E. Piermarini Et Al. , "Modeling gain-of-function and loss-of-function components of SPAST-based hereditary spastic paraplegia using transgenic mice," HUMAN MOLECULAR GENETICS , vol.31, no.11, pp.1844-1859, 2022
Piermarini, E. Et Al. 2022. Modeling gain-of-function and loss-of-function components of SPAST-based hereditary spastic paraplegia using transgenic mice. HUMAN MOLECULAR GENETICS , vol.31, no.11 , 1844-1859.
Piermarini, E., Akarsu, S., Connors, T., Kneussel, M., Lane, M. A., Morfini, G., ... Karabay Korkmaz, A.(2022). Modeling gain-of-function and loss-of-function components of SPAST-based hereditary spastic paraplegia using transgenic mice. HUMAN MOLECULAR GENETICS , vol.31, no.11, 1844-1859.
Piermarini, Emanuela Et Al. "Modeling gain-of-function and loss-of-function components of SPAST-based hereditary spastic paraplegia using transgenic mice," HUMAN MOLECULAR GENETICS , vol.31, no.11, 1844-1859, 2022
Piermarini, Emanuela Et Al. "Modeling gain-of-function and loss-of-function components of SPAST-based hereditary spastic paraplegia using transgenic mice." HUMAN MOLECULAR GENETICS , vol.31, no.11, pp.1844-1859, 2022
Piermarini, E. Et Al. (2022) . "Modeling gain-of-function and loss-of-function components of SPAST-based hereditary spastic paraplegia using transgenic mice." HUMAN MOLECULAR GENETICS , vol.31, no.11, pp.1844-1859.
@article{article, author={Emanuela Piermarini Et Al. }, title={Modeling gain-of-function and loss-of-function components of SPAST-based hereditary spastic paraplegia using transgenic mice}, journal={HUMAN MOLECULAR GENETICS}, year=2022, pages={1844-1859} }