CONICET | Buscador de Institutos y Recursos Humanos

The symbiotic relationship between legumes and nitrogen-fixing bacteria accounts for almost half of the nitrogen incorporated into agricultural soils. Unravelling the molecular mechanisms involved in the establishment of the interaction is crucial to improve this biological process. We have previously shown that PvRabA2, a monomeric Rab GTPase from common bean (Phaseolus vulgaris), participates in polar growth events such as root hair formation, growing and hair curling in response to rhizobia. Moreover, RNAi silenced plants did not form infection threads (ITs), the tubular infection structures that lead bacteria to the nodule, resulting in the absence of root nodules. Considering the complex post-translational regulation of the monomeric GTPases, we obtained constitutively active (CA) and dominant negative (DN) forms of PvRabA2 by site-directed mutagenesis to further evaluate the function of this protein at early infection stages of the interaction. Overexpression of DN and CA forms did not have a pronounced effect on polar growth of root hairs or in the number of ITs as compared with control plants. However, infection events in the presence of CA and DN forms of PvRabA2 contained a significant amount of abnormal structures, as formation of infection pockets, ITs ramified within root hairs and the premature release of bacteria into the cytoplasm of trichoblasts. Concomitantly, nodule formation and development was also affected in both CA and DN overexpressing roots when they were inoculated with the high efficient strain of Rhizobium etli SC15, but not with the less efficient strain 55N1. Localization experiments showed that the CA form of PvRABA2 associates to the growing IT. Our results suggest that PvRabA2 participates in the vesicle trafficking associated to deposition of phragmoplast-like material required for IT progression, and might be a key component of the strain-specific response previously described in the P. vulgaris-rhizobia interaction.