SSR HETEROGENIC PATTERNS OF PARENTS FOR MARKING AND PREDICTING HETEROSIS IN RICE BREEDING

The most important concerns of hybrid rice breeders are selection of d onors to improve parental lines and prediction of hybrid performance. In this study, SSR molecular marker technology and a half-diallel meth od were used to address these related hybrid production issues. The re sults show that genetic diversity among the parental lines is certainl y related to heterosis. The heterozygosity of each parental pair is si gnificantly associated with the general combining ability, not with th e specific combining ability. However, neither genetic diversity nor h eterozygosity is a good indicator for predicting heterosis. From these results, it is suggested that donors for improving parents of hybrids be selected from the improved inbred lines by conventional breeding p rograms. In this investigation, we also discovered that four favorable alleles and six favorable heterogenic patterns on the parental lines significantly contribute to the heterosis of their hybrids in grain yi eld, whereas six unfavorable alleles and six unfavorable heterogenic p atterns significantly reduce heterosis. These noticeable findings coul d be, in practice, useful for hybrid rice breeding programs with SSR m arker-assisted selection. It is suggested that the optimal combination s with the superior grain yield could be bred out by assembling those favorable alleles into their parental lines and by removing the unfavo rable alleles from the parental lines. This study also indicates that there is still a great heterosis potential to be exploited in indica/i ndica hybrids by the same strategy. In indica/japonica hybrid breeding programs, it may also be important to remove unfavorable alleles rath er than broaden genetic diversity or heterozygosity of the parents.