Name: | Mia Von Scheven |
---|---|
Affiliation: | The University of Edinburgh |
E-mail: | only provided to users who are logged into UoE seminar site |
Last login: | 2016-08-24 14:44:40 |
Public lists managed by Mia Von Scheven
Talks given by Mia Von Scheven that are known to this site:
NO TALKS FOUND
Talks organised by Mia Von Scheven:
This list is based on what was entered into the 'organiser' field in a talk. It may not mean that Mia Von Scheven actually organised the talk, they may have been responsible only for entering the talk into the University Seminar Site system.
- How do carbohydrates instruct brain development?
- Imaging and manipulating pituitary function
- Synaptic integration in circuits controlling mouse instinctive behaviours
- Gli3 – a colossal gene for callosal development
- The role of grid cells in navigation and memory
- Emerging functions for chromatin remodelling factors in brain development and autism
- Title tbc 4/3/16
- Title tbc 4/3/16a
- Title tbc 11/3/16
- Title tbc 18/3/16
- Title tbc 1/4/16
- Title tbc 15/4/16
- Title tbc 4/3/16b
- Title tbc 11/3/16b
- Title tbc 11/3/16a
- Reconstruction of synaptic vesicles: What happens when it goes right and when it goes wrong
- Dendritic and pre-synaptic HCN channels: function, trafficking and plasticity
- Title tbc 1/4/16b
- Title tbc 1/4/16a
- Antennal ears in flies: Delicate sensors and powerful tools of sensory biology
- GFP - Lighting up Life
- Amoebae - the original eukaryotes
- Maps to make you move: the organisation of a motor system as revealed by EM and electrophysiology
- Fast and slow inhibition in hippocampal networks
- Strategies to preserve the primordial follicle reserve in the ovary
- Patterning of the cerebral cortex
- title tbc 16/9/16
- Mary Pickford Lecture
- Title tbc 30/9/16
Talks created by Mia Von Scheven:
- How do carbohydrates instruct brain development?
- Imaging and manipulating pituitary function
- Synaptic integration in circuits controlling mouse instinctive behaviours
- Gli3 – a colossal gene for callosal development
- The role of grid cells in navigation and memory
- Emerging functions for chromatin remodelling factors in brain development and autism
- Title tbc 4/3/16
- Title tbc 4/3/16a
- Title tbc 11/3/16
- Title tbc 18/3/16
- Title tbc 1/4/16
- Title tbc 15/4/16
- Title tbc 4/3/16b
- Title tbc 11/3/16b
- Title tbc 11/3/16a
- Reconstruction of synaptic vesicles: What happens when it goes right and when it goes wrong
- Dendritic and pre-synaptic HCN channels: function, trafficking and plasticity
- Title tbc 1/4/16b
- Title tbc 1/4/16a
- Antennal ears in flies: Delicate sensors and powerful tools of sensory biology
- GFP - Lighting up Life
- Amoebae - the original eukaryotes
- Maps to make you move: the organisation of a motor system as revealed by EM and electrophysiology
- Fast and slow inhibition in hippocampal networks
- Strategies to preserve the primordial follicle reserve in the ovary
- Patterning of the cerebral cortex
- title tbc 16/9/16
- Mary Pickford Lecture
- Title tbc 30/9/16