A marked reduction of mitochondrial atp6 transcript-editing capability in sorghum anthers and pollen has been invoked as a factor in the loss of viability of male gametophytes in lines carrying the IS1112C male-sterile cytoplasm. We initiated a systematic examination of transcript editing of sorghum atp6 during microgametogenesis, from microspores through pollen, in two sets of male-fertile and near-isogenic, male-sterile lines. Transcript editing in cDNA populations from fertile lines indicated an average of about 90% editing among 15 sites examined. Parallel samples from sterile lines demonstrated a detectable reduction in editing efficiency, most evident in late pollen samples. However, editing efficiency in these cells averaged 80%, substantially higher than the 20% previously observed. Thus male-sterile lines retain substantial atp6-editing efficiency in an environment where the sterility and fertility restoration traits are stably expressed. Drastically reduced editing of atp6 transcripts in anthers and pollen of male-sterile sorghum is not demonstrable in a field environment; and thus it is not a factor in the loss of microgametophyte viability in this system.