In this study, chromosome painting was developed and used to identify alien chromosomes in TAi-27, a wheat - Thinopyrum intermedium addition line, and the chromosomes of the three different genomes of Th. Intermedium. The smallest alien chromosome of TAi-27 was microdissected and its DNA amplified by DOP-PCR was used as a probe to hybridize with metaphase chromosomes of TAi-27 and Th . intermedium . Results showed that hybridization signals were observed in all regions of a pair of the smallest alien chromosomes and the pericentromeric area of another pair of alien chromosomes in TAi-27, indicating that the probe from microdissected chromosome is species specific. In Th . intermedium , 14 chromosomes had wide and strong hybridization signals distributed mainly on the pericentromere area and 9 chromosomes with narrow and weak signals on the pericentromere area. The remaining chromosomes displayed a very weak or no signal. Sequential FISH/GISH on Th . intermedium chromosomes using the DNAs of microdissected chromosome, Pseudoroegneria spicata (St genome) and pDbH12 (a Js genome specific probe) as the probes indicated that the microdissected chromosome belonged to the St genome, three genomes (Js, J and St) in Th . intermedium could be distinguished, in which there is no hybridization signal on J genome that is similar to the genome of Th . bessarabicum . Our results showed that the smallest alien chromosomes may represent a truncated chromosome and the repetitive sequence distribution might be similar in different chromosomes within the St genome. However, the repetitive sequence distributions are different within the Js genome, within a single chromosome, and among different genomes in Th . intermedium . Our results suggested that chromosome painting could be feasible in some plants and useful in detecting chromosome variation and repetitive sequence distribution in different genomes of polyploidy plants, which is helpful for understanding the evolution of different genomes in polyploid plants.
To determine the appropriateness of chromosome painting for identifying genomic elements in rye, we microdissected the 1R and 1RS chromosomes from rye (Secale cereale L. var. King II) and wheat-rye addition line 1RS, respectively. Degenerate oligonucleotide primed - polymerase chain reaction (DOP-PCR) amplification of 1R and 1RS products from dissected chromosomes were used as probes to hybridize to metaphase chromosomes of rye, wheat-rye addition lines 1R and 1RS, translocation line 1RS.1BL, and allohexaploid triticale. The results showed that (i) the hybridization signal distribution patterns on rye chromosomes using 1R-derived DOP-PCR products as the probe were similar to those using 1RS-derived DOP-PCR products as the probe; (ii) 1R and (or) 1RS could not be distinguished from other rye chromosomes solely by the hybridization patterns using 1R- and (or) 1RS-derived DOP-PCR products as the probe; (iii) rye chromosomes and (or) rye chromosome fragments could be clearly identified in wheat-rye hybrids using either 1R- or 1RS-derived DOP-PCR products as the probe and could be more accurate in the nontelomeric region than using genomic in situ hybridization (GISH). Our results suggested that 1R- and (or) 1RS-derived DOP-PCR products contain many repetitive DNA sequences, are similar on different rye chromosomes, are R-genome specific, and can be used to identify rye chromosomes and chromosome fragments in wheat-rye hybrids. Our research widens the application range of chromosome painting in plants.
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