DOCSLIB.ORG
Explore
Sign Up
Log In
Upload
Search
Home
» Tags
» ATP synthase
ATP synthase
Assembling the Mitochondrial ATP Synthase Jiyao Songa, Nikolaus Pfannera,B,1, and Thomas Beckera,B
Difference Between Atpase and ATP Synthase Key Difference
ATP Synthase K+- and H+-Flux Drive ATP Synthesis and Enable Mitochondrial K+-Uniporter Function
Gene Expression Signatures and Biomarkers of Noninvasive And
Interrelation Between ROS and Ca2+ in Aging and Age-Related Diseases
ATP Synthase: Structure,Abstract: Functionlet F Denote a Eld and and Let Inhibitionv Denote a Vector Space Over F with Nite Positive Dimension
Cryo-EM Structures of the Autoinhibited E. Coli ATP Synthase in Three Rotational States
Structure of the Hexameric Hera Atpase Reveals a Mechanism of Translocation-Coupled DNA-End Processing in Archaea
Role of ATP1A1 in Skeletal Muscle Growth and Metabolism
Protons and How They Are Transported by Proton Pumps
030626 Mitochondrial Respiratory-Chain Diseases
Supplemental Figures 04 12 2017
Mitochondrial Targeting Involving Cholesterol-Rich Lipid Rafts in the Mechanism of Action of the Antitumor Ether Lipid and Alkylphospholipid Analog Edelfosine
1 Deep Transcriptome Annotation Enables the Discovery and Functional 1 Characterization of Cryptic Small Proteins 2 3 4 Sondos S
Mitochondria Supply ATP to the ER Through a Mechanism Antagonized
The ATP Synthase Deficiency in Human Diseases
Targeting of Intracellular Ca2+ Stores As a Therapeutic Strategy Against Age-Related Neurotoxicities
ATP / Atpase and Flux Activities in Human Red Blood Cells
Top View
ATP Synthase: Evolution, Energetics, and Membrane Interactions Jasmine a Nirody1,2,*, Itay Budin3, and Padmini Rangamani4*
History of DNA Helicases
The Structure of the Catalytic Domain of the ATP Synthase from Mycobacterium Smegmatis Is a Target for Developing Antitubercular Drugs
Liver Mitochondrial Membrane Crosslinking and Destruction in a Rat
F0F1 ATP Synthase Regulates Extracellular Calcium Influx in Human Neutrophils by Interacting with Cav2.3 and Modulates Neutrophi
Understanding Helicases As a Means of Virus Control
Classification and Differential Diagnosis of Wilson's Disease
ATP Synthase Chemical Processes in Living Systems
Comparative Cross-Linking and Mass Spectrometry of an Intact F-Type Atpase Suggest a Role for Phosphorylation
Mitochondrial Copper Overload in a Rat Model for Wilson Disease Is Paralleled by Upregulated COX17 and Can Be Restored Using the Bacterial Peptide Methanobactin
ATP-Dependent Conformational Dynamics Underlie the Functional Asymmetry of the Replicative Helicase from a Minimalist Eukaryote
Calcium Signalling-Dependent Mitochondrial Dysfunction and Bioenergetics Regulation in Respiratory Chain Complex II Deficiency
OFF Mechanisms 5 1
Structure and Mechanism of ATP-Dependent Phospholipid Transporters☆
Biophysical Comparison of ATP Synthesis Mechanisms Shows a Kinetic Advantage for the Rotary Process
Golgi-Dependent Copper Homeostasis Sustains Synaptic Development and Mitochondrial Content
The -Subunit Rotation and Torque Generation in F 1-Atpase from Wild-Type Or Uncoupled Mutant Escherichia Coli
Mitochondrial Functions of RECQL4 Are Required for the Prevention of Aerobic Glycolysis-Dependent Cell Invasion
Proton Pumps: Mechanism of Action and Applications Janos K. Lanyi Dept. of Physiology and Biophysics, University of California
THE Fo COMPLEX of the PROTON-TRANSLOCATING F-TYPE Atpase OFESCHERICHIA
Structures of P-Type and F-Type Ion Pumps David L Stokes and Robert K Nakamoto
Structure of ATP Synthase from Paracoccus Denitrificans Determined by X-Ray Crystallography at 4.0 Å Resolution
Rotary Substates of Mitochondrial ATP Synthase Reveal the Basis of Flexible F1-Fo Coupling
F1F0 H+-Atpase/ATP Synthases (Energy Transduction/Membrane Transport/Conformational Change) GENE A