The contribution of the UV light component on the skin coloration was determined in `Hakuho' peach. Detached fruit partially covered with a UV-proof polyvinylchloride (PVC) film and a polyethylene film were exposed to sunlight for 4 days. Red coloration of the fruit and anthocyanin content in the skin were considerably reduced with the UV-proof PVC film. Irradiation with a UV fluorescent lamp at 3.58 W·m-2 markedly enhanced the red color development, while white fluorescent light at 120 μmol·m-2·s-1 did not affect the coloration. UV irradiation also increased the anthocyanin content in the cultured skin discs with increasing irradiance up to above 7.3 W·m-2. These results suggest that the UV component contributes significantly to the enhancement of the fruit coloration by sunlight exposure.
Ikuo Kataoka and Kenji Beppu
Akiko Watari, Toshio Hanada, Hisayo Yamane, Tomoya Esumi, Ryutaro Tao, Hideaki Yaegaki, Masami Yamaguchi, Kenji Beppu and Ikuo Kataoka
Most commercial cultivars of japanese plum (Prunus salicina Lindl.) exhibit S-RNase-based gametophytic self-incompatibility (GSI), although some self-compatible (SC) cultivars exist. In this study, we characterized S-RNase and SFB, the pistil and pollen S determinants of the specificity of the GSI reaction, respectively, from four S-haplotypes, including a SC (Se) and three SI (Sa, Sb, and Sc) S-haplotypes of japanese plum. The genomic organization and structure of the SC Se-haplotype appear intact, because the relative transcriptional orientation of its S-RNase and SFB and their intergenetic distance are similar to those of the other three SI S-haplotypes of japanese plum and other Prunus L. species. Furthermore, there is no apparent defect in the DNA sequences of Se-RNase and SFBe. However, a series of transcriptional analyses, including real-time reverse transcriptase–polymerase chain reaction, showed that the Se-RNase transcript levels in the pistil are significantly lower than those of the Sa-, Sb-, and Sc-RNases, although transcripts of SFBa, SFBb, SFBc, and SFBe are present at similar levels in pollen. Furthermore, no Se-RNase spot was detected in two-dimensional polyacrylamide gel electrophoresis profiles of stylar extracts of the cultivars with the Se-haplotype. We discuss the possible molecular basis of SC observed with the Se-haplotype with special reference to the insufficient Se-RNase accumulation incited by the very low transcriptional level of Se-RNase in pistils.