Decoding the Electromechanical Secrets of Sperm's Voltage-Gated Transporters
TL;DR Summary
Researchers have determined the structures of a sperm-specific solute carrier, SLC9C1, which plays a crucial role in male fertility. SLC9C1 is unique in its domain composition, containing a transport domain, voltage-sensing domain, and cyclic-nucleotide binding domain. The study provides insights into the overall architecture of SLC9C1 and reveals how the three functional domains are coupled. The findings shed light on the mechanisms by which membrane voltage activates ion exchange in a secondary-active transporter.
Topics:health#cyclic-nucleotides#membrane-transporters#science-and-technology#solute-carriers#sperm-specific-solute-carrier#voltage-gated-ion-channels
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- Sperm's secret voltage switch: Scientists unlock the mystery of motility Phys.org
- Structure and electromechanical coupling of a voltage-gated Na+/H+ exchanger Nature.com
- An ion transporter in sperm that has features of a channel Nature.com
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