postdoctral fellows in formation, function, and regeneration of motor circuits
Burke Neurological Institute / Cornell Medical School
August 31, 2018
White Plains, New York
Full Time - Experienced
Academic / Research
The Neural Connectivity Development in Physiology and Disease laboratory at the Burke-Cornell Neurological Institute, led by Yutaka Yoshida, PhD, is currently seeking postdoctral fellows with laboratory experience in either molecular biology or neuroscience. The Yoshida laboratory is interested in formation, function, and regeneration of motor circuits controlling locomotor and skilled movements. We especially study descending motor circuits including corticospinal circuits using various techniques such as molecular biology, mouse genetics, trans-synaptic viruses, optogenetic and chemogenetic tools, and spinal cord injury.
Recent representative publications from the Yoshida lab: 1. Yoshida Y., Isa T. (2018). Neural and genetic basis of dexterous hand movements. Curr Opin Neurobiol. 52, 25-32. 2. Ueno M., Ueno-Nakamura, Y., Li J, Gu Z., Niehaus J., Maezawa M., Crone S.A., Goulding M., Baccei M.L., and Yoshida Y. (2018). Corticospinal circuits from the sensory and motor cortex differentially regulate skilled movements through distinct interneurons. Cell Reports, 23, 1286-1300 3. Gu Z., Sarrad N., Ueno M., Liang M., Li J., Enquist L.W., Baccei M.R., Martin J.H., and Yoshida Y. (2017). Skilled movements require non-apoptotic Bax/Bak pathway-mediated corticospinal circuit reorganization. Neuron, 94, 626-641. 4. Gu Z., Kalamboglas J., Yoshioka S., Han W., Zhuo L., Imamura Kawasawa Y., Pochareddy S., LiZ., Liu F., Xu X., Wijeratne S., Ueno M., Blatz E., Salomone J., Kumanogoh A., Rasin M.R., Gebelein B., Weirauch M.T., Sestan N., Martin J.H., and Yoshida Y. (2017). Control of species-dependent cortico-motoneuronal connections underlying manual dexterity, Science, 357, 400-404. 5. Imai F., Chen X., Weirauch M.T., and Yoshida Y. (2016). Requirement of Dicer in maintenance of monosynaptic sensory-motor circuits in the spinal cord. Cell Reports, 17, 2163-72. 6. Ueno M., Ueno-Nakamura Y., Niehaus J., Popovich P.G., and Yoshida Y. (2016). Silencing spinal interneurons inhibits immune suppressive autonomic reflexes caused by spinal cord injury. Nature Neuroscience, 19, 784-787.
The Burke Neurological Institute is an equal opportunity employer with competitive pay scales and benefits.
To apply, candidates should email their resume with cover letter to Dr. Yutaka Yoshida, Ph.D. at email@example.com. In the subject line, please include your name followed by “Postdoctral Fellow Applicant.”
PhD with experience in either molecular biology or neuroscience
Internal Number: 12307
About Burke Neurological Institute / Cornell Medical School
The Burke Neurological Institute, located 35 minutes outside of NYC in White Plains, NY, is a leader in utilizing innovative scientific approaches to develop regenerative strategies to combat neurological disability with particular interests in stroke, spinal cord injury, traumatic brain injury and neurodegenerative diseases. The Institute is affiliated with Weill Medical College of Cornell University and faculty members are appointed in Departments at the Weill Medical College.