X. Shen Et Al. , "Investigation of a Novel Recessive Mutation in Acetylcholine Receptor Epsilon-Subunit with Slow-Channel Kinetics Causing Congenital Myasthenia Reveals Subunit-Specific Contribution of Cys-Loop Length to Receptor Activation," ANNALS OF NEUROLOGY , vol.92, 2022
Shen, X. Et Al. 2022. Investigation of a Novel Recessive Mutation in Acetylcholine Receptor Epsilon-Subunit with Slow-Channel Kinetics Causing Congenital Myasthenia Reveals Subunit-Specific Contribution of Cys-Loop Length to Receptor Activation. ANNALS OF NEUROLOGY , vol.92 .
Shen, X., Shen, S., Zhao, Y., Di, L., Durmus, H., Deymeer, F., ... Bregman, J.(2022). Investigation of a Novel Recessive Mutation in Acetylcholine Receptor Epsilon-Subunit with Slow-Channel Kinetics Causing Congenital Myasthenia Reveals Subunit-Specific Contribution of Cys-Loop Length to Receptor Activation. ANNALS OF NEUROLOGY , vol.92.
Shen, Xin-Ming Et Al. "Investigation of a Novel Recessive Mutation in Acetylcholine Receptor Epsilon-Subunit with Slow-Channel Kinetics Causing Congenital Myasthenia Reveals Subunit-Specific Contribution of Cys-Loop Length to Receptor Activation," ANNALS OF NEUROLOGY , vol.92, 2022
Shen, Xin-Ming Et Al. "Investigation of a Novel Recessive Mutation in Acetylcholine Receptor Epsilon-Subunit with Slow-Channel Kinetics Causing Congenital Myasthenia Reveals Subunit-Specific Contribution of Cys-Loop Length to Receptor Activation." ANNALS OF NEUROLOGY , vol.92, 2022
Shen, X. Et Al. (2022) . "Investigation of a Novel Recessive Mutation in Acetylcholine Receptor Epsilon-Subunit with Slow-Channel Kinetics Causing Congenital Myasthenia Reveals Subunit-Specific Contribution of Cys-Loop Length to Receptor Activation." ANNALS OF NEUROLOGY , vol.92.
@article{article, author={Xin-Ming Shen Et Al. }, title={Investigation of a Novel Recessive Mutation in Acetylcholine Receptor Epsilon-Subunit with Slow-Channel Kinetics Causing Congenital Myasthenia Reveals Subunit-Specific Contribution of Cys-Loop Length to Receptor Activation}, journal={ANNALS OF NEUROLOGY}, year=2022}