The Chromosome Number and rDNA Loci Evolution in Onobrychis (Fabaceae)

The evolution of chromosome number and ribosomal DNA (rDNA) loci number and localisation were studied in Onobrychis Mill. Diploid and tetraploid species, as well as two basic chromosome numbers, x = 7 and x = 8, were observed among analysed taxa. The chromosomal distribution of rDNA loci was presented here for the first time using fluorescence in situ hybridisation (FISH) with 5S and 35S rDNA probes. Onobrychis species showed a high polymorphism in the number and localisation of rDNA loci among diploids, whereas the rDNA loci pattern was very similar in polyploids. Phylogenetic relationships among the species, inferred from nrITS sequences, were used as a framework to reconstruct the patterns of basic chromosome number and rDNA loci evolution. Analysis of the evolution of the basic chromosome numbers allowed the inference of x = 8 as the ancestral number and the descending dysploidy and polyploidisation as the major mechanisms of the chromosome number evolution. Analyses of chromosomal patterns of rRNA gene loci in a phylogenetic context resulted in the reconstruction of one locus of 5S rDNA and one locus of 35S rDNA in the interstitial chromosomal position as the ancestral state in this genus.

Automated summary

This study investigates the evolution of chromosome number and rDNA loci in Onobrychis species. It found that diploid species showed a high level of polymorphism in rDNA loci number and localisation, while polyploid species exhibited similar rDNA loci patterns. Phylogenetic analysis revealed that x = 8 was the ancestral chromosome number and dysploidy and polyploidisation were the major mechanisms driving chromosome number evolution. Additionally, the study reconstructed the ancestral state of rRNA gene loci in Onobrychis, with one locus of 5S rDNA and one locus of 35S rDNA in an interstitial chromosomal position.