Adenylyl Imidodiphosphate

• 

  Subject Areas on Research

  • Binding of ADP and adenosine 5'-[beta, gamma-imido]triphosphate to insect flight muscle fibrils. 
  • Co-ordinated electron microscopy and X-ray studies of glycerinated insect flight muscle. I. X-ray diffraction monitoring during preparation for electron microscopy of muscle fibres fixed in rigor, in ATP and in AMPPNP. 
  • Co-ordinated electron microscopy and X-ray studies of glycerinated insect flight muscle. II. Electron microscopy and image reconstruction of muscle fibres fixed in rigor, in ATP and in AMPPNP. 
  • Differential and simultaneous adenosine di- and triphosphate binding by MutS. 
  • Direct visualization of asymmetric adenine-nucleotide-induced conformational changes in MutL alpha. 
  • Distinct MutS DNA-binding modes that are differentially modulated by ATP binding and hydrolysis. 
  • Electron tomography of insect flight muscle in rigor and AMPPNP at 23 degrees C. 
  • Interaction of nucleotides with chloroplast coupling factor 1. 
  • Large conformational changes in a kinesin motor catalyzed by interaction with microtubules. 
  • Newly identified brain potassium channels gated by the guanine nucleotide binding protein Go. 
  • Nucleotide- and stoichiometry-dependent DNA supercoiling by reverse gyrase. 
  • StableIsotope Labeling with Amino Acids in Cell Culture (SILAC)-based strategy for proteome-wide thermodynamic analysis of protein-ligand binding interactions. 
  • Structural properties of an active form of rabbit muscle phosphofructokinase. 
  • Structures of partition protein ParA with nonspecific DNA and ParB effector reveal molecular insights into principles governing Walker-box DNA segregation. 
  • Study of the interaction of adenylyl imidodiphosphate with rabbit muscle phosphofructokinase. 
  • Temperature-jump study of the interaction of rabbit muscle phosphofructokinase with adenylyl imidodiphosphate and adenosine 5'-triphosphate. 
  • The formylpeptide chemoattractant receptor copurifies with a GTP-binding protein containing a distinct 40-kDa pertussis toxin substrate. 
  • The structure of insect flight muscle in the presence of AMPPNP. 
  • Three-dimensional structure of nucleotide-bearing crossbridges in situ: oblique section reconstruction of insect flight muscle in AMPPNP at 23 degrees C. 
  • Tomographic three-dimensional reconstruction of insect flight muscle partially relaxed by AMPPNP and ethylene glycol. 
  • Two attached non-rigor crossbridge forms in insect flight muscle. 
  • Two attached non-rigor crossbridge forms. 
  • X-ray diffraction and electron microscopy from Lethocerus flight muscle partially relaxed by adenylylimidodiphosphate and ethylene glycol.