Identification and Functional Analysis of Two Cotton Orthologs of MAX2 Which Control Shoot Lateral Branching

Abstract

Cotton (Gossypium spp.), as the most important fiber and oilseed crop in the world, is extremely important for the industry. However, due to its indeterminate growth habit and complex branching system, massive labor costs are needed for shoot apex removal and branch pruning during cotton production. Therefore, it is very important to explore branch-controlling genes and genetically modify the branch architecture of cotton. Strigolactones (SLs) are a novel class of plant hormone that inhibit the outgrowth of lateral branches. To elucidate the role of SLs in branch development of cotton, we cloned and characterized GhMAX2a and GhMAX2b from tetraploid upland cotton (Gossypium hirsutum), the orthologs of Arabidopsis MAX2, rice D3, and petunia RMS4. GhMAX2a/2b was ubiquitously expressed in all tested tissues of cotton, with relatively higher expression levels in leaves and lateral buds. Subcellular localization assay showed that the GhMAX2-GFP fusion protein localized to the nucleus. Both GhMAX2a and GhMAX2b can fully rescue the dwarfed and highly branched phenotypes of the Arabidopsis max2-1 mutant, indicating that GhMAX2s have conserved functions with that of AtMAX2. The cotton GhMAX2b interacted with Arabidopsis Skp1-like 1 (ASK1) proteins in vitro which was further confirmed in the Arabidopsis protoplasts using the co-immunoprecipitation assay, indicating that GhMAX2b probably functions through forming an SCF E3 complex with Skp and other proteins in the Arabidopsis. These results suggest that the cotton GhMAX2s encode functional MAX2 that can inhibit the shoot lateral branching. Further functional analysis of GhMAX2s in determining cotton branch architecture and yield is underway.