M. Beker Et Al. , "Lentivirally administered glial cell line-derived neurotrophic factor promotes post-ischemic neurological recovery, brain remodeling and contralesional pyramidal tract plasticity by regulating axonal growth inhibitors and guidance proteins," Experimental Neurology , vol.331, 2020
Beker, M. Et Al. 2020. Lentivirally administered glial cell line-derived neurotrophic factor promotes post-ischemic neurological recovery, brain remodeling and contralesional pyramidal tract plasticity by regulating axonal growth inhibitors and guidance proteins. Experimental Neurology , vol.331 .
Beker, M., ÇAĞLAYAN, A. B., BEKER, M. Ç., ALTUNAY, S., Karacay, R., Dalay, A., ... Altintas, M. O.(2020). Lentivirally administered glial cell line-derived neurotrophic factor promotes post-ischemic neurological recovery, brain remodeling and contralesional pyramidal tract plasticity by regulating axonal growth inhibitors and guidance proteins. Experimental Neurology , vol.331.
Beker, Merve Et Al. "Lentivirally administered glial cell line-derived neurotrophic factor promotes post-ischemic neurological recovery, brain remodeling and contralesional pyramidal tract plasticity by regulating axonal growth inhibitors and guidance proteins," Experimental Neurology , vol.331, 2020
Beker, Merve Et Al. "Lentivirally administered glial cell line-derived neurotrophic factor promotes post-ischemic neurological recovery, brain remodeling and contralesional pyramidal tract plasticity by regulating axonal growth inhibitors and guidance proteins." Experimental Neurology , vol.331, 2020
Beker, M. Et Al. (2020) . "Lentivirally administered glial cell line-derived neurotrophic factor promotes post-ischemic neurological recovery, brain remodeling and contralesional pyramidal tract plasticity by regulating axonal growth inhibitors and guidance proteins." Experimental Neurology , vol.331.
@article{article, author={Merve Beker Et Al. }, title={Lentivirally administered glial cell line-derived neurotrophic factor promotes post-ischemic neurological recovery, brain remodeling and contralesional pyramidal tract plasticity by regulating axonal growth inhibitors and guidance proteins}, journal={Experimental Neurology}, year=2020}