Abstract
The amounts of taste components, including those for pungency, in chili pepper fruit change depending on environmental factors. Our previous study revealed that the amount of capsaicinoid was significantly increased in chili pepper fruits that were cultivated under a drought stress condition. Therefore, the present experiment was conducted to determine the effect of drought stress on pungency and the expression levels of capsaicinoid biosynthesis genes in chili peppers. Japanese chili pepper cultivars ‘Shishito’ and ‘Sapporo’ were selected and cultivated in a greenhouse under a drought stress condition or an excess water supply condition. The fruits were used for morphological analysis, and the quantification of the capsaicinoid content in the placental septum was done using high performance liquid chromatography. Gene expression analysis was carried out using a quantitative reverse transcription polymerase chain reaction for 18 capsaicinoid biosynthesis genes. Based on the obtained gene expression patterns, we divided the 18 genes into three groups. The genes in group 1 (ACL, pAMT, Pun1, WRKY9, CaKR1, CaMYB31, FAT, and KAS I) showed higher gene expression levels in the drought stress condition than in the excess water supply condition in both cultivars at 20 DAF. The genes in group 2 (KAS III, BCKDH, ACS, BCAT, and 4CL) showed higher gene expression levels in the drought stress condition than in the excess water supply condition in only one of the cultivars at 20 DAF. The genes in group 3 (PAL, C3H, HCT, C4H, and COMT) did not show any significant differences in gene expression between the two treatments in either cultivar at all DAF. The genes in our experiment showed similar expression patterns in pungent parthenocarpic fruit and control fruit of ‘Shishito’ as in a previous study. Moreover, we found that the number of seeds tended to be lower in fruits cultivated under a drought stress condition, while capsaicinoid content was higher. It is possible that drought stress firstly affected the number of seeds in the fruits, and the decrease in the number of seeds subsequently caused changes in capsaicinoid biosynthesis.
