Add to ORKGThe minK gene encodes a protein of 130 amino acids that has a single transmembrane segment and is expressed in many tissues including heart, uterus, and kidney. When Xenopus oocytes are injected with minK mRNA, a very slowly activating voltage-dependent potassium current is induced in these cells. The induced channels appear to result from the interaction of the minK protein with other channel-forming subunits such as the KvLQT1 channel. The minK protein is intimately associated with the structure of the resultant channels, and mutations in minK can alter ion selectivity and modulation by second messengers. Strong candidates for native currents regulated by the minK protein include the slow component of the cardiac delayed rectifier and pot...
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 ...
Once again, a MinK-related peptide (MiRP) hasbeen implicated in allowing a pore-forming,voltage-gate...
MinK is a novel protein which induces an extremely slowly activating potassium channel when expresse...
AbstractExpression of minK protein in Xenopus oocytes induces a slowly activating, voltage-dependent...
Expression of minK protein in Xenopus oocytes induces a slowly activating, voltage-dependent, potass...
The minK protein induces a slowly activating voltage-dependent potassium current when expressed in X...
The minK protein induces a slowly activating voltage-dependent potassium current when expressed in X...
MinK is a transmembrane protein of 130 amino acids found in the kidney, heart, and vestibular system...
Minimal potassium channel (minK) protein induces very slowly activating voltage-dependent K+ current...
MinK is a small membrane protein of 130 amino acids with a single potential membrane-spanning alpha-...
MinK is a widely expressed protein of relative molecular mass approximately 15K that forms potassium...
IKs channels are voltage dependent and K+ selective. They influence cardiac action potential duratio...
When expressed in the Xenopus oocyte, the minK protein induces a slowly activating voltage-dependent...
When expressed in the Xenopus oocyte, the minK protein induces a slowly activating voltage-dependent...
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 ...
Once again, a MinK-related peptide (MiRP) hasbeen implicated in allowing a pore-forming,voltage-gate...
MinK is a novel protein which induces an extremely slowly activating potassium channel when expresse...
AbstractExpression of minK protein in Xenopus oocytes induces a slowly activating, voltage-dependent...
Expression of minK protein in Xenopus oocytes induces a slowly activating, voltage-dependent, potass...
The minK protein induces a slowly activating voltage-dependent potassium current when expressed in X...
The minK protein induces a slowly activating voltage-dependent potassium current when expressed in X...
MinK is a transmembrane protein of 130 amino acids found in the kidney, heart, and vestibular system...
Minimal potassium channel (minK) protein induces very slowly activating voltage-dependent K+ current...
MinK is a small membrane protein of 130 amino acids with a single potential membrane-spanning alpha-...
MinK is a widely expressed protein of relative molecular mass approximately 15K that forms potassium...
IKs channels are voltage dependent and K+ selective. They influence cardiac action potential duratio...
When expressed in the Xenopus oocyte, the minK protein induces a slowly activating voltage-dependent...
When expressed in the Xenopus oocyte, the minK protein induces a slowly activating voltage-dependent...
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 ...
Once again, a MinK-related peptide (MiRP) hasbeen implicated in allowing a pore-forming,voltage-gate...