Τhe Role of a Gibberellin 20-Oxidase Gene in Fruit Development in Pepper (Capsicum annuum)

摘要

Fruit shape is a very important fruit quality character frequently affected by grafting in vegetable plants like pepper. It has already been shown that, similar to tomato, fruit shape in pepper is likely controlled by an Ovate-like gene, CaOvate, the down-regulation of which positively affects fruit elongation. To further understand the molecular mechanisms involved in pepper fruit shape control and the changes imposed by grafting, we have amplified, sequenced, and structurally characterized CaGA20ox1, the target gene of CaOvate, from a long fruit and a round fruit shaped cultivar. The results show that CaGA20ox1 has similar genomic organization to the tomato GA20ox1 and encodes a 375-amino acid polypeptide that shares 89% identity with tomato GA20ox1. We then studied CaGA20ox1 expression in different pepper plant parts and in different developmental stages of flower and fruit development. The expression of the gene was quantified by means of relative quantitative PCR in the developmental stage of 10 days after anthesis fruit of both cultivars. The results showed that there is a significant difference in the expression of the CaGA20ox1 between the two cultivars in this specific stage as well as in the expression of CaGA20ox1 after virus-induced gene silencing (VIGS) of CaOvate. Finally, the 5′ upstream sequences of CaGA20ox1 gene of the two cultivars were examined and compared. These results corroborate our previous findings, where VIGS of CaOvate alters CaGA20ox1 expression, leading to more elongated fruit, and also progress further the understanding of the genes involved in fruit shape control in pepper opening the way for understanding the molecular means of grafting effects.