Repetitive DNA sequences in Crocus vernus Hill (Iridaceae): the genomic organization and distribution of dispersed elements in the genus Crocus and its allies.

S Frello,J S Heslop-Harrison

doi:10.1139/g00-044

Abstract

Eight clones of repetitive DNA were isolated from Crocus vernus Hill. The genomic organization of the clones was analyzed by in situ hybridization to C. vernus and Southern hybridization to a range of Crocus and other species. Seven clones were used for in situ hybridization. Sequence analysis showed that all eight clones were nonhomologous, and thus represented eight different sequence-families. In situ hybridization showed that six were dispersed in high copy numbers on all chromosomes of the C. vernus genome, whereas one was localized proximal to the secondary constriction, at the NOR (nucleolar organizer region) and was not further analyzed, as it was considered part of the 18S-25S rDNA repeat. Except for short palindromes, none of the sequences showed notable internal structures. Clone pCvKB4 showed homology to the reverse transcriptase gene of Ty1-copia-like retrotransposons; the others showed no homology to known sequences. When used as probes for Southern hybridization, four showed a ladder of 3-4 bands superimposed by irregular patterns, indicating organization in short tandem arrays. Each clone had a unique distribution among Crocus species (12-16 species analyzed with each clone) and six species of Iridaceae, Liliaceae, and Amaryllidaceae; all seven investigated sequences were Iridaceae specific and four were Crocus specific. The species distribution of these seven clones showed notable discrepancies with the taxonomic subdivision of the genus at the subgenus, section, and series levels. The results suggest that the phylogeny and taxonomic structure of the genus Crocus might need reconsideration. The analysis of repetitive DNA as a major and rapidly evolving part of the genome could contribute to the study of species relationships and evolution.

Highlights

Crocus vernus Hill, with the two subspecies C. vernus subsp. vernus and C. vernus subsp. albiflorus, is a welldefined taxon distributed throughout most mountainous regions of Southern Europe
As part of a project in Crocus cytology, phylogeny, and evolution (Ørgaard et al 1995) we present here the investigation of multiple clones of repetitive DNA from C. vernus
We have investigated the chromosomal and species distribution of cloned nonhomologous repetitive DNA elements from C. vernus

Summary

Introduction

Crocus vernus Hill, with the two subspecies C. vernus subsp. vernus and C. vernus subsp. albiflorus, is a welldefined taxon distributed throughout most mountainous regions of Southern Europe. Crocus vernus Hill, with the two subspecies C. vernus subsp. The species is morphologically variable and presents a range of karyotypes at the diploid and polyploid levels; all accessions have large genomes and very large chromosomes. Crocus taxonomy has until now been based primarily on morphology, taking chromosome numbers into consideration (Mathew 1982). The major fraction of most plant genomes is made up of repetitive DNA sequences; short sequence motifs repeated thousands of times, which may be present as tandem arrays at a discrete number of genomic locations, or dispersed over much of the genome (Flavell 1986; Kubis et al 1998). Some repetitive sequences are highly conserved (the rRNA genes, for example), many repetitive DNA motifs are restricted in their distribution to single species, species groups, or genera

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