An analog of sheep insulin which differs from the parent molecule in that the C-terminal amino acid residue of the A chain, asparagine, is replaced by arginine, has been synthesized and isolated in highly purified form. The [Arg21] A chain of sheep insulin was synthesized by the fragment condensation approach and isolated as the S-sulfonated derivative. Conversion of the latter into the sulfhydryl form and interaction with the S-sulfonated B chain of bovine (sheep) insulin yielded [Arg21-A] sheep insulin, which was purified by chromatography on a carboxymethylcellulose column with an exponential sodium chloride gradient. The [Arg21-A] sheep insulin shows potencies of 10.5--12.5 IU/mg when assayed by the mouse convulsion method and 8.6 IU/mg by the radioimmunoassay method (cf. 23--25 IU/mg for the natural hormone). It has been suggested that in the insulin molecule the A21 asparagine participates in salt bridge- and hydrogen bond-forming interactions which are critical in the biological activity of the hormone. Although the [Arg21-A] analog still retains these interactions, it is only ca. 50% as active as the natural hormone. It is speculated that other factors than the above mentioned interactions come into play, which involve the side chain of the A21 amino acid residue and affect the biological activity of the hormone.