Article
[ST3]: Genetic pathways controlling midbrain dopaminergic neuron development in vivo
N. Prakash,
Corresponding Author
N. Prakash
Helmholtz Centre Munich, Germany
Corresponding author.
Search for more papers by this author E. Andersson,
E. Andersson
Karolinska Institute, Sweden
Search for more papers by this author E. Minina,
E. Minina
Helmholtz Centre Munich, Germany
Search for more papers by this author R. Klafke,
R. Klafke
Helmholtz Centre Munich, Germany
Search for more papers by this author A. Simeone, E. Arenas,
E. Arenas
Karolinska Institute, Sweden
Search for more papers by this author W. Wurst,
W. Wurst
Helmholtz Centre Munich, Germany
Search for more papers by this author
N. Prakash,
Corresponding Author
N. Prakash
Helmholtz Centre Munich, Germany
Corresponding author.
Search for more papers by this author E. Andersson,
E. Andersson
Karolinska Institute, Sweden
Search for more papers by this author E. Minina,
E. Minina
Helmholtz Centre Munich, Germany
Search for more papers by this author R. Klafke,
R. Klafke
Helmholtz Centre Munich, Germany
Search for more papers by this author A. Simeone, E. Arenas,
E. Arenas
Karolinska Institute, Sweden
Search for more papers by this author W. Wurst,
W. Wurst
Helmholtz Centre Munich, Germany
Search for more papers by this author
First published: 25 November 2008
No abstract is available for this article.
References
- G. Castelo-Branco, J. Wagner, F.J. Rodriguez, J. Kele, K. Sousa, N. Rawal, H.A. Pasolli, E. Fuchs, J. Kitajewski, E. Arenas. Differential regulation of midbrain dopaminergic neuron development by Wnt-1, Wnt-3a, and Wnt-5a. Proc. Natl. Acad. Sci. U.S.A. 100: 2003; 12747–12752
- N. Prakash, C. Brodski, T. Naserke, E. Puelles, R. Gogoi, A. Hall, M. Panhuysen, D. Echevarria, L. Sussel, D.M.V. Weisenhorn, et al.A Wnt1-regulated genetic network controls the identity and fate of midbrain-dopaminergic progenitors in vivo. Development. 133: 2006; 89–98
