Iron (Fe) is an essential element in plants and animals, while excess Fe accumulation causes cytotoxic through the production of reactive oxygen species. Metallochaperones deliver ion cofactors to the specific physiological partners through direct protein-protein interactions. Only three Fe chaperones are known, i.e. human mitochondrial frataxin, cytoplasmic poly(C)-binding proteins, and Arabidopsis chloroplastic chaperonin 20. We identified four RNA binding proteins (RBPs) RBP1, RBP2, GRP7, and GRP8 which could be functioned as a Fe chaperone for cytoplasmic-destined Fe superoxide dismutase 1 (ΔTP-FSD1) activation in Arabidopsis (Arabidopsis thaliana). In this study, using yeast two-hybrid and bimolecular fluorescence complementation assay confirmed the interaction relationship between RBPs and FSD1. In vitro SOD activity assay showed that GRP7 and GRP8 enhanced the FSD1 activity. In conclusion, our results demonstrated a critical role for RBPs to be Fe chaperones for the cytosolic FeSOD activation in Arabidopsis. Our results also suggested that RBP plays a role in Fe metalation of cytoplasmic Fe-containing proteins.