Organization of DNA sequences highly repeated in tandem in rice genomes

Abstract

Digestion of the total genomic DNA from rice Oryza sativa L. cv. C5924 with EcoRI generated an intense band of a DNA fragment of about 0.36 kb long. The DNA fragment cloned into pUC19 was used to hybridize with the total rice genomic DNA partially digested with EcoRI. A ladder of bands of DNA fragments with multiplied length of 0.36 kb was observed, demonstrating that this sequence occurs in tandem in the genome. The copy number of the sequence estimated by dot blot hybridization analysis was 2000-3000 copies per haploid genome from callus or seedling of C5924. This sequence was present in other O. sativa cultivars, such as Sasanishiki in 700-900 copies, Koshihikari in 3400-4300, and Nipponbare in 4600-6000 copies. Another rice species, O. glaberrima, also had this sequence in 540-680 copies, but four lines of foxtail millet had none. The DNA fragments containing the repeated sequences in Nipponbare were then cloned into lambda EMBL3, and sequences of nine units consecutively repeated and an AT-rich sequence connected with them in a phage clone could be determined. Each repeating unit showed sequence divergency mostly by substitution of bases in a range from 3% to 7%, when compared with a 355-bp consensus sequence. Analyses of the substituted bases indicate that these are due to spontaneous mutations which occurred at random, after reiteration of a unit sequence by unequal crossing over events. Gene conversion within the repeated sequences might have further diversified their sequences.