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6BGF

Crystal structure of cysteine-bound ferrous form of the crosslinked human cysteine dioxygenase

Summary for 6BGF
Entry DOI10.2210/pdb6bgf/pdb
DescriptorCysteine dioxygenase type 1, CYSTEINE, FE (II) ION, ... (6 entities in total)
Functional Keywordscysteine, cys-tyr cofactor, iron, oxidoreductase
Biological sourceHomo sapiens (Human)
Total number of polymer chains1
Total formula weight23871.42
Authors
Liu, A.,Li, J.,Shin, I. (deposition date: 2017-10-28, release date: 2017-12-13, Last modification date: 2023-10-04)
Primary citationLi, J.,Griffith, W.P.,Davis, I.,Shin, I.,Wang, J.,Li, F.,Wang, Y.,Wherritt, D.J.,Liu, A.
Cleavage of a carbon-fluorine bond by an engineered cysteine dioxygenase.
Nat.Chem.Biol., 14:853-860, 2018
Cited by
PubMed Abstract: Cysteine dioxygenase (CDO) plays an essential role in sulfur metabolism by regulating homeostatic levels of cysteine. Human CDO contains a post-translationally generated Cys93-Tyr157 cross-linked cofactor. Here, we investigated this Cys-Tyr cross-linking by incorporating unnatural tyrosines in place of Tyr157 via a genetic method. The catalytically active variants were obtained with a thioether bond between Cys93 and the halogen-substituted Tyr157, and we determined the crystal structures of both wild-type and engineered CDO variants in the purely uncross-linked form and with a mature cofactor. Along with mass spectrometry and F NMR, these data indicated that the enzyme could catalyze oxidative C-F or C-Cl bond cleavage, resulting in a substantial conformational change of both Cys93 and Tyr157 during cofactor assembly. These findings provide insights into the mechanism of Cys-Tyr cofactor biogenesis and may aid the development of bioinspired aromatic carbon-halogen bond activation.
PubMed: 29942080
DOI: 10.1038/s41589-018-0085-5
PDB entries with the same primary citation
Experimental method
X-RAY DIFFRACTION (2.251 Å)
Structure validation

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