The chloroplast ribosomal protein CS1, the homolog of the bacterial ribosomal protein S1, is believed to be involved in the process of ribosome binding to mRNA during translation. Since translation control is an important step in chloroplast gene expression, and in order to study initiation complex formation, we studied the RNA-binding properties of CS1 protein. We found that most of the CS1 protein in spinach chloroplast co-purified with the 30S ribosomal subunit. The relative binding affinity of RNA to CS1 was determined using the UV-crosslinking competition assay. CS1 protein binds the ribohomopolymer poly(U) with a relatively high binding affinity. Very low binding affinities were obtained for the other ribohomopolymers, poly(G), poly(A) and poly(C). In addition, no specific binding of CS1, either in the 30S complex or as a recombinant purified protein, was obtained to the 5'-untranslated region of the mRNA in comparison to the other parts. RNA-binding experiments, in which the N- and C-termini of the protein were analyzed, revealed that the RNA-binding site is located in the C-terminus half of the protein. These results suggest that CS1 does not direct the 30S complex to the initiation codon of the translation site by specific binding to the 5'-untranslated region. In bacteria, specific binding is derived by base pairing between 16S rRNA and the Shine-Dalagarno sequences. In the chloroplast, nuclear encoded and gene-specific translation factors may be involved in the determination of specific binding of the 30S subunit to the initiator codon.