Electron microscopic evidence is presented for the extensive association of protein subunits into ribbons within the mitochondrial inner membrane. The mitochondrial cristae can be rearranged to a narrow tubular form which exhibits ribbon structure and is fully functional; the morphology of particles derived from sub-mitochondrial electron transport particles by treatment with lysolecithin suggests that the backbone of the ribbon is provided by the cytochrome-free tripartite unit (headpiece, stalk, basepiece) in linear repeat. These results are inconsistent with any single model of the inner membrane previously proposed, but are best understood in terms of a model which combines the concept of an ordered protein continuum with the concept of a fluid lipid bilayer. Further, it is concluded that the "headpiece out" morphology of the tripartite unit represents a viable conformation of the endergonic transducing unit.