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Category:Adenosine triphosphatases

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ATPasa; ATPasa; ATPase; ATPasen; ATPase; ای‌تی‌پی‌ایز; ATP酶; ATPază; ATPアーゼ; Adenozíntrifosfatáza; аденозинтрифосфатази; ATPasis; Adenosiinitrifosfataasi; ATPase; ATPáza; Adenozintrifosfataza; ATPasi; ATPase; ATPaasid; ATPase; ATPase; ATP가수분해효소; Adenozintrifosfataza; ATPaza; adenozintriosfatazo; ATPase; Аденозинтрифосфатазы; ATPase; ATPazy; ATP-ase; ATPase; Adenozintrifosfataza; ATPase; ATPazė; Аденозинтрифосфатаза; ATPase; إنزيم الأدينوسين ثلاثي الفوسفات; ადენოზინტრიფოსფატაზები; ATPasa; enzima; protéine; Proteine, Enzyme; 가수분해효소의 종류; class of enzymes; klasa enzymów; клас ферментів; proteinë; Atpasa; ATPases; АТФаза; Аденозинтрифосфатаза; АТФ-азы; АТФ-аза; АТФазы; ATPase; Atpase; ای تی پی ایز; 三磷酸腺苷酶; 跨膜ATP酶; ATFazė; アデノシン三リン酸フォスファターゼ; ATPase; adenosintrifosfatase; АТФ-аза; АТФ-ази; АТФази; АТФаза; аденозинтрифосфатаза; ATP-synthetase; ATP-asi; ATPaasi; ATPases; Transmembrane ATPase; Atpase; Proton-translocating atpases; Adenosinetriphosphatase; Adenosine triphosphatase; ATP phosphohydrolase; ATP monophosphatase; ATP hydrolase; adenosine 5'-triphosphatase; adenosine triphosphatases; ATPazo; Adenosin trifosfatáza; ATPasa; Adenosintrifosfatáza; ATP-áza; Adenosin trifosfátáza; أتباز; انزيم ادينوسين ثلاثي الفوسفات

ATPase 

class of enzymes
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Instance of	group or class of enzymes group or class of proteins
Subclass of	acid anhydride hydrolases hydrolase nucleoside-triphosphatase
Authority file  Q300033 NDL Authority ID: 00575924 Reasonator Scholia Wikidocumentaries PetScan statistics WikiMap Locator tool KML file Search depicted

Category:Adenosine triphosphate Category:Nucleoside triphosphate hydrolases

Pages in category "Category:Adenosine triphosphatases"

• Category:Mitochondrial proton-translocating ATPases
• Category:SMC proteins
• Category:Sodium-potassium-exchanging ATPase
• Category:Vacuolar proton-translocating ATPases
• File:Adenylyl.jpg
• File:An-Essential-Role-for-Katanin-p80-and-Microtubule-Severing-in-Male-Gamete-Production-pgen.1002698.s006.ogv
• File:An-Essential-Role-for-Katanin-p80-and-Microtubule-Severing-in-Male-Gamete-Production-pgen.1002698.s007.ogv
• File:An-Essential-Role-for-Katanin-p80-and-Microtubule-Severing-in-Male-Gamete-Production-pgen.1002698.s008.ogv
• File:An-Essential-Role-for-Katanin-p80-and-Microtubule-Severing-in-Male-Gamete-Production-pgen.1002698.s009.ogv
• File:Atp i la rotenona.jpg
• File:ATPase cycle.png
• File:BiP’s Structure and ATPase Cycle.png
• File:Clamp-loader-ATPases-and-the-evolution-of-DNA-replication-machinery-1741-7007-10-34-S1.ogv
• File:Clamp-loader-ATPases-and-the-evolution-of-DNA-replication-machinery-1741-7007-10-34-S2.ogv
• File:Clamp-loader-ATPases-and-the-evolution-of-DNA-replication-machinery-1741-7007-10-34-S3.ogv
• File:Clathrin-Independent-Entry-of-Baculovirus-Triggers-Uptake-of-E.-coli-in-Non-Phagocytic-Human-Cells-pone.0005093.s006.ogv
• File:Copper-Transport-Protein-Antioxidant-1-Promotes-Inflammatory-Neovascularization-via-Chaperone-and-srep14780-s2.ogv
• File:Copper-Transport-Protein-Antioxidant-1-Promotes-Inflammatory-Neovascularization-via-Chaperone-and-srep14780-s3.ogv
• File:Copper-Transport-Protein-Antioxidant-1-Promotes-Inflammatory-Neovascularization-via-Chaperone-and-srep14780-s4.ogv
• File:Copper-Transport-Protein-Antioxidant-1-Promotes-Inflammatory-Neovascularization-via-Chaperone-and-srep14780-s5.ogv
• File:Coupling-of-Two-Non-processive-Myosin-5c-Dimers-Enables-Processive-Stepping-along-Actin-Filaments-srep04907-s2.ogv
• File:Coupling-of-Two-Non-processive-Myosin-5c-Dimers-Enables-Processive-Stepping-along-Actin-Filaments-srep04907-s3.ogv
• File:Coupling-of-Two-Non-processive-Myosin-5c-Dimers-Enables-Processive-Stepping-along-Actin-Filaments-srep04907-s4.ogv
• File:Coupling-of-Two-Non-processive-Myosin-5c-Dimers-Enables-Processive-Stepping-along-Actin-Filaments-srep04907-s5.ogv
• File:DHC ADP.webm
• File:Drosophila-Spastin-Regulates-Synaptic-Microtubule-Networks-and-Is-Required-for-Normal-Motor-Function-pbio.0020429.sv001.ogv
• File:Estructura de la P4-ATPasa.png
• File:Estructura P4-ATPasa.png
• File:Estrutura ATP13A2.jpg
• File:Flexibility-within-the-Rotor-and-Stators-of-the-Vacuolar-H+-ATPase-pone.0082207.s003.ogv
• File:Flexibility-within-the-Rotor-and-Stators-of-the-Vacuolar-H+-ATPase-pone.0082207.s004.ogv
• File:Flexibility-within-the-Rotor-and-Stators-of-the-Vacuolar-H+-ATPase-pone.0082207.s005.ogv
• File:Flexibility-within-the-Rotor-and-Stators-of-the-Vacuolar-H+-ATPase-pone.0082207.s006.ogv
• File:Flexibility-within-the-Rotor-and-Stators-of-the-Vacuolar-H+-ATPase-pone.0082207.s007.ogv
• File:Flexibility-within-the-Rotor-and-Stators-of-the-Vacuolar-H+-ATPase-pone.0082207.s008.ogv
• File:Flexibility-within-the-Rotor-and-Stators-of-the-Vacuolar-H+-ATPase-pone.0082207.s009.ogv
• File:Flexibility-within-the-Rotor-and-Stators-of-the-Vacuolar-H+-ATPase-pone.0082207.s010.ogv
• File:Flexibility-within-the-Rotor-and-Stators-of-the-Vacuolar-H+-ATPase-pone.0082207.s011.ogv
• File:Flexibility-within-the-Rotor-and-Stators-of-the-Vacuolar-H+-ATPase-pone.0082207.s012.ogv
• File:Fo subunit of ATPase C1. Picture Created in PyMol.png
• File:Fusion-of-Protein-Aggregates-Facilitates-Asymmetric-Damage-Segregation-pbio.1001886.s005.ogv
• File:Fusion-of-Protein-Aggregates-Facilitates-Asymmetric-Damage-Segregation-pbio.1001886.s006.ogv
• File:Gastric hydrogen potassium ATPase mechanism.svg
• File:Mecanismes tranport atpasa.png
• File:Mecanismes tranport flipasa.png
• File:Molecular-snapshots-of-the-Pex16-AAA+-complex-in-action-ncomms8331-s2.ogv
• File:Noise-Induced-Min-Phenotypes-in-E.-coli-pcbi.0020080.sv001.ogv
• File:Noise-Induced-Min-Phenotypes-in-E.-coli-pcbi.0020080.sv002.ogv
• File:Noise-Induced-Min-Phenotypes-in-E.-coli-pcbi.0020080.sv003.ogv
• File:Noise-Induced-Min-Phenotypes-in-E.-coli-pcbi.0020080.sv004.ogv
• File:Noise-Induced-Min-Phenotypes-in-E.-coli-pcbi.0020080.sv005.ogv
• File:Noise-Induced-Min-Phenotypes-in-E.-coli-pcbi.0020080.sv006.ogv
• File:Noise-Induced-Min-Phenotypes-in-E.-coli-pcbi.0020080.sv007.ogv
• File:Noise-Induced-Min-Phenotypes-in-E.-coli-pcbi.0020080.sv008.ogv
• File:Noise-Induced-Min-Phenotypes-in-E.-coli-pcbi.0020080.sv009.ogv
• File:Non-SMC-condensin-I-complex-proteins-control-chromosome-segregation-and-survival-of-proliferating-1471-213X-9-40-S3.ogv
• File:Non-SMC-condensin-I-complex-proteins-control-chromosome-segregation-and-survival-of-proliferating-1471-213X-9-40-S4.ogv
• File:Non-SMC-condensin-I-complex-proteins-control-chromosome-segregation-and-survival-of-proliferating-1471-213X-9-40-S5.ogv
• File:Non-SMC-condensin-I-complex-proteins-control-chromosome-segregation-and-survival-of-proliferating-1471-213X-9-40-S6.ogv
• File:Pathways-of-allosteric-regulation-in-Hsp70-chaperones-ncomms9308-s2.ogv
• File:Pathways-of-allosteric-regulation-in-Hsp70-chaperones-ncomms9308-s3.ogv
• File:Pathways-of-allosteric-regulation-in-Hsp70-chaperones-ncomms9308-s4.ogv
• File:Pyrazoleamide-compounds-are-potent-antimalarials-that-target-Na+-homeostasis-in-intraerythrocytic-ncomms6521-s2.ogv
• File:Pyrazoleamide-compounds-are-potent-antimalarials-that-target-Na+-homeostasis-in-intraerythrocytic-ncomms6521-s3.ogv
• File:Quantitative-Gait-Analysis-Using-a-Motorized-Treadmill-System-Sensitively-Detects-Motor-pone.0152413.s002.ogv
• File:Quantitative-Gait-Analysis-Using-a-Motorized-Treadmill-System-Sensitively-Detects-Motor-pone.0152413.s004.ogv
• File:Quantitative-Gait-Analysis-Using-a-Motorized-Treadmill-System-Sensitively-Detects-Motor-pone.0152413.s005.ogv
• File:S.-pombe-Kinesins-8-Promote-Both-Nucleation-and-Catastrophe-of-Microtubules-pone.0030738.s011.ogv
• File:Synergistic-effect-of-ATP-for-RuvA–RuvB–Holliday-junction-DNA-complex-formation-srep18177-s1.ogv
• File:The-Hexameric-Structures-of-Human-Heat-Shock-Protein-90-pone.0019961.s001.ogv
• File:The-ISWI-Chromatin-Remodeler-Organizes-the-hsrω-ncRNA–Containing-Omega-Speckle-Nuclear-Compartments-pgen.1002096.s016.ogv
• File:The-ISWI-Chromatin-Remodeler-Organizes-the-hsrω-ncRNA–Containing-Omega-Speckle-Nuclear-Compartments-pgen.1002096.s017.ogv
• File:The-MinCDJ-System-in-Bacillus-subtilis-Prevents-Minicell-Formation-by-Promoting-Divisome-Disassembly-pone.0009850.s009.ogv
• File:The-MinCDJ-System-in-Bacillus-subtilis-Prevents-Minicell-Formation-by-Promoting-Divisome-Disassembly-pone.0009850.s010.ogv
• File:TRIM32-Cytoplasmic-Body-Formation-Is-an-ATP-Consuming-Process-Stimulated-by-HSP70-in-Cells-pone.0169436.s006.ogv
• File:TRIM32-Cytoplasmic-Body-Formation-Is-an-ATP-Consuming-Process-Stimulated-by-HSP70-in-Cells-pone.0169436.s007.ogv
• File:TumRacGAP-functions-as-a-switch-activating-the-Pavkinesin-6-motor-ncomms11182-s2.ogv
• File:TumRacGAP-functions-as-a-switch-activating-the-Pavkinesin-6-motor-ncomms11182-s3.ogv
• File:TumRacGAP-functions-as-a-switch-activating-the-Pavkinesin-6-motor-ncomms11182-s4.ogv
• File:TumRacGAP-functions-as-a-switch-activating-the-Pavkinesin-6-motor-ncomms11182-s5.ogv
• File:TumRacGAP-functions-as-a-switch-activating-the-Pavkinesin-6-motor-ncomms11182-s6.ogv
• File:TumRacGAP-functions-as-a-switch-activating-the-Pavkinesin-6-motor-ncomms11182-s7.ogv
• File:TumRacGAP-functions-as-a-switch-activating-the-Pavkinesin-6-motor-ncomms11182-s8.ogv

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