All Stories

  1. Structural Basis for (2R,3R)-Taxifolin Binding and Reaction Products to the Bacterial Chalcone Isomerase of Eubacterium ramulus
  2. Crystal structures of free and ligand‐bound forms of the TetR/AcrR‐like regulator SCO3201 from Streptomyces coelicolor suggest a novel allosteric mechanism
  3. Antiviral activity of natural phenolic compounds in complex at an allosteric site of SARS-CoV-2 papain-like protease
  4. Hydrazones and Thiosemicarbazones Targeting Protein-Protein-Interactions of SARS-CoV-2 Papain-like Protease
  5. Structural basis to repurpose boron-based proteasome inhibitors Bortezomib and Ixazomib as β-lactamase inhibitors
  6. The induction mechanism of the flavonoid‐responsive regulator FrrA
  7. The Komagataeibacter europaeus GqqA is the prototype of a novel bifunctional N-Acyl-homoserine lactone acylase with prephenate dehydratase activity
  8. X-ray screening identifies active site and allosteric inhibitors of SARS-CoV-2 main protease
  9. Thermodynamics, cooperativity and stability of the tetracycline repressor (TetR) upon tetracycline binding
  10. Structural and biochemical analysis of a phosin from Streptomyces chartreusis reveals a combined polyphosphate‐ and metal‐binding fold
  11. Protein binding to Tetracyclines: Inhibitor, Regulator, Substrate
  12. Assemblins as maturational proteases in herpesviruses
  13. Blocking tetracycline destruction
  14. Structural evidence of intramolecular propeptide inhibition of the aspzincin metalloendopeptidase AsaP1
  15. Modular organisation of inducer recognition and allostery in the tetracycline repressor
  16. Structural analysis and knock-out of a Burkholderia pseudomallei homolog of the eukaryotic transcription coactivator PC4
  17. A Quantitative Real-Time RT-PCR Assay for the Detection ofVenezuelan equine encephalitis virusUtilizing a Universal Alphavirus Control RNA
  18. Dimerization-Induced Allosteric Changes of the Oxyanion-Hole Loop Activate the Pseudorabies Virus Assemblin pUL26N, a Herpesvirus Serine Protease
  19. Structure and catalytic mechanism of the evolutionarily unique bacterial chalcone isomerase
  20. Tetracycline Repressor Allostery Does Not Depend on Divalent Metal Recognition
  21. Structural and biochemical characterization of the dual substrate recognition of the (R)-selective amine transaminase fromAspergillus fumigatus
  22. Post-translational modification and extended glycosylation pattern of a plant latex peroxidase of native source characterized by X-ray crystallography
  23. Structure and regulatory targets of SCO3201, a highly promiscuous TetR-like regulator of Streptomyces coelicolor M145
  24. Crystallographic characterization of the (R)-selective amine transaminase fromAspergillus fumigatus
  25. Putative dioxygen-binding sites and recognition of tigecycline and minocycline in the tetracycline-degrading monooxygenase TetX
  26. Humanes α2-Makroglobulin - eine Variation der Venusfliegenfalle
  27. Recognition of Drug Degradation Products by Target Proteins: Isotetracycline Binding to Tet Repressor
  28. Structural basis for a new tetracycline resistance mechanism relying on the TetX monooxygenase
  29. Nonantibiotic Properties of Tetracyclines: Structural Basis for Inhibition of Secretory Phospholipase A2
  30. Tetracycline-Tet Repressor Binding Specificity: Insights from Experiments and Simulations
  31. Tryptophan π-Electron System Capping a Copper(I) Binding Site-A New Organometallic Bonding Mode in Proteins
  32. Tryptophan π‐Electron System Capping a Copper(I) Binding Site—A New Organometallic Bonding Mode in Proteins
  33. Protonation Patterns in Tetracycline:Tet Repressor Recognition: Simulations and Experiments
  34. Old Codons, New Amino Acids
  35. Alte Codons– neue Aminosäuren
  36. Old Codons, New Amino Acids
  37. How Unique Is the Genetic Code
  38. Wie eindeutig ist der genetische Code?
  39. How Unique Is the Genetic Code?
  40. Gene regulation by the tetracycline-inducible Tet repressor-operator system — molecular mechanisms at atomic resolution
  41. ChemInform Abstract: The Tetracycline Repressor - A Paradigm for a Biological Switch
  42. Der Tetracyclin-Repressor – das Musterbeispiel für einen biologischen Schalter
  43. SELFSTACKING SYSTEMS, PART 6.1HOST LATTICE FUNCTION OF 2,3,8,9-TETRAMETHOXYDIBENZO[c,e][1,2]-DICHALCOGENINS IN THEIR ELECTRICALLY CONDUCTING IODINE COMPLEXES
  44. Structure of the Tet Repressor-tetracycline Complex and Regulation of Antibiotic Resistance
  45. The structure of the left-handed antiparallel amylose double helix: Theoretical studies
  46. Three-dimensional structure of system I of photosynthesis at 6 Å resolution
  47. Long-range structural changes in proteinase K triggered by calcium ion removal
  48. An Amylose Antiparallel Double Helix at Atomic Resolution