Evidence for several genomes in Helianthus

Forty taxa belonging to 36 species and four unclassified accessions of Helianthus were studied using RAPD technology. Single ten-mer primers were screened for those amplifying fragments common to several species. We found that when several species shared a common fragment, they belong to the same se...

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Bibliographic Details
Published in:Theoretical and applied genetics 1998-08, Vol.97 (3), p.422-430
Main Authors: Sossey-Alaoui, K, Serieys, H, Tersac, M, Lambert, P, Schilling, E, Griveau, Y, Kaan, F, Berville, A
Format: Article
Language:English
Subjects:
Biological and medical sciences
Botany
chemotaxonomy
Classical genetics, quantitative genetics, hybrids
DNA
DNA primers
Fundamental and applied biological sciences. Psychology
Genetic aspects
Genetics
Genetics of eukaryotes. Biological and molecular evolution
genome
Genomes
genomics
Helianthus
hybridization
Identification and classification
Life Sciences
Nomenclature
Plant genetics
Pteridophyta, spermatophyta
random amplified polymorphic DNA technique
Sunflowers
Vegetals
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Summary:Forty taxa belonging to 36 species and four unclassified accessions of Helianthus were studied using RAPD technology. Single ten-mer primers were screened for those amplifying fragments common to several species. We found that when several species shared a common fragment, they belong to the same section of the genus. Moreover, we also found that some fragments are common to all species of the Helianthus. Most of the fragments were found to be of the same size in these species and to share the homology indicated by molecular hybridization. Out of 118 retained fragments, 33 were common to all Helianthus species, 56 were unique to perennial species of sects. Atrorubentes and Ciliares, 24 were unique to sect. Atrorubentes, 29 were unique to sect. Helianthus, whereas 0 were unique to sect. Ciliares. Each set of common or specific fragments was assumed to belong to a genome: (1) the C genome carrying the fragments common to all species of the three sections, (2) the H genome unique to sect. Helianthus, (3) the P genome common to perennial species (sects. Atrorubentes and Ciliares), and (4) the A genome unique to sect. Atrorubentes. The genomic structure was therefore HC for sect. Helianthus, CPA for sect. Atrorubentes, and CP? for sect. Ciliares. Molecular hybridizations with amplification products revealed homologies between Helianthus genomes and several other genera in the Helianthinae sub-tribe. The simple method used to characterize these fragments led to powerful tools for recognizing genomes which reconcile the section organization of the genus and the degree of difficulty in crossing perennial and annual forms.
ISSN:0040-5752
1432-2242
DOI:10.1007/s001220050912