AN ELECTROPHORETICALLY SILENT POLYMORPHISM FOR THE BETA CHAINS OF RABBIT HEMOGLOBIN AND ASSOCIATED POLYRIBOSOME PATTERNS

Michael D. Garrick ¹, J. Bricker ¹, and Laura M. Garrick ¹

¹ Departments of Biochemistry and Pediatrics, State University of New York at Buffalo, Buffalo, N.Y. 14207

The ß chain of rabbit (Oryctolagus caniculus) hemoglobin has previously been reported to contain a single residue of isoleucine at ß¹¹². We have detected other rabbits with either zero isoleucyl residues or half a residue per ß chain. This character is polymorphic and inherited as a simple mendelian autosomal codominant.—Normally the modal number of ribosomes per polyribosome is 4 to 6 in reticulocyte lysates; but incubation of rabbit reticulocytes prior to lysis with L-o-methylthreonine (OMT), an isostere of isoleucine, leads to a bimodal distribution in lysates with 2–3 and 8–12 ribosomes as modes. This alteration has been attributed to ribosomal traffic jams caused by starvation for ile-tRNA at mRNA codons corresponding to the locations of isoleucyl residues at positions ¹⁰, ¹⁷, ⁵⁵ and ß¹¹². We have confirmed this interpretation by incubating OMT with reticulocytes from rabbits with integral, half integral and nil values for isoleucyl residues per ß chain to show that formation of the larger clusters of polyribosomes requires that ß¹¹² = ile.