Identification and Expression Analysis of the CSE Gene Family in Upland Cotton

• 1、College of Agronomy, Hebei Agricultural University, Baoding 071000

Abstract：Caffeoylshikimate esterase (CSE) is a key rate-limiting enzyme in the plant lignin biosynthesis pathway, and it plays an essential role in cotton cell wall growth and cell elongation. To dissect the evolutionary characteristics of the cotton CSE gene family and its potential functions in upland cotton, bioinformatics methods were used in this study to identify the members of the CSE gene family in four cotton species, including upland cotton, island cotton, Asiatic cotton, and Raymond\'s cotton. A phylogenetic tree was constructed, and the physicochemical properties, promoter cis?acting elements, and tissue expression patterns during early seedling development of the CSE gene family members in upland cotton were systematically analyzed. The results showed that a total of 112 CSE family members were identified in the four cotton species, including 38 GhCSE genes in upland cotton, 37 GbCSE genes in island cotton, 19 GaCSE genes in Asiatic cotton, and 18 GrCSE genes in Raymond\'s cotton. All CSE genes were classified into six subgroups according to phylogenetic analysis. Protein property analysis indicated that most GhCSE proteins were weakly alkaline and stable, and subcellular localization prediction showed that they were mainly located in the cytoplasm. Cis?acting element analysis revealed that most promoter elements were related to light response and stress response. Based on the transcriptome data during the seedling emergence stage, the expression patterns of 38 GhCSE genes in upland cotton were further analyzed. The results showed that the expression levels of most GhCSE genes were significantly higher in materials with excellent seedling emergence performance than in those with poor seedling emergence performance, and were predominantly expressed in hypocotyl tissues. Among them, GhCSE14 and GhCSE32 were preliminarily screened as candidate genes regulating cotton seedling emergence. This study provides a theoretical foundation for further functional research of CSE genes in cotton early development.

Keywords： CSE Upland cotton Bioinformatics Expression patterns Seedling emergence Hypocotyl