Overexpression of Hevea brasiliensis ethylene response factor HbERF‐IXc5 enhances growth and tolerance to abiotic stress and affects laticifer differentiation

Ethylene response factor 1 (ERF1) is an essential integrator of the jasmonate and ethylene signalling pathways coordinating a large number of genes involved in plant defences. Its orthologue in Hevea brasiliensis, HbERF‐IXc5, has been assumed to play a major role in laticifer metabolism and tolerance to harvesting stress for better latex production. This study sets out to establish and characterize rubber transgenic lines overexpressing HbERF‐IXc5. Overexpression of HbERF‐IXc5 dramatically enhanced plant growth and enabled plants to maintain some ecophysiological parameters in response to abiotic stress such as water deficit, cold and salt treatments. This study revealed that HbERF‐IXc5 has rubber‐specific functions compared to Arabidopsis ERF1 as transgenic plants overexpressing HbERF‐IXc5 accumulated more starch and differentiated more latex cells at the histological level. The role of HbERF‐IXc5 in driving the expression of some target genes involved in laticifer differentiation is discussed.     

Overexpression of a Lotus corniculatus AP2/ERF transcription factor gene,LcERF080, enhances tolerance to salt stress in transgenic Arabidopsis

The APETALA2/ethylene-responsive element binding factors (AP2/ERF) play central roles in the stress response in plants. In this study, we identified and isolated a novel salt stress-related gene, LcERF080, that encodes an AP2/ERF protein in Lotus corniculatus cultivar Leo. LcERF080 was classified into the B-4 group of the ERF subfamily based on multiple sequence alignment and phylogenetic characterization. Expression of LcERF080 was strongly induced by salt, abscisic acid, 1-aminocyclopropane-1-carboxylic acid, methyl jasmonate, and salicylic acid stresses. Subcellular localization assay confirmed that LcERF080 is a nuclear protein. LcERF080 overexpression in Arabidopsis resulted in pleiotropic phenotypes with a higher seed germination rate and transgenic plants with enhanced tolerance to salt stress. Further, under stress conditions, the transgenic lines exhibited elevated levels of soluble sugars and proline as well as relative moisture contents but a lower malondialdehyde content than in control plants. The expression levels of hyperosmotic salinity response genes COR15A, RD22, and P5CS1 were found to be elevated in the LcERF080-overexpressing Arabidopsis plants compared to the wild-type plants. These results reveal that LcERF080 is involved in the responses of plants to salt stress.