N. Sen Et Al. , "Generation of an Atxn2-CAG100 knock-in mouse reveals N-acetylaspartate production deficit due to early Nat8l dysregulation," NEUROBIOLOGY OF DISEASE , vol.132, 2019
Sen, N. Et Al. 2019. Generation of an Atxn2-CAG100 knock-in mouse reveals N-acetylaspartate production deficit due to early Nat8l dysregulation. NEUROBIOLOGY OF DISEASE , vol.132 .
Sen, N., Canet-Pons, J., Halbach, M. V., Arsovic, A., Pilatus, U., Chae, W., ... Kaya, Z.(2019). Generation of an Atxn2-CAG100 knock-in mouse reveals N-acetylaspartate production deficit due to early Nat8l dysregulation. NEUROBIOLOGY OF DISEASE , vol.132.
Sen, Nesli-Ece Et Al. "Generation of an Atxn2-CAG100 knock-in mouse reveals N-acetylaspartate production deficit due to early Nat8l dysregulation," NEUROBIOLOGY OF DISEASE , vol.132, 2019
Sen, Nesli-Ece Et Al. "Generation of an Atxn2-CAG100 knock-in mouse reveals N-acetylaspartate production deficit due to early Nat8l dysregulation." NEUROBIOLOGY OF DISEASE , vol.132, 2019
Sen, N. Et Al. (2019) . "Generation of an Atxn2-CAG100 knock-in mouse reveals N-acetylaspartate production deficit due to early Nat8l dysregulation." NEUROBIOLOGY OF DISEASE , vol.132.
@article{article, author={Nesli-Ece Sen Et Al. }, title={Generation of an Atxn2-CAG100 knock-in mouse reveals N-acetylaspartate production deficit due to early Nat8l dysregulation}, journal={NEUROBIOLOGY OF DISEASE}, year=2019}