Functional Consequences of a Posttransfection Mutation in the H2-H3 Cytoplasmic Loop of the alpha Subunit of Na,K-ATPase
Stewart Daly
Journal of Biological Chemistry, 1997
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Mutagenesis disrupts posttranslational processing of the Na, K-ATPase catalytic subunit
Deborah Carr
Archives of biochemistry …, 1998
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Functional Consequences of Various Leucine Mutations in the M3/M4 Loop of the Na+,K+-ATPase α-Subunit
yukichi hara
Journal of Membrane Biology, 2008
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The Fourth Transmembrane Segment of the Na,K-ATPase ␣ Subunit A SYSTEMATIC MUTAGENESIS STUDY* Received for publication
Saida Guennoun Lehmann
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Specific Sites in the Cytoplasmic N Terminus Modulate Conformational Transitions of the Na,K-ATPase
Laura Segall
Journal of Biological Chemistry, 2007
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The M4M5 Cytoplasmic Loop of the Na,K-ATPase, Overexpressed in Escherichia coli, Binds Nucleoside Triphosphates with the Same Selectivity as the Intact Native Protein
Jack Kaplan
Journal of Biological Chemistry, 1998
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Eight Amino Acids Form the ATP Recognition Site of Na + /K + -ATPase †
Vladimír Kopecký
Biochemistry, 2003
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Site-Directed Mutagenesis of Cation Coordinating Residues in the Gastric H,K-ATPase
E. Skripnikova
Archives of Biochemistry and Biophysics, 2001
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Stabilization of the 2 Isoform of Na,K-ATPase by Mutations in a Phospholipid Binding Pocket
Micha Ilan
Journal of Biological Chemistry, 2011
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Catalytic Phosphorylation of Na,K-ATPase Drives the Outward Movement of Its Cation-Binding H5−H6 Hairpin
ATIN MANDAL
Biochemistry, 2002
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Functional Significance of E2 State Stabilization by Specific α/β-Subunit Interactions of Na,K- and H,K-ATPase
Katharina Duerr
Journal of Biological Chemistry, 2008
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Comparison of the enzymic properties of the Na,K-ATPase .alpha.3.beta.1 and .alpha.3.beta.2 isoenzymes
Gustavo Eduardo Blanco
Biochemistry, 1995
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Nucleotide Binding to Na,K-ATPase: p K Values of the Groups Affecting the High Affinity Site †
Natalya Fedosova
Biochemistry, 2007
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Mutational analysis of yeast vacuolar H(+)-ATPase
Carmen Beltrán
Proceedings of the National Academy of Sciences, 1991
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Functional investigation of an universally conserved leucine residue in subunit a of ATP synthase targeted by the pathogenic m.9176 T>G mutation
Alain Dautant
Biochim Biophys Acta Bioenerg, 2019
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The glycine-rich sequence of the beta subunit of Escherichia coli H(+)-ATPase is important for activity
Masamitsu Futai
Journal of Biological Chemistry, 1990
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Neutralization of the Charge on Asp369 of Na+,K+-ATPase Triggers E1 E2 Conformational Changes
Haim Haviv
Journal of Biological Chemistry, 2009
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Effects of Various Amino Acid 256 Mutations on Sarcoplasmic/Endoplasmic Reticulum Ca 2+ATPase Function and Their Role in the Cellular Adaptive Response to Thapsigargin
arif hussain
Archives of Biochemistry and Biophysics, 1999
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Structure/Function Analysis of the Amino-terminal Region of the alpha 1 and alpha 2 Subunits of Na,K-ATPase
Stewart Daly
Journal of Biological Chemistry, 1996
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Subunit Interactions in the Na,K-ATPase Explored with the Yeast Two-hybrid System
Long Nguyen Huynh
Journal of Biological Chemistry, 1997
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Catalysis and energy coupling of H+-ATPase (ATP synthase): Molecular biological approaches
Masamitsu Futai
Biochimica et Biophysica Acta (BBA) - Bioenergetics, 1994
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Introduction of reactive cysteine residues in the .epsilon. subunit of Escherichia coli F1 ATPase, modification of these sites with (azidotetrafluorophenyl)maleimides, and examination of changes in the binding of the .epsilon. subunit when different nucleotides are in catalytic sites
Sui Cai
Biochemistry, 1992
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Residues within Transmembrane Domains 4 and 6 of the Na,K-ATPase α Subunit Are Important for Na + Selectivity †
GLADIS GIL SANCHEZ
Biochemistry, 2004
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Structural Basis for α1 Versus α2 Isoform-distinct Behavior of the Na,K-ATPase
Laura Segall
Journal of Biological Chemistry, 2003
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Directed mutagenesis of the strongly conserved lysine 175 in the proposed nucleotide-binding domain of alpha-subunit from Escherichia coli F1-ATPase.
Rajini Rao
Journal of Biological Chemistry, 1988
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Asssembly of the chimeric Na+K+-ATPase and H+K+-ATPase β-subunit with the Na+K+-ATPase α-subunit
Masamitsu Futai
Biochimica et Biophysica Acta (BBA) - Biomembranes, 1997
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Shift to the Na+ from of Na+/K+-transporting ATPase due to modification of the low-affinity ATP-binding site by Co(NH3)4ATP
Georgios Scheiner-bobis
European Journal of Biochemistry, 1989
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ATP-analogues as a tool for study of NaK-ATPase
Beatrice M A I E R Anner
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The nucleotide-binding domain of the Zn2+-transporting P-type ATPase from Escherichia coli carries a glycine motif that may be involved in binding of ATP
Tuomas Haltia
Biochemical Journal, 2004
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Involvement in K+ access of Leu318 at the extracellular domain flanking M3 and M4 of the Na+,K+-ATPase α-subunit
Kazuo Takeda
Biochemical and Biophysical Research Communications, 2005
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Mutational Analysis of - Subunit Interactions in the Delivery of Na,K-ATPase Heterodimers to the Plasma Membrane
Jack Kaplan
Journal of Biological Chemistry, 2003
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Residues interacting with serine-174 and alanine-295 in the β-subunit of Escherichia coli H+ATP synthase: Possible ternary structure of the center region of the subunit
Yuri Ishihara
Biochimica Et Biophysica Acta-bioenergetics, 1994
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Specificity of nucleotide binding and coupled reactions utilising the mitochondrial ATPase
George Radda
Biochimica et Biophysica Acta (BBA) - Bioenergetics, 1978
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Mutagenesis of conserved residues in the phosphorylation domain of the yeast plasma membrane H (+)-ATPase. Effects on structure and function.
Rajini Rao
Journal of Biological Chemistry, 1993
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