The RRM domain-containing protein Rbp3 interacts with ribosomes and the 3′ ends of mRNAs encoding photosynthesis proteins

RNA recognition motif (RRM) domain proteins are crucial RNA-binding proteins (RBPs) across all domains of life. In cyanobacteria, single RRM domain proteins are involved in mRNA targeting to the thylakoid membrane and acclimation to certain stress conditions, but many details of their physiological functions and molecular targets have remained unknown. The model cyanobacterium Synechocystis sp. PCC 6803 has a family of three genes encoding the RRM domain-containing proteins Rbp1, Rbp2 and Rbp3. Here, we verified the RNA-binding activity of Rbp3 in vivo and show that cells of a Δ rbp3 deletion strain had a lower PSI:PSII ratio and pigment content and were significantly smaller than wild-type cells. To identify the set of interacting molecules, co-immunoprecipitation experiments were performed with a strain expressing a C-terminally FLAG-tagged Rbp3. Mass spectrometry of the elution fraction suggested physical proximity between Rbp3, ribosomes, and a very small number of other proteins. The most highly enriched transcript in the co-eluting RNA fraction was the psaAB mRNA. This was corroborated by fluorescent in situ hybridization (FISH) analyses showing decreased psaA mRNA signals and colocalization with Rbp3-GFP signals and ribosomes. Other enriched mRNAs encode thylakoid, plasma membrane and carboxysome proteins. The Rbp3-mRNA interactions occurred preferentially towards the end of coding regions or the 3′UTRs, although some were also mapped to other regions. Binding assays using Bio-layer Interferometry validated the Rbp3- psaAB mRNA interaction, indicating a preference for folded RNA segments near or overlapping the respective stop codons.