Two cDNAs encode two nearly identical Cu/Zn superoxide dismutase proteins in maize

Summary SOD-4, a cytosolic form of superoxide dismutase in maize, originally was defined as a single band of activity by zymogram analysis. The protein was purified to homogeneity as shown by a single band on native or denaturing polyacrylamide gels and a single spot on two dimensional gels. The N-terminal amino acid sequence for the first 20 residues was determined for the purified SOD-4 protein. All residues were clearly determined except for residue twelve, where both glutamic and aspartic acids were found. A maize gt11 cDNA library was constructed from scutellar poly(A)⁺RNA. Two cDNAs were isolated, restriction mapped, and their DNA sequences determined. The amino acid sequence deduced from both cDNAs matched perfectly the N-terminal sequence of the purified protein except for the residue at position 12. Significantly, at the twelfth codon, one cDNA was found to code for glutamic acid and the other cDNA had a codon for aspartic acid. Both cDNAs contained similar but not identical 5 and 3 untranslated sequences. Both cDNAs contained polyadenylation signals and tails. cDNA isolations, RNA, and genomic DNA blots confirm the existence and expression of two genes that produce indistinguishable SOD-4 proteins.