4C80-B5AA-7A58AAFE45D2Q38631874-91A44635-E48C-4AE2-A258-C133D5545498Q38643786-B2A4481A-300A-4923-B185-D753B3277EE6Q38659227-35C7D3BC-1E8B-45D8-9864-D19DD228945CQ38752061-F5F28D22-11E1-4A69-80B3-68E3DEF97909Q38753605-03C3A234-77E4-41AD-B452-86C8C9A3F9F7
P2860
A chloroplast DNA inversion marks an ancient evolutionary split in the sunflower family (Asteraceae)
description
1987 nî lūn-bûn
@nan
1987 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
1987 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
1987年の論文
@ja
1987年論文
@yue
1987年論文
@zh-hant
1987年論文
@zh-hk
1987年論文
@zh-mo
1987年論文
@zh-tw
1987年论文
@wuu
name
A chloroplast DNA inversion ma ...... sunflower family (Asteraceae)
@ast
A chloroplast DNA inversion ma ...... sunflower family (Asteraceae)
@en
type
label
A chloroplast DNA inversion ma ...... sunflower family (Asteraceae)
@ast
A chloroplast DNA inversion ma ...... sunflower family (Asteraceae)
@en
prefLabel
A chloroplast DNA inversion ma ...... sunflower family (Asteraceae)
@ast
A chloroplast DNA inversion ma ...... sunflower family (Asteraceae)
@en
P2860
P356
P1476
A chloroplast DNA inversion ma ...... sunflower family (Asteraceae)
@en
P2093
J D Palmer
R K Jansen
P2860
P304
P356
10.1073/PNAS.84.16.5818
P407
P577
1987-08-01T00:00:00Z