1. Genome-wide analysis of the PME gene family reveals its role in suppressing fruit lignification in pear
- Author
-
Fanhang Zhang, Qi Wang, Kaili Yuan, Zhihua Xie, Kaijie Qi, Wen Li, Xin Gong, Shaoling Zhang, and Shutian Tao
- Subjects
Pear ,Stone cell ,Lignin biosynthesis ,Pectin methylesterase ,Plant culture ,SB1-1110 - Abstract
Abstract In pears, the presence of stone cells adversely affects fruit quality. Pectin methylesterase (PME) plays various roles in plant biology, including lignin biosynthesis. However, only a limited fraction has been functionally characterized, and the distribution and function of PME in many Rosaceae trees remain unexplored. In this study, we identified 396 putative PME family candidate genes, with 81 in Pyrus bretschneideri, 92 in Malus domestica, 62 in Fragaria vesca, 65 in Prunus mume, 15 in Pyrus communis, and 81 in Pyrus pyrifolia. Leveraging insights from model plants, we categorized PME family genes into four groups. Additionally, the evolution of the PME gene family was shaped by various gene duplication events, primarily dispersed duplication, influenced by purifying selection. A specific gene, Pbr031522.1, designated PbPME35, emerged as a candidate associated with lignin biosynthesis in pear fruits, supported by RNA-seq data. The role of PbPME35 in repressing lignification was validated through its overexpression in pear callus and Arabidopsis. Overall, our findings highlight the ability of PbPME35 to reduce lignin content in pear fruit by downregulating the expression levels of lignin biosynthesis genes. These findings provide new insights into the characteristics of PME genes and their role in regulating lignification in pear fruits.
- Published
- 2024
- Full Text
- View/download PDF