PURPOSE: Test the hypothesis that the development of mammalian rod outer segments (ROS) varies with retinal eccentricity. METHODS: During the period of photoreceptor cell development, ROS lengths, opsin mRNA and (rhod)opsin were measured in central and peripheral retina of cows and pigmented rats. Published ROS length and/or rhodopsin data from albino rats, cows and monkeys were re-analyzed. Logistic growth curves were fitted to the newly obtained and published data. Within a species, growth in central and peripheral regions was compared. RESULTS: The logistic growth curves fit all the data well and provide an excellent view of the developmental increases in ROS length, opsin mRNA and (rhod)opsin in each retinal region. Within a species, the growth curves for ROS length, opsin mRNA and (rhod)opsin concentration are superimposable. The age at which ROS length reaches 50% of its adult value is invariant with eccentricity. An exception to this pattern is the simian parafoveal ROS, which appears to have a delayed course of development. CONCLUSIONS: The hypothesis is disproved. Unlike rod photoreceptor cell genesis, ROS development is invariant with retinal eccentricity. Primate parafoveal ROS appear to have a different pattern of development.
PURPOSE: Test the hypothesis that the development of mammalian rod outer segments (ROS) varies with retinal eccentricity. METHODS: During the period of photoreceptor cell development, ROS lengths, opsin mRNA and (rhod)opsin were measured in central and peripheral retina of cows and pigmented rats. Published ROS length and/or rhodopsin data from albino rats, cows and monkeys were re-analyzed. Logistic growth curves were fitted to the newly obtained and published data. Within a species, growth in central and peripheral regions was compared. RESULTS: The logistic growth curves fit all the data well and provide an excellent view of the developmental increases in ROS length, opsin mRNA and (rhod)opsin in each retinal region. Within a species, the growth curves for ROS length, opsin mRNA and (rhod)opsin concentration are superimposable. The age at which ROS length reaches 50% of its adult value is invariant with eccentricity. An exception to this pattern is the simian parafoveal ROS, which appears to have a delayed course of development. CONCLUSIONS: The hypothesis is disproved. Unlike rod photoreceptor cell genesis, ROS development is invariant with retinal eccentricity. Primate parafoveal ROS appear to have a different pattern of development.
Authors: Andrew I Jobling; Michelle Waugh; Kirstan A Vessey; Joanna A Phipps; Lidia Trogrlic; Una Greferath; Samuel A Mills; Zhi L Tan; Michelle M Ward; Erica L Fletcher Journal: J Neurosci Date: 2018-04-18 Impact factor: 6.167
Authors: Bruce A Berkowitz; David Bissig; Deborah Bergman; Emanuela Bercea; Vijaya K Kasturi; Robin Roberts Journal: Mol Vis Date: 2011-09-27 Impact factor: 2.367