In parthenocarpic cultivars of apple (Malus×domestica Borkh.), MdPISTILLATA (MdPI) expression has been suppressed by retrotransposon insertion into the MdPI genome. In this study, transgenic apple lines were produced that exhibited the same level of MdPI depression. The 1P-2 promoter from the MdPI genome, which specifies its expression in the petals and stamens, was used for antisense-MdPI expression, and rolC:AtFT was included to accelerate flowering. The transgenic apple with rolC:AtFT/1P-2:antisense-MdPI showed homeotic changes in the floral organs, whereby petals and stamens were replaced with sepals and pistils, respectively. Line 9-2 of this transgenic apple also showed strong suppression of MdPI. Some individuals from this line had deformed floral organs, suggesting that the homeotic changes were incomplete. Other transformants of line 9-2 that had double sepals in the first and second whorls, and many pistils in the third and fourth whorls, as seen in apple cultivars with class B mutations, which demonstrated MdPI functioned for floral organs formation same as Arabidopsis PISTILLATA gene. The transgenic apples set parthenocarpic fruits (15.7%). However, precocious transgenic apples with rolC:AtFT exhibited more parthenocarpy (14-27%). This indicates that MdPI depression cannot explain fruit formation in parthenocarpic cultivars of apple, and so some other as yet unidentified genes must be responsible.
Keywords: MdPISTILLATA; apple; fruit; parthenocarpy.