Identification and Expression Analysis of Polyphenol Oxidase Gene Family Members in Response to Wound Stress in Lettuce (<i>Lactuca sativa</i> L.)
2025
Mei Guo | Yueming Tang | Yiwen Yang | Jinghong Luo | Jia Gao
Mechanical injury to lettuce often leads to enzymatic browning caused by polyphenol oxidase (PPO), significantly impairing its sensory quality and processing suitability. In this study, the <i>LsPPOs</i> gene family was comprehensively identified and characterized using bioinformatics methods, including gene and protein structure, codon usage bias, phylogenetic relationships, and gene expression in response to wound stress. Further analysis of the relationship between <i>LsPPOs</i> expression profile and browning was performed. A total of 17 <i>LsPPO</i> family members (<i>LsPPO1-LsPPO17</i>) were identified from publicly available lettuce databases, encoding proteins ranging from 146 to 667 amino acids, with a G/C bias. Most were localized in the chloroplast. The motif structure was highly conserved among family members, and phylogenetic analysis revealed four distinct groups. All genes lacked introns, except <i>LsPPO2</i> which contained an intron. After mechanical injury, browning at the stem site deepened over time, with PPO activity increasing. The majority of <i>PPO</i> members were significantly upregulated after fresh-cut processing. Among them, <i>LsPPO3</i>, <i>LsPPO4</i>, and <i>LsPPO12</i> showed sustained upregulation, exhibiting a strong positive correlation with the browning phenotype and PPO activity. Notably, <i>LsPPO4</i> demonstrated the highest transcriptional abundance and upregulation in response to a wound, indicating its major role in lettuce stem browning. The results of this study provide a foundation for further investigation into the functional role of <i>LsPPOs</i> and support the development of lettuce varieties with enhanced resistance to browning.
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