The chloroplast protease system degrades stromal DUF760-1 and DUF760-2 domain-containing proteins at different rates

Abstract

Abstract The chloroplast chaperone CLPC1 aids to select, unfold, and deliver hundreds of proteins to the CLP protease for degradation. Through in vivo CLPC1, trapping we previously identified dozens of proteins that are (potential) substrate adaptors or substrates for the CLP chaperone–protease system. In this study, we show that two of these highly trapped proteins, DUF760-1 and DUF760-2, are substrates for the CLP protease in Arabidopsis (Arabidopsis thaliana). Loss-of-function mutants and transgenic plants were created for phenotyping, protein expression, and localization using immunoblotting and confocal microscopy. In planta BiFC, cycloheximide chase assays, and yeast 2-hybrid analyses were conducted to determine protein interactions and protein half-life. Both DUF760 proteins directly interacted with the N-domain of CLPC1 and both were highly enriched in clpc1-1 and clpr2-1 mutants. Accordingly, in vivo cycloheximide chase assays demonstrated that both DUF760 proteins are degraded by the CLP protease. The half-life of DUF760-1 was 4 to 6 h, whereas DUF760-2 was highly unstable and difficult to detect unless CLP proteolysis was inhibited. Null mutants for DUF760-1 and DUF760-2 showed weak but differential pigment phenotypes and differential sensitivity to protein translation inhibitors. This study demonstrates that DUF760-1 and DUF760-2 are substrates of the CLP chaperone–protease system and excellent candidates for the determination of CLP substrate degrons.