Abstract
The chloroplast (cp) genome is organized as nucleoids that are dispersed throughout the cp stroma. Previously, a cp homolog of bacterial recombinase RecA (cpRECA) was shown to be involved in the maintenance of cp genome integrity by repairing damaged chloroplast DNA and by suppressing aberrant recombination between short dispersed repeats in the moss Physcomitrella patens Here, overexpression and knockdown analysis of cpRECA in the green alga Chlamydomonas reinhardtii revealed that cpRECA was involved in cp nucleoid dynamics as well as having a role in maintaining cp genome integrity. Overexpression of cpRECA tagged with yellow fluorescent protein or hemagglutinin resulted in the formation of giant filamentous structures that colocalized exclusively to chloroplast DNA and cpRECA localized to cp nucleoids in a heterogenous manner. Knockdown of cpRECA led to a significant reduction in cp nucleoid number that was accompanied by nucleoid enlargement. This phenotype resembled those of gyrase inhibitor-treated cells and monokaryotic chloroplast mutant cells and suggested that cpRECA was involved in organizing cp nucleoid dynamics. The cp genome also was destabilized by induced recombination between short dispersed repeats in cpRECA-knockdown cells and gyrase inhibitor-treated cells. Taken together, these results suggest that cpRECA and gyrase are both involved in nucleoid dynamics and the maintenance of genome integrity and that the mechanisms underlying these processes may be intimately related in C. reinhardtii cps.
Highlights
The chloroplast genome is organized as nucleoids that are dispersed throughout the cp stroma
We showed that knockdown or overexpression of cp homolog of bacterial recombinase RecA (cpRECA), or treatment of cells with gyrase inhibitors, resulted in significant alterations to the micromorphology of cp nucleoids in C. reinhardtii
CpRECA is a homolog of bacterial RecA, a recombinase involved in homologous pairing and strand exchange in Homologous recombination (HR) repair that has an important role in the repair of stalled and collapsed replication forks (Lusetti and Cox, 2002)
Summary
The chloroplast (cp) genome is organized as nucleoids that are dispersed throughout the cp stroma. The cp genome was destabilized by induced recombination between short dispersed repeats in cpRECA-knockdown cells and gyrase inhibitor-treated cells Taken together, these results suggest that cpRECA and gyrase are both involved in nucleoid dynamics and the maintenance of genome integrity and that the mechanisms underlying these processes may be intimately related in C. reinhardtii cps. Transcription and translation of chloroplast-targeted RECA (cpRECA) is induced by treatment with DNA-damaging agents in various plants (Cerutti et al, 1992, 1993; Nakazato et al, 2003; Inouye et al, 2008) Taken together, these observations suggest that cpRECA is involved in the repair of damaged cpDNA
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