Distribution, structure, organ-specific expression, and phylogenic analysis of the pathogenesis-related protein-3 chitinase gene family in rice (Oryza sativa L.).

Rice (Oryza sativa L.) pathogenesis-related (PR)-3 chitinases, like other PR proteins, are each coded by one of the genes of a multigene family in the plant genome. We assembled the database information about rice PR-3 chitinase sequences. A total of 12 PR-3 chitinase loci (Cht1 to Cht12) were found deployed in the rice genome. Some of the loci were occupied by 2 or more alleles. For all the loci expect Cht4, Cht5, Cht6, and Cht11, the amino acid sequence was polymorphic between japonica and indica varieties of rice, but glutamic acid acting as a catalytic residue was completely conserved in all the loci expect Cht7. All the genes except Cht7, which was not tested in this study, were transcripted in some organs (leaf, sheath, root, and meristem) of rice plants. These results suggest that chitinase proteins encoded by the genes at these loci have important biological effects, at least antifungal activities, on rice plants. We also proposed a new classification of rice PR-3 chitinases based on their domain structures. This classification was consistent with the results of phylogenetic analysis of rice chitinases.

Identification of YAC clones containing the mutable slender glume locus slg in rice (Oryza sativa L.).

A mutable slender glume gene slg, which often reverts to the wild-type state, was induced by gamma-ray irradiation of seeds of the japonica rice cultivar 'Gimbozu'. The final goal was to understand whether the slender glume mutation was associated with the insertion of a transposable element, utilizing map-based cloning techniques. The RFLP (restriction fragment length polymorphism) analysis revealed that the slg locus was located between two RFLP loci, XNpb33 and R1440, on chromosome 7 with recombination values of 3.1% and 1.0%, respectively. Using these two RFLP loci as probes, five YAC (yeast artificial chromosome) clones containing either of these two loci were selected from a YAC library. Subsequently, both end fragments of these YAC clones, amplified by the inverse PCR (IPCR) method, were used to select new YAC clones more closely located to the slg locus. After repeating such a procedure, we successfully constructed a 6-cM YAC contig, and identified four overlapping YAC clones, Y1774, Y3356, Y5124, and Y5762, covering the slg locus. The chromosomal location of the slg was narrowed down to the region with a physical distance of less than 280 kb between the right-end fragments of Y1774 and Y3356.

Identification of mutable slender glume gene in rice (Oryza sativa L.).

The segregation pattern and chromosomal location of a slender glume mutation, induced by gamma-ray irradiation, was investigated. The mutation is genetically unstable: in the selfed progenies of slender glumed plants, not only plants with normal glumes but also plants that are chimeric for glume shape almost always appear at low frequency. The results showed that the mutation is controlled by a single recessive, mutable mutant gene slg. The frequency of reversion of slg to its wild-type state was little affected by crossing, back-crossing, genetic background or cytoplasmic factors. Conventional trisomic and linkage analyses revealed that the slg locus was located close to the rfs (rolled fine stripe leaf) locus on chromosome 7. In a subsequent RFLP analysis, slg was found to be located between the two RFLP loci XNpb20 and XNpb33, with recombination values of 3.0 and 3.2%, respectively. Southern analysis indicated that the mutability of slg is caused by none of the known transposable elements in rice. From these results, we infer that slg has a novel transposable DNA insert in its vicinity, which was possibly activated by gamma-ray irradiation.

Efficient callus induction and plant regeneration from filaments with anther in lily (Lilium longiflorum Thunb.).

Bulb scale propagation makes it difficult to obtain a large number of bulblets from disease-free stocks in a short time. The establishment of improved micropropagation procedures by in vitro culture is therefore desirable. Easter lily (Lilium longiflorum Thunb.) filaments with and without anther were excised and cultured in vitro with different media and culture conditions. In cultures of filaments with anther, callus developed and led to bulb, shoot, and root formation, whereas in cultures of filaments lacking anther, callus development did not occur. Among the various media tested, the B5 medium combined with darkness and the N6 medium combined with darkness or light, both supplemented with 9% sucrose, proved to be superior. A total of 1260 plants were regenerated from callus, acclimatized under a mist, and transferred to the greenhouse with a 100% success rate. No morphological abnormalities were observed among plants regenerated from filament-derived callus and all plants displayed isozyme banding patterns identical to the original cultivar. Chromosome observations revealed that all callus-regenerated plantlets tested were diploid (2n=24). The results suggest that in vitro culture of filaments with anther can be cultured for mass propagation.