The Functional Repair and Axonogenesis (FRA) lab investigates how the central nervous system (CNS) is wired during development and how these pathways can be reactivated and modulated to promote repair after injury, particularly in the spinal cord and optic nerve. We study growth pathways, axon guidance cues, and neuron-glia interactions that shape connectivity in the CNS. By combining genetic, molecular, behavioral and advanced imaging approaches, we examine neuronal migration, synaptogenesis, and responses to injury. Our goal is to uncover fundamental mechanisms that can be leveraged to drive regeneration, circuit formation and functional recovery in neurological disorders. Trainees will join a collaborative, interdisciplinary environment and will gain experience at the interface of developmental neurobiology and CNS regeneration.
The Functional Repair and Axonogenesis (FRA) lab investigates how the central nervous system (CNS) is wired during development and how these pathways can be reactivated and modulated to promote repair after injury, particularly in the spinal cord and optic nerve. We study growth pathways, axon guidance cues, and neuron-glia interactions that shape connectivity in the CNS. By combining genetic, molecular, behavioral and advanced imaging approaches, we examine neuronal migration, synaptogenesis, and responses to injury. Our goal is to uncover fundamental mechanisms that can be leveraged to drive regeneration, circuit formation and functional recovery in neurological disorders. Trainees will join a collaborative, interdisciplinary environment and will gain experience at the interface of developmental neurobiology and CNS regeneration.
