Add to ORKGVoltage sensing is due mainly to the movement of positively charged S4 segments through the membrane electric field during changes of membrane potential. The roles of other transmembrane segments are under study. The S3 segment of domain 4 (D4/S3) in the sodium channel Na(v)1.4 carries two negatively charged residues and has been implicated in voltage-dependent gating. We substituted cysteines into nine putative "high impact" sites along the complete length of D4/S3 and evaluated their accessibilities to extracellular sulfhydryl reagents. Only the four outermost substituted cysteines (L1433C, L1431C, G1430C, and S1427C) are accessible to extracellular sulfhydryl reagents. We measured the voltage-dependent modification rates of the two cyste...
AbstractThe role of hydrophobic residues in voltage sensors S4 of voltage-sensitive ion channels is ...
Voltage-gated sodium channels play a crucial role in the upstroke of action potentials in electrical...
AbstractThe voltage sensor is a four-transmembrane helix bundle (S1–S4) that couples changes in memb...
Voltage sensing is due mainly to the movement of positively charged S4 segments through the membrane...
Voltage sensing is due mainly to the movement of positively charged S4 segments through the membrane...
AbstractThe mutation R1448C substitutes a cysteine for the outermost arginine in the fourth transmem...
The second and third basic residues of the S4 segment of domain 4 (D4:R2 and D4:R3) of the human ske...
The second and third basic residues of the S4 segment of domain 4 (D4:R2 and D4:R3) of the human ske...
AbstractVoltage-dependent movement of a sodium channel S4 segment was examined by cysteine scanning ...
AbstractVoltage-dependent movement of a sodium channel S4 segment was examined by cysteine scanning ...
The fourth segment of domain 4 (S4/D4) in Na+ channels is a voltage sensor especially implicated in ...
AbstractThe mutation R1448C substitutes a cysteine for the outermost arginine in the fourth transmem...
The role of hydrophobic residues in voltage sensors S4 of voltage-sensitive ion channels is less doc...
The role of hydrophobic residues in voltage sensors S4 of voltage-sensitive ion channels is less doc...
Voltage-gated sodium channels play a crucial role in the upstroke of action potentials in electrical...
AbstractThe role of hydrophobic residues in voltage sensors S4 of voltage-sensitive ion channels is ...
Voltage-gated sodium channels play a crucial role in the upstroke of action potentials in electrical...
AbstractThe voltage sensor is a four-transmembrane helix bundle (S1–S4) that couples changes in memb...
Voltage sensing is due mainly to the movement of positively charged S4 segments through the membrane...
Voltage sensing is due mainly to the movement of positively charged S4 segments through the membrane...
AbstractThe mutation R1448C substitutes a cysteine for the outermost arginine in the fourth transmem...
The second and third basic residues of the S4 segment of domain 4 (D4:R2 and D4:R3) of the human ske...
The second and third basic residues of the S4 segment of domain 4 (D4:R2 and D4:R3) of the human ske...
AbstractVoltage-dependent movement of a sodium channel S4 segment was examined by cysteine scanning ...
AbstractVoltage-dependent movement of a sodium channel S4 segment was examined by cysteine scanning ...
The fourth segment of domain 4 (S4/D4) in Na+ channels is a voltage sensor especially implicated in ...
AbstractThe mutation R1448C substitutes a cysteine for the outermost arginine in the fourth transmem...
The role of hydrophobic residues in voltage sensors S4 of voltage-sensitive ion channels is less doc...
The role of hydrophobic residues in voltage sensors S4 of voltage-sensitive ion channels is less doc...
Voltage-gated sodium channels play a crucial role in the upstroke of action potentials in electrical...
AbstractThe role of hydrophobic residues in voltage sensors S4 of voltage-sensitive ion channels is ...
Voltage-gated sodium channels play a crucial role in the upstroke of action potentials in electrical...
AbstractThe voltage sensor is a four-transmembrane helix bundle (S1–S4) that couples changes in memb...