RESUMO
In photoautotrophic organisms, the expression of nuclear genes encoding plastid proteins is known to be regulated at various levels. In this study, we present the analysis of two non-photosynthetic mutants (CC1051 and TR72) from the unicellular green alga Chlamydomonas reinhardtii. Both mutant strains show a defect in the processing of chloroplast psaA mRNA, and therefore they are assumed to be defective in photosystem I (PSI) assembly. We have performed macroarray experiments with trans-splicing mutants CC1051 and TR72 in order to analyse putative pleiotropic effects of nuclear-located mutations leading to a non-functional PSI. To the best of our knowledge, this is the first example of Chlamydomonas cDNA macroarray analysis comparing the transcriptional regulation of nuclear genes in wild-type and photosystem I mutants. The macroarray results demonstrated a transcriptional downregulation of members of the Lhcb gene family more than 2-fold in both mutant strains. In addition, real-time RT-PCR experiments found a 4- to 16-fold reduction in transcript levels of several Lhca genes in TR72; whereas in CC1051, no significant change in transcript levels was observed. Taken together, our data suggest that a signal is transmitted from the chloroplast to the nucleus that serves to regulate the level of light harvesting polypeptides in the organelle.