Proteome analysis of cultivar specific interactions between Rhizobium leguminosarum biovar trifolii and subterranean clover cultivar Woogenellup

Abstract

Proteome analysis was used to identify proteins that are involved in the early stages of nodulation between the subterranean clover cultivar Woogenellup and the Rhizobium leguminosarum bv. trifolii strains ANU843 and ANU794. Strain ANU843 induces nitrogen-fixing nodules whereas strain ANU794 forms aberrant nodules on the roots of cv. Woogenellup that fail to develop beyond an early stage. Our aim was to identify proteins that might be involved in the early stages of nodulation over a 48 h period and to identify proteins that are differentially displayed during the interactions between the host and the two microbes. Proteome maps from control Woogenellup roots and inoculated roots were generated and compared at 24 and 48 h post inoculation. Over 1500 spots were resolved on all gels. Of the 16 protein spots that were differentially displayed or developmentally regulated, 10 were assigned putative identities. These included an α-fucosidase, several ethylene-induced proteins, a Cu/Zn superoxide dismutase, a hypothetical 16.5 kDa protein, tubulin α-chain, chaperonin 21 precursor and triosephosphate isomerase. Of the 22 constitutively expressed proteins spots examined, eight spots were assigned putative protein homologies through N-terminal sequencing and included several pathogenesis and stress-related proteins. The result may suggest that ethylene levels are upregulated during the early stages of infection but that this does not result in the induction of common pathogenesis-related proteins. The specific induction of α-fucosidase by ANU794 may be important in the nodulation failure phenotype of strain ANU794.