Abstract
Fruit shape is an important external characteristic that consumers use to select preferred fruit cultivars. In peach, the flat fruit cultivars have become more and more popular worldwide. Genetic markers closely linking to the flat fruit trait have been identified and are useful for marker-assisted breeding. However, the cellular and genetic mechanisms underpinning flat fruit formation are still poorly understood. In this study, we have revealed the differences in fruit cell number, cell size, and in gene expression pattern between the traditional round fruit and modern flat fruit cultivars. Flat peach cultivars possessed significantly lower number of cells in the vertical axis because cell division in the vertical direction stopped early in the flat fruit cultivars at 15 DAFB (day after full bloom) than in round fruit cultivars at 35 DAFB. This resulted in the reduction in vertical development in the flat fruit. Significant linear relationship was observed between fruit vertical diameter and cell number in vertical axis for the four examined peach cultivars (R2 = 0.9964) at maturation stage, and was also observed between fruit vertical diameter and fruit weight (R2 = 0.9605), which indicated that cell number in vertical direction contributed to the flat shape formation. Furthermore, in RNA-seq analysis, 4165 differentially expressed genes (DEGs) were detected by comparing RNA-seq data between flat and round peach cultivars at different fruit development stages. In contrast to previous studies, we discovered 28 candidate genes potentially responsible for the flat shape formation, including 19 located in the mapping site and 9 downstream genes. Our study indicates that flat and round fruit shape in peach is primarily determined by the regulation of cell production in the vertical direction during early fruit development.
Highlights
Fruit development is mainly controlled by two processes, cell division and cell expansion (Coome, 1976) that directly affect fruit cell number, cell size, and fruit size
After recording fruit vertical diameter both vertical and transverse directions, we found that vertical diameter of flat peach was much smaller than that of the round peach
Cell number continued to increase from 0 to 35 DAFB in the two round peach cultivars, whereas it ceased to increase at an early fruit development stage (15 DAFB) in two flat ones (Figure 2C)
Summary
Fruit development is mainly controlled by two processes, cell division and cell expansion (Coome, 1976) that directly affect fruit cell number, cell size, and fruit size. Flat Peach Fruit Shape Formation the mutant phenotype These genes include FASCIATED (FAS) (Cong et al, 2008) and, LOCULE NUMBER (LC) (Munos et al, 2011) conferring flat fruit by increasing locule numbers; SUN (Xiao et al, 2008) and OVATE (Liu et al, 2002) causing fruit elongation (Rodriguez et al, 2011) by increasing and reducing cell numbers in the vertical and transversal direction of the fruit, respectively (Wu et al, 2011). Cell number is one of the most vital aspects that determine fruit development, including fruit shape and size, and has been reported in many fruit crops, such as apple (Denne, 1960), strawberry (Cheng and Breen, 1992), melon (Higashi and Hosoya, 1999), olive (Rapoport and Costagli, 2004), sweet cherry (Olmstead et al, 2007) and tomato (Bertin et al, 2003; Bertin et al, 2009)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
