[Genetic analysis and gene mapping of DDF1, a pleiotropic gene involving in both vegetable and reproductive growth in rice].

There are many pleiotropic genes playing key roles in regulating both vegetative growth and reproductive development in plants. A dwarf mutant of rice with deformed flowers, named as ddf1, was identified from indica rice breeding lines. Genetic analysis indicated that ddf1 was resulted from the recessive mutation of a single gene, temporarily named as DDF1. This result suggested that DDF1 is a pleiotropic gene, which controls both vegetative growth and reproductive development in rice. To map this gene, an F2 population was developed by crossing the ddf1 heterozygote with the tropical japonica rice variety DZ60. By means of bulked segregant analysis and small population-based linkage analysis using the published RM-series rice SSR markers, DDF1 was preliminarily mapped in a region between markers RM588 and RM587 on chromosome 6 with the genetic distances of 3.8 cM and 2.4 cM to the two markers, respectively. By developing new SSR markers in this interval according to the published rice genome sequence, we further mapped DDF1 in a 165 kb interval. The results will facilitate cloning of DDF1.

[Genetic analysis and gene mapping of cold-induced seedling chlorosis in rice].

We found that the seedlings of indica rice cultivar Dular showed chlorosis but the seedlings of japonica rice cultivar Lemont remained green under natural low temperature in early spring. Using an F2 population of Lemont Dular, we found that the difference of cold tolerance at seedling stage between Dular and Lemont is controlled by a single major gene, with the chlorosis allele being recessive. We named the gene cisc(t). With the help of SSR markers, cisc(t) was mapped in a 5.5 cM interval between SSR markers RM257 and RM242 on chromosome 9.

[Towards the positional cloning of a spikelet identity gene frizzle panicle (FZP) in rice (Oryza sativa L.)].

FZP is a key gene for spikelet differentiation in rice. Mutation of the gene blocks the differentiation of spikelets and makes rachis branches develop unlimitedly. A mutant of the gene named frizzle panicle (fzp) was previously found from the high-generation progeny of a cross between two Oryza sativa ssp. indica rice varieties, V20B and Hua1B. With the mutant, FZP had been mapped to a chromosomal region of about 26.4 cM in width between two SSR (Simple Sequence Repeat) markers, RM172 and RM18, on chromosome 7. In this study, high-resolution mapping of the gene was carried out for the positional cloning of the gene. Two flanking SSR markers, NRM6 and NRM8, were identified, which are 0.2 cM and 1.0 cM apart from the target gene, respectively, bracketing the target gene within an interval of 1.2 cM or 144 kb. An APETALA2 (AP2)-domain like gene was found at the expected position of FZP. As AP2 is known to play an important role in the floral development, we took it as the most possible candidate of FZP. PCR analysis showed that the mutant allele of the AP2-domain like gene contains an insert of about 4 kb in length, suggesting that the gene is very likely FZP.