0000000000307350

AUTHOR

Gottfried Otting

0000-0002-0563-0146

showing 4 related works from this author

The death-domain fold of the ASC PYRIN domain, presenting a basis for PYRIN/PYRIN recognition.

2003

The PYRIN domain is a conserved sequence motif identified in more than 20 human proteins with putative functions in apoptotic and inflammatory signalling pathways. The three-dimensional structure of the PYRIN domain from human ASC was determined by NMR spectroscopy. The structure determination reveals close structural similarity to death domains, death effector domains, and caspase activation and recruitment domains, although the structural alignment with these other members of the death-domain superfamily differs from previously predicted amino acid sequence alignments. Two highly positively and negatively charged surfaces in the PYRIN domain of ASC result in a strong electrostatic dipole …

Models MolecularProtein FoldingMagnetic Resonance SpectroscopyCARD Signaling Adaptor ProteinsProtein ConformationProtein domainMolecular Sequence DataStatic ElectricityBiologyPyrin domainProtein Structure SecondaryConserved sequenceProtein structureStructural BiologyAnimalsHumansAmino Acid SequenceCloning MolecularMolecular BiologyPeptide sequenceZebrafishDeath domainGeneticsModels StatisticalSequence Homology Amino AcidProteinsPyrinZebrafish ProteinsCell biologyProtein Structure TertiaryCARD Signaling Adaptor ProteinsCytoskeletal ProteinsSpectrometry Mass Matrix-Assisted Laser Desorption-IonizationProtein foldingProtein BindingSignal TransductionJournal of molecular biology
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Solution Structure of the R3H Domain from Human Sμbp-2

2003

The R3H domain is a conserved sequence motif, identified in over 100 proteins, that is thought to be involved in polynucleotide-binding, including DNA, RNA and single-stranded DNA. In this work the 3D structure of the R3H domain from human Smubp-2 was determined by NMR spectroscopy. It is the first 3D structure determination of an R3H domain. The fold presents a small motif, consisting of a three-stranded antiparallel beta-sheet and two alpha-helices, which is related to the structures of the YhhP protein and the C-terminal domain of the translational initiation factor IF3. The similarities are non-trivial, as the amino acid identities are below 10%. Three conserved basic residues cluster o…

Models MolecularEGF-like domainMolecular Sequence DataProtein domainProkaryotic Initiation Factor-3Immunoglobulin domainStructure-Activity RelationshipBacterial ProteinsStructural BiologyEVH1 domainHumansAmino Acid SequenceB3 domainNuclear Magnetic Resonance BiomolecularMolecular BiologyChemistryEscherichia coli ProteinsDHR1 domainProtein Structure TertiaryDNA-Binding ProteinsSolutionsCrystallographyCyclic nucleotide-binding domainSequence AlignmentTranscription FactorsBinding domainJournal of Molecular Biology
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Site-specific Labelling with a Metal Chelator for Protein-structure Refinement

2004

A single free Cys sidechain in the N-terminal domain of the E. coli arginine repressor was covalently derivatized with S-cysteaminyl-EDTA for site-specific attachment of paramagnetic metal ions. The effects of chelated metal ions were monitored with (15)N-HSQC spectra. Complexation of Co(2+), which has a fast relaxing electron spin, resulted in significant pseudocontact shifts, but also in peak doubling which was attributed to the possibility of forming two different stereoisomers of the EDTA-Co(2+) complex. In contrast, complexation of Cu(2+) or Mn(2+), which have slowly relaxing electron spins, did not produce chemical shift changes and yielded self-consistent sets of paramagnetic relaxat…

Models MolecularMagnetic Resonance SpectroscopyTime FactorsMetal ions in aqueous solutionElectronsGadoliniumBiochemistryIonParamagnetismchemistry.chemical_compoundNuclear magnetic resonanceBacterial ProteinsAmideEscherichia coliChelationCysteineEdetic AcidSpectroscopyChelating AgentsIonsManganeseElectronic correlationChemistryRelaxation (NMR)Electron Spin Resonance SpectroscopyProteinsCobaltDNAProtein Structure TertiaryRepressor ProteinsCrystallographyModels ChemicalCovalent bondProtonsCopperJournal of Biomolecular NMR
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nmr structure of the pyrin domain of human asc

2022

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