PDB 5gpj citation summary ‹ Protein Data Bank in Europe (PDBe)

The Function of Membrane Integral Pyrophosphatases From Whole Organism to Single Molecule. Holmes AOM, Kalli AC, Goldman A. Front Mol Biosci 6 132 (2019)
The Mechanism of Energy Coupling in H⁺/Na⁺-Pumping Membrane Pyrophosphatase-Possibilities and Probabilities. Baykov AA, Anashkin VA, Malinen AM, Bogachev AV. Int J Mol Sci 23 9504 (2022)

Membrane pyrophosphatases from Thermotoga maritima and Vigna radiata suggest a conserved coupling mechanism. Li KM, Wilkinson C, Kellosalo J, Tsai JY, Kajander T, Jeuken LJ, Sun YJ, Goldman A. Nat Commun 7 13596 (2016)
Insights into the mechanism of membrane pyrophosphatases by combining experiment and computer simulation. Shah NR, Wilkinson C, Harborne SP, Turku A, Li KM, Sun YJ, Harris S, Goldman A. Struct Dyn 4 032105 (2017)
mPPases create a conserved anionic membrane fingerprint as identified via multi-scale simulations. Holmes AOM, Goldman A, Kalli AC. PLoS Comput Biol 18 e1010578 (2022)
Functional and structural asymmetry suggest a unifying principle for catalysis in membrane-bound pyrophosphatases. Strauss J, Wilkinson C, Vidilaseris K, de Castro Ribeiro OM, Liu J, Hillier J, Wichert M, Malinen AM, Gehl B, Jeuken LJ, Pearson AR, Goldman A. EMBO Rep 25 853-875 (2024)

Biochemical, Structural and Physiological Characteristics of Vacuolar H+-Pyrophosphatase. Segami S, Asaoka M, Kinoshita S, Fukuda M, Nakanishi Y, Maeshima M. Plant Cell Physiol 59 1300-1308 (2018)
On the beneficent thickness of water. Branscomb E, Russell MJ. Interface Focus 9 20190061 (2019)
Spark of Life: Role of Electrotrophy in the Emergence of Life. Pillot G, Santiago Ó, Kerzenmacher S, Liebgott PP. Life (Basel) 13 356 (2023)
The inorganic pyrophosphatases of microorganisms: a structural and functional review. García-Contreras R, de la Mora J, Mora-Montes HM, Martínez-Álvarez JA, Vicente-Gómez M, Padilla-Vaca F, Vargas-Maya NI, Franco B. PeerJ 12 e17496 (2024)

The flip side of the Arabidopsis type I proton-pumping pyrophosphatase (AVP1): Using a transmembrane H⁺ gradient to synthesize pyrophosphate. Scholz-Starke J, Primo C, Yang J, Kandel R, Gaxiola RA, Hirschi KD. J Biol Chem 294 1290-1299 (2019)
Asymmetry in catalysis by Thermotoga maritima membrane-bound pyrophosphatase demonstrated by a nonphosphorus allosteric inhibitor. Vidilaseris K, Kiriazis A, Turku A, Khattab A, Johansson NG, Leino TO, Kiuru PS, Boije Af Gennäs G, Meri S, Yli-Kauhaluoma J, Xhaard H, Goldman A. Sci Adv 5 eaav7574 (2019)
Role of the potassium/lysine cationic center in catalysis and functional asymmetry in membrane-bound pyrophosphatases. Artukka E, Luoto HH, Baykov AA, Lahti R, Malinen AM. Biochem J 475 1141-1158 (2018)
Energy Coupling in Cation-Pumping Pyrophosphatase-Back to Mitchell. Baykov AA. Front Plant Sci 11 107 (2020)
Functional Characterization of SLC Transporters Using Solid Supported Membranes. Bazzone A, Barthmes M. Methods Mol Biol 2168 73-103 (2020)
Catalytic Asymmetry in Homodimeric H⁺-Pumping Membrane Pyrophosphatase Demonstrated by Non-Hydrolyzable Pyrophosphate Analogs. Anashkin VA, Malinen AM, Bogachev AV, Baykov AA. Int J Mol Sci 22 9820 (2021)
A self-sustaining serpentinization mega-engine feeds the fougerite nanoengines implicated in the emergence of guided metabolism. Russell MJ. Front Microbiol 14 1145915 (2023)
Discovery of Membrane-Bound Pyrophosphatase Inhibitors Derived from an Isoxazole Fragment. Johansson NG, Turku A, Vidilaseris K, Dreano L, Khattab A, Ayuso Pérez D, Wilkinson A, Zhang Y, Tamminen M, Grazhdankin E, Kiriazis A, Fishwick CWG, Meri S, Yli-Kauhaluoma J, Goldman A, Boije Af Gennäs G, Xhaard H. ACS Med Chem Lett 11 605-610 (2020)
Pre-steady-state kinetics and solvent isotope effects support the "billiard-type" transport mechanism in Na⁺ -translocating pyrophosphatase. Malinen AM, Anashkin VA, Orlov VN, Bogachev AV, Lahti R, Baykov AA. Protein Sci 31 e4394 (2022)
A Lumenal Loop Associated with Catalytic Asymmetry in Plant Vacuolar H⁺-Translocating Pyrophosphatase. Anashkin VA, Baykov AA. Int J Mol Sci 22 12902 (2021)
The H⁺-Translocating Inorganic Pyrophosphatase From Arabidopsis thaliana Is More Sensitive to Sodium Than Its Na⁺-Translocating Counterpart From Methanosarcina mazei. Pérez-Castiñeira JR, Serrano A. Front Plant Sci 11 1240 (2020)
Exploration of Pyrazolo[1,5-a]pyrimidines as Membrane-Bound Pyrophosphatase Inhibitors. Johansson NG, Dreano L, Vidilaseris K, Khattab A, Liu J, Lasbleiz A, Ribeiro O, Kiriazis A, Boije Af Gennäs G, Meri S, Goldman A, Yli-Kauhaluoma J, Xhaard H. ChemMedChem 16 3360-3367 (2021)
Molecular characterization and transcriptional regulation of two types of H⁺-pyrophosphatases in the scuticociliate parasite Philasterides dicentrarchi. Folgueira I, Lamas J, Sueiro RA, Leiro JM. Sci Rep 11 8519 (2021)
Exploration of the Catalytic Cycle Dynamics of Vigna Radiata H⁺-Translocating Pyrophosphatases Through Hydrogen-Deuterium Exchange Mass Spectrometry. Huang LK, Huang YC, Chen PC, Lee CH, Lin SM, Hsu YH, Pan RL. J Membr Biol 256 443-458 (2023)
Yeast as a tool for membrane protein production and structure determination. Carlesso A, Delgado R, Ruiz Isant O, Uwangue O, Valli D, Bill RM, Hedfalk K. FEMS Yeast Res 22 foac047 (2022)

Protein Data Bank in Europe

Membrane pyrophosphatases from Thermotoga maritima and Vigna radiata suggest a conserved coupling mechanism.

Abstract

Reviews - 5gpj mentioned but not cited (2)

Articles - 5gpj mentioned but not cited (4)

Reviews citing this publication (4)

Articles citing this publication (15)

Quick links

5gpj › Citations

Membrane pyrophosphatases from Thermotoga maritima and Vigna radiata suggest a conserved coupling mechanism.

Abstract

Reviews - 5gpj mentioned but not cited (2)

Articles - 5gpj mentioned but not cited (4)

Reviews citing this publication (4)

Articles citing this publication (15)

Quick links