Overexpression of MiSPL3a and MiSPL3b confers early flowering and stress tolerance in Arabidopsis thaliana

Abstract

SQUAMOSA promoter-binding protein-like (SPL) family genes play an important role in regulating plant flowering and resistance to stress. However, understanding the function of the SPL family in mango is still limited. In a previous study, two MiSPL3 genes, MiSPL3a and MiSPL3b (MiSPL3a/b), were identified in ‘SiJiMi’ mango and exhibited the highest expression in flowers at the initial flowering stage [24]. Therefore, in this study, we further investigated the expression pattern and gene function of MiSPL3a/b. The results showed that the expression of MiSPL3a was greatest at the end of floral bud differentiation, and MiSPL3b was expressed mainly during the flowering induction and vegetative growth stages. Subcellular localization showed that MiSPL3a/b localized to the nucleus. In addition, ectopic expression of MiSPL3a/b promoted earlier flowering in Arabidopsis thaliana by 3 d-6 d than in wild-type (WT) plants, which increased the expression of SUPPRESSOR OF CONSTANS1 (AtSOC1), FRUITFULL (AtFUL), and APETALA1 (AtAP1). MiSPL3a/b transgenic lines exhibited increased tolerance to drought, GA3, and abscisic acid (ABA) treatments but were sensitive to Pro-Ca treatment. Furthermore, protein interaction analysis revealed that MiSPL3a/b could interact with several stress-related proteins, flowering-related proteins, and the bridge protein 14–3-3. Taken together, MiSPL3a and MiSPL3b acted as positive regulators of flowering time and stress tolerance in transgenic Arabidopsis.