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ASP61 DEPROTONATED FORM OF SUBUNIT C OF THE F1FO ATP SYNTHASE OF ESCHERICHIA COLI
Biology and Chemistry Report
1C99
  •   Structure Details   Hide

    Structure Keywords

    Keywords PROTON TRANSPORT, HYDROLASE
    Text PROTEOLIPID F1FO, ATP SYNTHASE, PROTON TRANSLOCATION, PROTON TRANSPORT, HYDROLASE

    Polymeric Molecules

    Chain A
    Description PROTEOLIPID F1FO OF ATP SYNTHASE 
    Fragment subunit c 
    Nonstandard Linkage no 
    Nonstandard Monomers no 
    Polymer Type polypeptide(L) 
    Formula Weight 8259.1 
    Source Method genetically manipulated  
    Entity Name PROTEOLIPID, DCCD-BINDING PROTEIN 
    Entity Name Sys E.C.3.6.1.34 

     
  •   Protein Details   Hide

    UniProtKB Information

    Chain SWS/UNP ID SWS/UNP Accession(s)
    A ATPL_ECOLI P00844     

    Keywords and Names

    Chain(s) RCSB Name UniProtKB Name UniProtKB Keywords

    EC, Associated Pathways and Catalytic Sites

    Chain(s) IUBMB KEGG BioCyc Catalytic Site(s)
    3.6.3.14        
    C: Cellular Location | F: Molecular Function | P: Biological Process
    Chain A
    GO ID   Ontology GO Term Definition
    6754   ATP Biosynthetic Process  The Chemical Reactions and Pathways Resulting in the Formation of ATP Adenosine 5' Triphosphate a Universally Important Coenzyme and Enzyme Regulator. 
    6810   Transport  The Directed Movement of Substances (such As Macromolecules Small Molecules Ions) Into Out of or Within a Cell or Between Cells or Within a Multicellular Organism by Means of Some Agent Such As a Transporter or Pore. 
    6811   Ion Transport  The Directed Movement of Charged Atoms or Small Charged Molecules Into Out of or Within a Cell or Between Cells by Means of Some Agent Such As a Transporter or Pore. 
    15986   ATP Synthesis Coupled Proton Transport  The Transport of Protons Across a Membrane to Generate an Electrochemical Gradient (proton Motive Force) That Powers ATP Synthesis. 
    15991   ATP Hydrolysis Coupled Proton Transport  The Transport of Protons Against an Electrochemical Gradient Using Energy From ATP Hydrolysis. 
    15992   Proton Transport  The Directed Movement of Protons (hydrogen Ions) Into Out of or Within a Cell or Between Cells by Means of Some Agent Such As a Transporter or Pore. 
    5886   Plasma Membrane  The Membrane Surrounding a Cell That Separates the Cell From Its External Environment. It Consists of a Phospholipid Bilayer and Associated Proteins. 
    16020   Membrane  Double Layer of Lipid Molecules That Encloses All Cells and in Eukaryotes Many Organelles; May Be a Single or Double Lipid Bilayer; Also Includes Associated Proteins. 
    16021   Integral Component of Membrane  The Component of a Membrane Consisting of Gene Products and Protein Complexes That Have Some Part That Penetrates At Least One Leaflet of the Membrane Bilayer. This Component Includes Gene Products That Are Buried in the Bilayer with No Exposure Outside the Bilayer. 
    33177   Proton Transporting Two Sector Atpase Complex Proton Transporting Domain  A Protein Complex That Forms Part of a Proton Transporting Two Sector Atpase Complex and Carries Out Proton Transport Across a Membrane. the Proton Transporting Domain (f0 V0 or A0) Includes Integral and Peripheral Membrane Proteins. 
    45263   Proton Transporting ATP Synthase Complex Coupling Factor F(o)  All Non F1 Subunits of a Hydrogen Transporting ATP Synthase Including Integral and Peripheral Membrane Proteins. 
    8289   Lipid Binding  Interacting Selectively and Non Covalently with a Lipid. 
    15078   Hydrogen Ion Transmembrane Transporter Activity  Catalysis of the Transfer of Hydrogen Ions From One Side of a Membrane to the Other. 
    46933   Proton Transporting ATP Synthase Activity Rotational Mechanism  Catalysis of the Transfer of Protons From One Side of a Membrane to the Other According to the Reaction: Adp + H2o + Phosphate + H+(in) = ATP + H+(out) by a Rotational Mechanism. 
    46961   Proton Transporting Atpase Activity Rotational Mechanism  Catalysis of the Transfer of Protons From One Side of a Membrane to the Other According to the Reaction: ATP + H2o + H+(in) = Adp + Phosphate + H+(out) by a Rotational Mechanism. 


     
  •   Gene Details   Hide

    Genetic Source

    Chain A
    Scientific Name Escherichia coli  
    Genus Escherichia
    Strain ER
    Subcellular Location Membrane
    Gene unce
    Host Scientific Name Escherichia coli  
    Host Genus Escherichia
    Host Strain Er