Mostrando 101 - 120 Resultados de 141 Para Buscar '"Papilionoideae"', tiempo de consulta: 0.30s Limitar resultados
  1. 101
    “…An earlier study concluded that independent duplications occurred in the Caesalpinioideae, Detarioideae, and Papilionoideae. We conclude that Cercis may be unique among legumes in lacking evidence of polyploidy, a process that has shaped the genomes of all other legumes thus far investigated.…”
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    Cercis: A Non-polyploid Genomic Relic Within the Generally Polyploid Legume Family
  2. 102
    “…RESULTS: Exploiting one of the most valuable features of TBP, that is the convenient and immediate application of the assay to groups of individuals that may belong to different taxa, we show that the TBP method can successfully discriminate different agricultural species and their crop wild relatives within the Papilionoideae subfamily. Detection of intraspecific variability is demonstrated by the genotyping of 27 different accessions of Phaseolus vulgaris. …”
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    On the applicability of the Tubulin-Based Polymorphism (TBP) genotyping method: a comprehensive guide illustrated through the application on different genetic resources in the legume family
  3. 103
    “…Most analyses produced largely congruent topologies with strong statistical support and provided strong support for resolution of some long-controversial deep relationships among the early diverging lineages of the subfamilies Caesalpinioideae and Papilionoideae. The robust phylogenetic backbone reconstructed in this study establishes a framework for future studies on legume classification, evolution, and diversification. …”
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    Exploration of Plastid Phylogenomic Conflict Yields New Insights into the Deep Relationships of Leguminosae
  4. 104
    “…The chloroplast genome (GenBank accession OK274088) is 158,294 base pairs (bp) in length, encodes 130 genes including 85 protein-coding, 37 tRNA, 8 rRNA, and shows a high-level of gene synteny to other Papilionoideae. Phylogenetic analysis fully resolved var. napensis in a clade with A. fruticosa L. and A. roemeriana Scheele, sister to the Dalbergieae. …”
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    The complete chloroplast genome of the threatened Napa False Indigo Amorpha californica var. napensis Jeps. 1925 (Fabaceae) from Northern California, USA
  5. 105
    “…The genus Campylotropis Bunge (Desmodieae, Papilionoideae) comprises about 37 species distributed in temperate and tropical Asia. …”
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    Complete Chloroplast Genomes Provide Insights Into Evolution and Phylogeny of Campylotropis (Fabaceae)
  6. 106
    “…Fossil fruits and leaves from the late Paleocene and Eocene of Wyoming and Eocene of Kentucky and Tennessee are described as extinct genera in the tropical American Bowdichia clade of the legume subfamily Papilionoideae. Recent phylogenetic study and taxonomic revision of the Bowdichia clade have facilitated understanding of relationships of the fossil taxa and their evolutionary implications and paleoenvironmental significance. …”
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    Fossil papilionoids of the Bowdichia clade (Leguminosae) from the Paleogene of North America
  7. 107
    “…Within legumes, nodulation is restricted to the two most diverse subfamilies, Papilionoideae and Caesalpinioideae, which show stable retention of nodulation across their core clades. …”
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    The innovation of the symbiosome has enhanced the evolutionary stability of nitrogen fixation in legumes
  8. 108
    “…Our results suggest that LjCYC3/VrCYC3 orthologs play conserved roles determining the lateral petal shape and identity of zygomorphic flower as well as asymmetric flower in Papilionoideae.…”
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    Genetic control of the lateral petal shape and identity of asymmetric flowers in mungbean (Vigna radiata L.)
  9. 109
    “…Evolutionary analyses indicated a shared genome duplication event in the Caesalpinioideae, and conflict in the relationships between Cercis (subfamily Cercidoideae) and subfamilies Caesalpinioideae and Papilionoideae (pea-flowered legumes). Comparative genomics identified a suite of expanded and contracted gene families in A. pycnantha, and these were annotated with both GO terms and KEGG functional categories. …”
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    A genome resource for Acacia, Australia’s largest plant genus
  10. 110
    “…These regions are conserved among representatives of the main clades of Papilionoideae. Furthermore, despite the complex evolution of legumes, some segments of the nuclear genome were not substantially modified and retained their quasi-ancestral structures. …”
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    Remnants of the Legume Ancestral Genome Preserved in Gene-Rich Regions: Insights from Lupinus angustifolius Physical, Genetic, and Comparative Mapping
  11. 111
    “…Comparative analyses across Papilionoideae identified 24 893 Trifolium‐specific and 6325 subterranean‐clover‐specific genes that could be mined further for traits such as geocarpy and grazing tolerance. …”
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    An advanced reference genome of Trifolium subterraneum L. reveals genes related to agronomic performance
  12. 112
    “…Endemic/typical taxa were 17%, comparable to adjacent tropical plant formations, and they were found in higher percentages in Caesalpinioideae (24%) and Cercidoideae (33%) than Papilionoideae (11%) subfamily. We also analyzed the plant diversity comparing lineages and subregions. …”
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    Diversity and conservation of legumes in the Gran Chaco and biogeograpical inferences
  13. 113
    “…AMGAZEVEDO (Leguminosae: Papilionoideae), Xanthosoma purpuratum K. Krause (Alismatales: Araceae), Clibadium sp. …”
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    Effects of Aqueous Extracts from Amazon Plants on Plutella xylostella (Lepidoptera: Plutellidae) and Brevicoryne brassicae (Homoptera: Aphididae) in Laboratory, Semifield, and field trials
  14. 114
    “…Previous studies have detected significant plastid genome (plastome) structure variations in legumes, particularly in subfamilies Papilionoideae and Caesalpinioideae. Hence it is important to investigate plastomes from the newly recognized Dialioideae to better understand the plastome variation across the whole family. …”
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    Plastid phylogenomic insights into the evolution of subfamily Dialioideae (Leguminosae)
  15. 115
    “…Unlike the better studied Papilionoideae, there are few genomic resources within this legume group. …”
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    The Genome of the Mimosoid Legume Prosopis cineraria, a Desert Tree
  16. 116
    “…Lens is a member of the Papilionoideae subfamily of Fabaceae and is generally used as a source of vegetable protein as part of human diets in many regions worldwide. …”
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    Complete chloroplast genome sequence of Lens ervoides and comparison to Lens culinaris
  17. 117
    “…RESULTS: A total of 45 wild edible vegetables belonging to 38 genera and 24 families were used for the treatment of various diseases and consumed. Asteraceae and Papilionoideae were found dominating families with (6 spp. each), followed by Amaranthaceae and Polygonaceae. …”
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    Ethnobotanical appraisal and cultural values of medicinally important wild edible vegetables of Lesser Himalayas-Pakistan
  18. 118
    “…We performed a series of analyses of genome structure, nucleotide diversity, phylogenetic analysis, species pairwise Ka/Ks ratios, and positive selection analysis by combining with allied species in Papilionoideae. RESULTS AND DISCUSSION: The chloroplast genomes of Indigofera exhibited highly conserved structures and ranged in size from 157,918 to 160,040 bp, containing 83 protein-coding genes, 37 tRNA genes, and eight rRNA genes. …”
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    Phylogenomics and plastome evolution of Indigofera (Fabaceae)
  19. 119
    “…The more expanded gene families compared with those in M. truncatula and the expansion of repetitive elements rather than whole-genome duplication (i.e., the two species share the ancestral Papilionoideae whole-genome duplication event) may have contributed to the large genome size of M. sativa spp. caerulea. …”
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    A chromosome-scale genome assembly of a diploid alfalfa, the progenitor of autotetraploid alfalfa
  20. 120
    “…Results suggest either a pan-legume WGD event on the stem lineage of the family, or an allopolyploid event involving (some of) the earliest lineages within the crown group, with additional nested WGDs subtending subfamilies Papilionoideae and Detarioideae. Gene tree reconciliation methods that do not account for allopolyploidy may be misleading in inferring an earlier WGD event at the time of divergence of the two parental lineages of the polyploid, suggesting that the allopolyploid scenario is more likely. …”
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    The Origin of the Legumes is a Complex Paleopolyploid Phylogenomic Tangle Closely Associated with the Cretaceous–Paleogene (K–Pg) Mass Extinction Event
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