A complex interplay of Gß and Gγ proteins regulates plant growth and defence traits in the allotetraploid Brassica juncea.

KEY MESSAGE: Gene expression analysis coupled with in-planta studies showed that specific Gßγ combination regulates plant growth and defence traits in the allotetraploid Brassica juncea. Plant heterotrimeric G-proteins regulate a wide range of responses despite their limited repertoire of core components. The roles and functional interactions between different G-protein subunits are quite perplexing, which get further complicated with polyploidy. Here, we show that the allotetraploid Brassica juncea comprises multiple homologs of G-protein genes, encoding six BjuGß and ten highly divergent BjuGγ subunit proteins, later being classified into type-A1, type-A2 and type-C Gγ proteins. The encoded BjuGß and BjuGγ proteins shared close evolutionary relationship and have retained distinct spatio-temporal expression patterns during plant developmental stages and in response to the necrotrophic pathogen, Sclerotinia sclerotiorum. RNAi based suppression of BjuGß and BjuGγ genes suggested functional overlap and selectivity of BjuGßs with three distinct BjuGγ type subunits, to regulate plant height (BjuGßγA2 and BjuGßγC), seed weight (BjuGßGγA1 and BjuGßGγC), silique size (BjuGßGγC) and pathogen response (BjuGßGγA1 and BjuGßGγC). Further, the triplicated BjuGß genes, formed due to Brassica specific whole-genome-triplication event, showed differential involvement during pathogen response, wherein overexpression of BjuGß2 displayed higher resistance to Sclerotinia infection. Taken together, our study demonstrates that multiple BjuGß and BjuGγ proteins have retained distinct spatio-temporal expression and functional selectivity to regulate specific plant growth and defence traits in the oilseed B. juncea.