Identification and Comprehensive Structural and Functional Analyses of the EXO70 Gene Family in Cotton

The EXO70 gene is a vital component of the exocytosis complex and participates in biological processes ranging from plant cell division to polar growth. There are many EXO70 genes in plants and their functions are extensive, but little is known about the EXO70 gene family in cotton. Here, we analyzed four cotton sequence databases, identified 165 EXO70 genes, and divided them into eight subgroups (EXO70A-EXO70H) based on their phylogenetic relationships. EXO70A had the most exons (& GE;11), whereas the other seven each had only one or two exons. Hence, EXO70A may have many important functions. The 84 EXO70 genes in Asian and upland cotton were expressed in the roots, stems, leaves, flowers, fibers, and/or ovules. Full-length GhEXO70A1-A cDNA was homologously cloned from upland cotton (Gossypium hirsutum, G. hirsutum). Subcellular analysis revealed that GhEXO70A1-A protein was localized to the plasma membrane. A yeast two-hybrid assay revealed that GhEXO70A1-A interacted with GhEXO84A, GhEXO84B, and GhEXO84C. GhEXO70A1-A silencing significantly altered over 4000 genes and changed several signaling pathways related to metabolism. Thus, the EXO70 gene plays critical roles in the physiological functions of cotton.

Automated summary

The EXO70 gene is a key component of the exocytosis complex and plays critical roles in various biological processes. Through analysis of cotton databases, 165 EXO70 genes were identified and grouped into eight subgroups, with EXO70A potentially having the most important functions. The silencing of GhEXO70A1-A significantly impacted gene expression and metabolic signaling pathways in cotton, highlighting the vital role of the EXO70 gene in cotton physiological functions.