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Full-Text Articles in Life Sciences
Npc1 Deficiency Impairs Cerebellar Postnatal Development Of Microglia And Climbing Fiber Refinement In A Mouse Model Of Niemann-Pick Disease Type C., Bridget R Boyle, Sierra E Melli, Ruth S Altreche, Zachary M Padron, Fawad A K Yousufzai, Sarah Kim, Mariella D Vasquez, Dawn M Carone, Benjamin Carone, Ileana Soto Reyes
Npc1 Deficiency Impairs Cerebellar Postnatal Development Of Microglia And Climbing Fiber Refinement In A Mouse Model Of Niemann-Pick Disease Type C., Bridget R Boyle, Sierra E Melli, Ruth S Altreche, Zachary M Padron, Fawad A K Yousufzai, Sarah Kim, Mariella D Vasquez, Dawn M Carone, Benjamin Carone, Ileana Soto Reyes
Faculty Scholarship for the College of Science & Mathematics
Little is known about the effects of NPC1 deficiency in brain development and whether these effects contribute to neurodegeneration in Niemann-Pick disease type C (NPC). Degeneration of cerebellar Purkinje cells occurs at an earlier stage and to a greater extent in NPC; therefore, we analyzed the effect of NPC1 deficiency on microglia and on climbing fiber synaptic refinement during cerebellar postnatal development using the