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Structural Insights on the Conversion of Cytochrome P450 to P420.

Jessica A GableSarvind M TripathiThomas L Poulos
Published in: ACS omega (2022)
A characteristic feature of cytochromes P450* is that the complex formed between the ferrous heme iron and carbon monoxide generates an intense absorption band at 450 nm. This unique feature of P450s is due to the proximal thiolate Cys ligand coordinated to the heme iron. Various harsh treatments shift this band to 420 nm, thereby giving P420 which is most often associated with an inactive form of the enzyme. Various explanations have been put forward to explain the P450-to-P420 change ranging from protonation of the Cys heme ligand, displacement of the Cys ligand, or replacement of the Cys ligand with His. There are two crystal structures of the well-studied cytochrome P450cam that have a high fraction of P420. In one, P450cam is cross-linked to its redox partner, putidaredoxin (Pdx), and the second is P450cam crystallized in the absence of substrate. In both of these structures, a significant part of the substrate pocket is disordered and the poor quality of the electron density for the substrate indicates substantial disorder. However, in both structures there is no detectable change in the Cys-iron ligation or surrounding structure. These results indicate that the P450-to-P420 switch is due primarily to an opening and disordering around the substrate binding pocket and not ligand displacement or ligand swapping. Since it remains a possibility that ligand swapping could be responsible for P420 in some cases, we mutated to Gln the 3 His residues (352, 355, and 361) close enough to the proximal side of the heme that could possibly serve as heme ligands. The triple variant forms P420 which indicates that swapping Cys for His is not a requirement for the P450-to-P420 switch.
Keyphrases
  • machine learning
  • high resolution
  • deep learning
  • mass spectrometry
  • transcription factor
  • structural basis
  • electron transfer