High-resolution brain imaging can now capture not just synapse locations but their molecular composition, with the cost of such mapping falling exponentially. Yet such ultrastructural data has so far told us little about local neuronal physiology - specifically, the parameters (e.g., synaptic efficacies, local conductances) that govern neural dynamics. We propose to translate molecularly annotated ultrastructure into physiology, introducing the concept of an ultrastructure-to-dynamics compiler:
Compiling molecular ultrastructure into neural dynamics
Konrad P. Körding·Edward S. Boyden·Jordan Matelsky·Nina Khera·Sven Truckenbrodt·Brett D. Mensh·Adam Marblestone·Richie E. Kohman·David A. Markowitz·Davy Deng·Michał Januszewski·Jeantine E. Lunshof·Gal Haspel·Narayanan Kasthuri·Sean Escola·Joanne Peng·Joshua T. Vogelstein·Andrew Payne·Philip Shiu·Xaq Pitkow·Grace Lindsay·Anton Arkhipov·Seth G. N. Grant·Patrick Mineault·Gregor F. P. Schuhknecht