TL;DR
Ion channels are essential biological proteins that regulate ion flow across membranes, influencing vital processes like nerve signaling and muscle contraction, with recent research shedding light on their selectivity and control mechanisms.
Contribution
This paper reviews the structure and function of ion channels, highlighting their role as biological nanovalves and comparing their function to electronic transistors.
Findings
Ion channels control ion flow crucial for nerve signals.
Calcium ions act as universal cellular signals.
Ion channels exhibit selective permeability for different ions.
Abstract
Ion channels are proteins with holes down their middle that control the flow of ions and electric current across otherwise impermeable biological membranes. The flow of sodium, potassium, calcium (divalent), and chloride ions have been central issues in biology for more than a century. The flow of current is responsible for the signals of the nervous system that propagate over long distances (meters). The concentration of divalent calcium ions is a 'universal' signal that controls many different systems inside cells. The concentration of divalent calcium and other messenger ions has a role in life rather like the role of the voltage in different wires of a computer. Ion channels also help much larger solutes (e.g., organic acid and bases; perhaps polypeptides) to cross membranes but much less is known about these systems. Ion channels can select and control the movement of different…
Peer Reviews
No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.
Videos
No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.
Taxonomy
TopicsNanopore and Nanochannel Transport Studies · Advanced Chemical Sensor Technologies