Early myelination in zitter rat was investigated by light and electron microscopic observations, by immunostaining for myelin basic protein (MBP), proteolipid protein (PLP) and myelin-associated glycoprotein (MAG), and by morphometric analysis from the 1st to the 28th day of age. Although the commencement of myelination in zitter rats was not delayed in comparison with control rats, the density or the number of myelinated fibers in zitter rats was significantly below that in controls, both in the ventral column of the cervical spinal cord and in the optic nerve. In contrast, the density or the number of aberrant myelin sheaths was increased in zitter rats, and this difference became more marked with increasing age. The persistent presence of abnormal membranous structures associated with the oligodendroglial nuclear membrane and the increased number of aberrant myelin sheaths were characteristic to the zitter mutation, although these alterations were also observed transiently in control rats. Quantitative analysis supported the proposition that hypomyelination in zitter rats is primarily pathological and becomes more prominent with advancing age. However, the fundamental structure of the myelin lamellae appeared to be normal and the immunoreactivities for MBP, PLP and MAG were slightly delayed and weakend in comparison with age-matched controls. Thus, in zitter rat there is the functional abnormality of the oligodendrocytes to integrate the processes of membrane biosynthesis and to expel excessive production of membranous structures associated with the membranous organellae such as nuclear membrane, and it is postulated that this functional abnormality is characteristic to only the zitter mutation.