Abstract
As key enzymes in the gibberellin (GA) biosynthesis pathway, GAoxs function as regulators of bioactive GA levels and plant architecture, yet little is understood about GAoxs in Gossypium. In this study, 78 GAox genes identified in four cotton species were divided into three subgroups: GA2ox, GA3ox, and GA20ox. Syntenic relationships of GAoxs in Gossypium suggested that divergencies in gene function may be attributed to whole-genome duplication during evolution. Cis-acting element analysis suggested that the GbGAox genes might participate in plant growth, development, and hormone responses. Moreover, transcriptome analysis was performed to characterize the molecular response of the exogenous GA(3) application. It was found that DEGs (differentially expressed genes) are widely involved in cell division and cell wall modification, in which the most XTH (xyloglucan endotransglucosylase/hydrolase) and GAox genes responded actively to the exogenous GA(3) treatment. Some transcription factors and protein kinases cooperated with those GbGAoxs in response to GA(3). These findings underlie the biological function of GAox genes and their responses to GA(3) in regulating plant growth in Gossypium barbadense.