https://wiki.devclub.in/index.php?action=history&feed=atom&title=SBL723SBL723 - Revision history2026-04-09T07:47:45ZRevision history for this page on the wikiMediaWiki 1.45.1https://wiki.devclub.in/index.php?title=SBL723&diff=2303&oldid=prevPrashantt492: Creating course page via bot2026-03-04T10:23:45Z<p>Creating course page via bot</p>
<p><b>New page</b></p><div>{{Infobox Course<br />
| code = SBL723<br />
| name = principles of Neural Excitability and Communication<br />
| credits = 3<br />
| credit_structure = 3-0-0<br />
| pre_requisites = <br />
| overlaps = <br />
}}<br />
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== SBL723 : principles of Neural Excitability and Communication ==<br />
Courses of Study 2024-2025 Biological Sciences 353Pre-requisite(s): EC 75 and SBL 100/BBL 131/CML101/ Equivalent Neural physiology overview; Elements of excitable cell membrane: ion channels, transporters and cytoskeletal elements; Physical principles of neuronal excitability: Diffusion, Electro-diffusion, Nernst-Plank Equation, Donnan equilibrium, Goldman-Hodgkin-Katz equation; Concept of Resting membrane potential (RMP), maintenance of RMP-Pumps and transporters; Exemplar pump: Na+-K+ ATPase-structure and function; Pores in the membrane: Ion channels; Hodgkin-Huxley model for Na+ and K+ channels; Action potentials; Ion channel structure, function & modulation; Synaptic transmission: vesicle transport and recycling, neurotransmitter release; Neurotransmitter-receptor structure-function; Methods to study ion channels and receptors: Patch-Clamp, planar-bilayer, crystallography and Cryo-EM studies; Action potential generation and conduction: Mechanism and models; Simulation of neural activity</div>Prashantt492