Genomic in situ hybridization analysis between Rubus coreanus and its relatives in Rubus (Sect. Idaeobatus)

Abstract

To further investigate the phylogenetic relationship between Rubus coreanus and its relatives in the section Idaeobatus, we used genomic in situ hybridization (GISH) to ascertain the degree of their genomic homology. Genomic DNA from R. parvifolius and R. inopertus hybridized throughout the centromeric and sub-terminal regions on 14 and 12 chromosomes of R. coreanus, respectively. The probes from R. niveus and R. ellipticus var. obcordatus gave robust signals at the same region of eight chromosomes. R. ellipticus and R. pinfaensis generated strong signals at the centromeric and sub-terminal parts of six chromosomes. The hybridization signals from the R. tsangii and R. corchorifolius probes existed only at the telomeric parts of four chromosomes. The two signals at the sub-terminal region on chromosome 6 of R. coreanus might be 45S rDNA repeats. These results indicated that R. coreanus and R. parvifolius shared many repeat sequences. It could be deduced that the genome of R. parvifolius was most closely related to that of R. coreanus among the species tested, R. inopertus came next, while R. tsangii and R. corchorifolius showed the farthest relationship. The phylogenetic relationships between R. parvifolius and R. coreanus, as well as among the five subsections were mainly discussed.