Classification of normal and male-sterile cytoplasms in maize. I. Electrophoretic analysis of variation in mitochondrially synthesized proteins.

Male-sterile cytoplasms of maize have previously been classified into three groups (T, S and C) according to their fertility ratings in various inbred backgrounds. In earlier studies, mitochondria from three male-sterile cytoplasms, representing each of these three groups, have been found to synthesize characteristic variant polypeptides that distinguish them from each other and from those of normal (N) cytoplasm. In order to determine the extent of cytoplasmic variation, we have now analyzed the translation products of mitochondria from 28 additional cytoplasmic sources. The results show that on this basis 18 of the cytoplasms are identical to the USDA (S) cytoplasm, three are identical to the Texas (T) cytoplasm and two are identical to the C cytoplasm. The five remaining cytoplasms are indistinguishable from normal, male-fertile (N) cytoplasm. Our classification of the cytoplasms is in general agreement with those based on fertility restoration. However, of three cytoplasms that have previously remained unclassified, two (B and D) have now been assigned to the S group and one (LF) to the N group. No heterogeneity in mitochondrial translation products was detected within the normal or any of the three male-sterile groups. The usefulness of the analysis of mitochondrial translation products as a method for classifying normal and male-sterile cytoplasms is discussed.