RNA-seq Reveals Hormone-Regulated Synthesis of Non-Cellulose Polysaccharides Associated with Fiber Strength in a Single-Chromosomal-fragment-substituted Upland Cotton Line

Cotton fibers are the main raw materials of the textile industry. Exogenous superior fiber genes have been introduced into upland cotton to develop high-yield cultivars with excellent fiber quality. We used a single chromosomal segment on the chromosome A07 substitution line SL7, with high fiber strength, to investigate the molecular mechanism underlying its fiber quality. RNA-seq and KEGG analysis showed that 70 differentially expressed genes were enriched in plant hormone transduction pathways, including auxin,ethylene and abscisic acid, in fibers at 10 days post-anthesis（DPA）. Among these, fiberdevelopment related transcription factors MYB and NAC, including Gh A 11 G0981（MYB108）,Gh A 03 G0887（NAC029）, and Gh A 08 G1691（NAC021）, were significantly upregulated in SL7,as were numerous cellulose synthase-like（CSL） genes involved in non-cellulose polysaccharide and cell wall synthesis. The hemicellulose content of SL7 was significantly higher than that of L22, an upland cotton cultivar. These results suggest that key genes in the introgressed chromosomal segment of SL7 regulate the expression of transcription-factor genes via hormone-transduction pathways, thereby inducing the expression of genes involved in secondary wall synthesis and ultimately improving fiber quality. This study has shed light on the molecular mechanism of fiber development and will contribute to the improvement of fiber quality of upland cotton by molecular breeding.