Item does not contain fulltextGastric H,K-ATPase has, in the absence of ATP and added ions, a preference for the E(2) conformation. Mutations in the cation-binding pocket often result in a preference for the E(1)-conformation. This can be paralleled by the occurrence of K(+)-independent ATPase activity. These two phenomena could be separated by combined mutagenesis of several residues in and around the cation-binding pocket. Models of the three-dimensional structure of H,K-ATPase visualize the relationship between the E(1)/E(2) preference and the structure
Gastric H1,K1-ATPase can be inhibited by imidazo pyridines like 2-methyl-8-[phenylmethoxy] imidazo-(...
AbstractMutagenesis of Glu820, present in the catalytic subunit of gastric H+,K+-ATPase, into an Asp...
AbstractFully active Na,K-ATPase and lethal mutations can be expressed in yeast cells in yields allo...
Homology modeling of gastric H,K-ATPase based on the E2 model of sarcoplasmic reticulum Ca2+-ATPase ...
Several mutations of residues Glu(795) and Glu(820) present in M5 and M6 of the catalytic subunit of...
Asn792 present in M5 of gastric H,K-ATPase is highly conserved within the P-type ATPase family. A di...
Comparative modeling studies on conserved regions of the gastric H+K+-ATPase reveal that the E1–E2 c...
Item does not contain fulltextSix double mutants of Glu(795) and Glu(820) present in transmembrane d...
The β-subunits of Na,K-ATPase and H,K-ATPase have important functions in maturation and plasma membr...
The gastric Hþ,Kþ-ATPase is an ATP-driven proton pump responsible for generating a million-fold prot...
ABSTRACT Gastric H,K-ATPase is an electroneutral transmembrane pump that moves protons from the cyto...
AbstractGastric H,K-ATPase is an electroneutral transmembrane pump that moves protons from the cytop...
Contains fulltext : 81222.pdf (publisher's version ) (Closed access)Based on studi...
P-type ATPases of the IIC subfamily exhibit large differences in sensitivity toward ouabain. This al...
Gastric H+/K+-ATPase is a P-type ATPase responsible for acid secretion in the stomach. This protein ...
Gastric H1,K1-ATPase can be inhibited by imidazo pyridines like 2-methyl-8-[phenylmethoxy] imidazo-(...
AbstractMutagenesis of Glu820, present in the catalytic subunit of gastric H+,K+-ATPase, into an Asp...
AbstractFully active Na,K-ATPase and lethal mutations can be expressed in yeast cells in yields allo...
Homology modeling of gastric H,K-ATPase based on the E2 model of sarcoplasmic reticulum Ca2+-ATPase ...
Several mutations of residues Glu(795) and Glu(820) present in M5 and M6 of the catalytic subunit of...
Asn792 present in M5 of gastric H,K-ATPase is highly conserved within the P-type ATPase family. A di...
Comparative modeling studies on conserved regions of the gastric H+K+-ATPase reveal that the E1–E2 c...
Item does not contain fulltextSix double mutants of Glu(795) and Glu(820) present in transmembrane d...
The β-subunits of Na,K-ATPase and H,K-ATPase have important functions in maturation and plasma membr...
The gastric Hþ,Kþ-ATPase is an ATP-driven proton pump responsible for generating a million-fold prot...
ABSTRACT Gastric H,K-ATPase is an electroneutral transmembrane pump that moves protons from the cyto...
AbstractGastric H,K-ATPase is an electroneutral transmembrane pump that moves protons from the cytop...
Contains fulltext : 81222.pdf (publisher's version ) (Closed access)Based on studi...
P-type ATPases of the IIC subfamily exhibit large differences in sensitivity toward ouabain. This al...
Gastric H+/K+-ATPase is a P-type ATPase responsible for acid secretion in the stomach. This protein ...
Gastric H1,K1-ATPase can be inhibited by imidazo pyridines like 2-methyl-8-[phenylmethoxy] imidazo-(...
AbstractMutagenesis of Glu820, present in the catalytic subunit of gastric H+,K+-ATPase, into an Asp...
AbstractFully active Na,K-ATPase and lethal mutations can be expressed in yeast cells in yields allo...
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