Add to ORKGI(Ks) channels contain four pore-forming KCNQ1 subunits and two accessory MinK subunits. MinK influences surface expression, voltage-dependence of gating, conduction, and pharmacology to yield the attributes characteristic of native channels in heart. The structure and location of the MinK transmembrane domain (TMD) remains a matter of scrutiny. As perturbation of gating analysis has correctly inferred the peripheral location and alpha-helical nature of TMDs in pore-forming subunits, the method is applied here to human MinK. Tryptophan and Asparagine substitution at 23 consecutive sites yields perturbation with alpha-helical periodicity (residues 44-56) followed by an alternating impact pattern (residues 56-63). Arginine substitution across...
KCNE genes encode single transmembrane-domain subunits, the MinK-related peptides (MiRPs), which ass...
IKs channels are voltage dependent and K+ selective. They influence cardiac action potential duratio...
MinK is a novel protein which induces an extremely slowly activating potassium channel when expresse...
I(Ks) channels contain four pore-forming KCNQ1 subunits and two accessory MinK subunits. MinK influe...
AbstractIKs channels contain four pore-forming KCNQ1 subunits and two accessory MinK subunits. MinK ...
The minK gene encodes a protein of 130 amino acids that has a single transmembrane segment and is ex...
Minimal potassium channel (minK) protein induces very slowly activating voltage-dependent K+ current...
Expression of minK protein in Xenopus oocytes induces a slowly activating, voltage-dependent, potass...
AbstractExpression of minK protein in Xenopus oocytes induces a slowly activating, voltage-dependent...
MinK is a transmembrane protein of 130 amino acids found in the kidney, heart, and vestibular system...
MinK has neither the P region nor signature sequence that characterizes pore-forming subunits of all...
AbstractMinK has neither the P region nor signature sequence that characterizes pore-forming subunit...
MinK is a small membrane protein of 130 amino acids with a single potential membrane-spanning alpha-...
AbstractIKs channels are heteromeric complexes of pore-forming KvLQT1 subunits and pore-associated M...
I(Ks) channels are heteromeric complexes of pore-forming KvLQT1 subunits and pore-associated MinK su...
KCNE genes encode single transmembrane-domain subunits, the MinK-related peptides (MiRPs), which ass...
IKs channels are voltage dependent and K+ selective. They influence cardiac action potential duratio...
MinK is a novel protein which induces an extremely slowly activating potassium channel when expresse...
I(Ks) channels contain four pore-forming KCNQ1 subunits and two accessory MinK subunits. MinK influe...
AbstractIKs channels contain four pore-forming KCNQ1 subunits and two accessory MinK subunits. MinK ...
The minK gene encodes a protein of 130 amino acids that has a single transmembrane segment and is ex...
Minimal potassium channel (minK) protein induces very slowly activating voltage-dependent K+ current...
Expression of minK protein in Xenopus oocytes induces a slowly activating, voltage-dependent, potass...
AbstractExpression of minK protein in Xenopus oocytes induces a slowly activating, voltage-dependent...
MinK is a transmembrane protein of 130 amino acids found in the kidney, heart, and vestibular system...
MinK has neither the P region nor signature sequence that characterizes pore-forming subunits of all...
AbstractMinK has neither the P region nor signature sequence that characterizes pore-forming subunit...
MinK is a small membrane protein of 130 amino acids with a single potential membrane-spanning alpha-...
AbstractIKs channels are heteromeric complexes of pore-forming KvLQT1 subunits and pore-associated M...
I(Ks) channels are heteromeric complexes of pore-forming KvLQT1 subunits and pore-associated MinK su...
KCNE genes encode single transmembrane-domain subunits, the MinK-related peptides (MiRPs), which ass...
IKs channels are voltage dependent and K+ selective. They influence cardiac action potential duratio...
MinK is a novel protein which induces an extremely slowly activating potassium channel when expresse...