Genomic organization and phylogenetic relationships in the genus Dasypyrum analyzed by Southern and in situ hybridization of total genomic and cloned DNA probes

Genomic organization and phylogenetic relationships in the genus Dasypyrum analyzed by Southern and in situ hybridization of total genomic and cloned DNA probes

Molecular cytogenetic methods have been used to study the controversial phylogenetic relationships between the species Dasypyrum villosum (L.) Candargy (2n=2x=14) and D. breviaristatum (Lindb. f.) Frederiksen (2n=4x=28). Using total genomic DNA from the two species as probes for in situ hybridizatio...

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Bibliographic Details
Published in:Chromosoma Vol. 106; no. 1; pp. 53 - 61
Main Authors: Galasso, I, Blanco, A, Katsiotis, A, Pignone, D, Heslop-Harrison, J.S
Format: Journal Article
Language:English
Published: Austria Springer Nature B.V 01-06-1997
Subjects:
Base Sequence
Blotting, Southern
chemotaxonomy
Chimera - genetics
Chromosomes
Cloning, Molecular
Deoxyribonucleic acid
DNA
DNA Probes
genbank/z71269
genbank/z71270
Genome, Plant
Genomics
In Situ Hybridization - methods
Meiosis
Molecular Sequence Data
nucleic acid hybridization
nucleotide sequences
Phylogeny
Plants - genetics
Restriction Mapping
ribosomal DNA
Sequence Analysis, DNA
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Summary:Molecular cytogenetic methods have been used to study the controversial phylogenetic relationships between the species Dasypyrum villosum (L.) Candargy (2n=2x=14) and D. breviaristatum (Lindb. f.) Frederiksen (2n=4x=28). Using total genomic DNA from the two species as probes for in situ hybridization to chromosomes, we found that the pericentromeric regions of the chromosome arms of both species are similar, while distal regions show substantial differences. Two dispersed repetitive DNA sequences were isolated: pDbKB45 is distributed along the chromosomes but amplified in the subtelomeric regions of D. breviaristatum chromosomes, while pDbKB49, in both species, is less amplified in terminal regions. Size-separated restriction enzyme digests of DNA showed many repetitive fragments, but few in common between the two species. After probing Southern transfers with D. breviaristatum genomic DNA, all lanes showed similar hybridization patterns although one extra small band was evident in the D. breviaristatum lanes. In contrast, probing with D. villosum DNA showed very substantial differences between the two species. Genomic in situ hybridization to meiotic metaphases from an interspecific hybrid showed seven bivalents of D. breviaristatum origin and seven univalents from D. villosum. We also analysed the physical organization of 5S rDNA, 18S-25S rDNA and a tandemly repeated sequence from rye. Our data support an autotetraploid origin for D. breviaristatum, but its genome and that of D. villosum show extensive differences, so the tetraploid is unlikely to be directly derived from D. villosum.
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ISSN:0009-5915
1432-0886
DOI:10.1007/s004120050224