Isolation and characterization of the dehydration stress-inducible GhRDL1 promoter from the cultivated upland cotton (Gossypium hirsutum)

Abstract

Cotton fiber is the basic raw material used in the textile industry. The fiber yield is severely affected by a number of biotic and abiotic factors, such as insects, viruses, drought and salinity. Drought is a major factor that negatively impacts the yields and quality of cotton fiber. Promoters that respond to stress conditions and up-regulate transgenes are of great significance in crop improvement using genetic engineering approach. Although dehydration-responsive gene promoters, such as RD22 and RD29 from Arabidopsis, have been characterized, not much information is available regarding stress-responsive promoters from Gossypium hirsutum, which accounts for approximately 90 % of cultivated cotton. In this study, we isolated and characterized the promoter of a dehydration-responsive gene (GhRDL1) from G. hirsutum using Agrobacterium-mediated transformation in tobacco and cotton. Transgenic tobacco plants expressing uidA under the GhRDL1 promoter showed GUS activity in the trichomes. Also, GUS expression was observed to some extent in leaf, stem and floral tissues. Similar results were observed when GhRDL1 promoter was tested in transgenic cotton. Most importantly, our study showed that the GhRDL1 promoter is up-regulated in the presence of polyethylene glycol that creates water stress under invitro conditions. Thus, the GhRDL1 promoter may find its usefulness in the development of stress-tolerant cotton and other crop species in the near future.