D. Surmeier - Chicago IL, US Michelle Day - Chicago IL, US Jun Ding - Chicago IL, US Savio Chan - Chicago IL, US Jamie Guzman - Wilmette IL, US Jeff Mercer - Chicago IL, US Tatiana Tkatch - Chicago IL, US Zhongfeng Wang - Evanston IL, US Ema Ilijic - Chicago IL, US
Assignee:
Northwestern University - Evanston IL
International Classification:
A61K 31/455 C12Q 1/68
US Classification:
514355000, 435006000
Abstract:
The present invention relates to methods and compositions for modulating calcium channels. In particular, the present invention provides methods and compositions for modulating (e.g., disrupting) Cav1.3a calcium channels for research and therapeutic methods (e.g., treating dopaminergic diseases and conditions).
Methods And Compositions For Modulating Calcium Channels
D. James Surmeier - Chicago IL, US Michelle Day - Chicago IL, US Jun Ding - Evanston IL, US Savio Chan - Chicago IL, US Jamie Guzman - Wilmette IL, US Jeff Mercer - Chicago IL, US Tatiana Tkatch - Chicago IL, US Zhongfeng Wang - Evanston IL, US Ema Ilijic - Chicago IL, US
Assignee:
NORTHWESTERN UNIVERSITY - Evanston IL
International Classification:
A61K 31/4439
US Classification:
514338
Abstract:
The present invention relates to methods and compositions for modulating calcium channels. In particular, the present invention provides methods and compositions for modulating (e.g., disrupting) Cav1.3a calcium channels for research and therapeutic methods (e.g., treating dopaminergic diseases and conditions).
Methods And Compositions For Modulating Calcium Channels
D. James Surmeier - Chicago IL, US Michelle Day - Chicago IL, US Jun Ding - Chicago IL, US Savio Chan - Chicago IL, US Jamie Guzman - Wilmette IL, US Jeff Mercer - Chicago IL, US Tatiana Tkatch - Chicago IL, US Zhongfeng Wang - Evanston IL, US Ema Ilijic - Chicago IL, US
514 44 A, 514356, 514338, 514284, 514250, 514288, 514317, 514304
Abstract:
The present invention relates to methods and compositions for modulating calcium channels. In particular, the present invention provides methods and compositions for modulating (e.g., disrupting) Cav1.3a calcium channels for research and therapeutic methods (e.g., treating dopaminergic diseases and conditions).
Methods And Compositions For Modulating Calcium Channels
Michelle Day - Chicago IL, US Jun Ding - Chicago IL, US Savio Chan - Chicago IL, US Jamie Guzman - Wilmette IL, US Jeff Mercer - Chicago IL, US Tatiana Tkatch - Chicago IL, US Zhongfeng Wang - Evanston IL, US Ema Ilijic - Chicago IL, US
Assignee:
NORTHWESTERN UNIVERSITY - Evanston IL
International Classification:
A61K 31/4439 G01N 33/48 A61K 45/06
US Classification:
514250, 514338, 514284, 514288, 514304, 73 6143
Abstract:
The present invention relates to methods and compositions for modulating calcium channels. In particular, the present invention provides methods and compositions for modulating (e.g., disrupting) Cav1.3a calcium channels for research and therapeutic methods (e.g., treating dopaminergic diseases and conditions).
Methods And Compositions For Modulating Calcium Channels
- Evanston IL, US Michelle Day - Chicago IL, US Jun Ding - Chicago IL, US C. Savio Chan - Chicago IL, US Jaime Guzman - Wilmette IL, US Jeff Mercer - Chicago IL, US Tatiana Tkatch - Chicago IL, US Zhongfeng Wang - Evanston IL, US Ema Ilijic - Chicago IL, US
International Classification:
A61K 31/4439
Abstract:
The present invention relates to methods and compositions for modulating calcium channels. In particular, the present invention provides methods and compositions for modulating (e.g., disrupting) Cav1.3a calcium channels for research and therapeutic methods (e.g., treating dopaminergic diseases and conditions).
Methods And Compositions For Modulating Calcium Channels
- Evanston IL, US Michelle Day - Chicago IL, US Jun Ding - Chicago IL, US C. Savio Chan - Chicago IL, US Jaime Guzman - Wilmette IL, US Jeff Mercer - Chicago IL, US Tatiana Tkatch - Chicago IL, US Zhongfeng Wang - Evanston IL, US Ema Ilijic - Chicago IL, US
International Classification:
A61K 31/4439
Abstract:
The present invention relates to methods and compositions for modulating calcium channels. In particular, the present invention provides methods and compositions for modulating (e.g., disrupting) Cav1.3a calcium channels for research and therapeutic methods (e.g., treating dopaminergic diseases and conditions).