CHARACTERIZATION OF THE CHLOROPLAST RETROGRADE SIGNAL THAT REGULATES ALTERNATIVE SPLICING

GODOY HERZ MA ; KUBACZKA MG ; PETRILLO E; SILESS G; CABRERA GABRIELA M.; PALERMO J; KORNBLIHTT AR

Congreso; LI Reunión Anual Sociedad Argentina de Investigación en Bioquímica y Biología Molecular; 2015

We have previously shown that light/dark conditions affect several alternative splicing events in Arabidopsis thaliana.Using drugs that inhibit the photosynthetic electron transport chain, we found that DCMU mimics the effect of darkness, whereas DBMIB mimics the effect of light on alternative splicing. This led us to propose the redox state ofthe plastoquinone pool as the switch that triggers a retrograde signal that modifies alternative splicing choices in the nucleus. Using high performance liquid chromatography we demonstrated that the redox state of the plastoquinonepool changes with our light/dark protocol. In order to investigate the nature of the retrograde signal, we have established the experimental conditions to obtain Arabidopsis mesophyll protoplasts. Similarly to Arabidopsisseedlings, protoplasts display a light/dark effect on alternative splicing. We incubated protoplast preparations in light or dark for a certain time, and then centrifuged them to collect the conditioned medium. The conditioned mediumobtained from light-exposed protoplasts causes changes in alternative splicing in protoplasts kept in the dark, similar to those observed in protoplasts exposed to light. This suggests that, upon light incubation, protoplasts produce a signaling molecule that accumulates in the conditioned medium and then modulates alternative splicing.