2016
DOI: 10.1021/acs.biochem.5b01299
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Enhancing Mn(II)-Binding and Manganese Peroxidase Activity in a Designed Cytochrome c Peroxidase through Fine-Tuning Secondary-Sphere Interactions

Abstract: Non-covalent second shell interactions are important in controlling metal-binding affinity and activity in metalloenzymes, but fine-tuning these interactions in designed metalloenzymes has not been fully explored. As a result, most designed metalloenzymes have low metal-binding affinity and activity. Here we identified three mutations in the second coordination shell of an engineered Mn(II)-binding site in cytochrome c peroxidase (called MnCcP.1, containing Glu45, Glu37, and Glu181 ligands) that mimics the nat… Show more

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Cited by 26 publications
(22 citation statements)
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“…15). 238 First, removing a hydrogen bond to Glu45 through Tyr36Phe mutation, enhanced Mn(II)-binding affinity, as evidenced by a decrease of K M of Mn(II) oxidation 2.8 fold. Second, introducing a salt bridge through Lys179Arg improved Glu35 and Glu181 coordination of Mn(II), decreasing K M 2.6 fold.…”
Section: Artificial Oxygen-activating Metalloenzymes By Protein Rementioning
confidence: 99%
See 1 more Smart Citation
“…15). 238 First, removing a hydrogen bond to Glu45 through Tyr36Phe mutation, enhanced Mn(II)-binding affinity, as evidenced by a decrease of K M of Mn(II) oxidation 2.8 fold. Second, introducing a salt bridge through Lys179Arg improved Glu35 and Glu181 coordination of Mn(II), decreasing K M 2.6 fold.…”
Section: Artificial Oxygen-activating Metalloenzymes By Protein Rementioning
confidence: 99%
“…A main contributing factor to both issues is the non-covalent secondary sphere interactions around the primary coordination sphere that influence both the metal-binding affinity and enzymatic efficiency. While more recent reports have begun to address this issue, 113,162,165,170,238 more attention needs to be paid in designing non-covalent secondary sphere interactions.…”
Section: Conclusion and Future Perspectivesmentioning
confidence: 99%
“…positive charge in a certain position – and in those cases the residue that satisfies this feature and fits the design scaffold best should be chosen. This method has been successfully used to enhance the manganese peroxidase activity in a designed mimic called MnC c P (Hosseinzadeh et al, 2016). Similarly; it has been used to increase the potential of Fe/Mn superoxide dismutase (Miller, 2008).…”
Section: Step 1: Computational Design Of Heteronuclear Metal-binding mentioning
confidence: 99%
“…For example, by incorporating a Gly in the loop that contains primary Mn-binding ligands into MnC c P and giving the ligands more flexibility, this designed mimic of MnP could achieve binding affinities for Mn comparable to the native system (Hosseinzadeh et al, 2016). Removing a disfavored hydrogen bond to another Mn ligand in the same mimic increased the activity and binding affinity (Hosseinzadeh et al, 2016). …”
Section: Step 1: Computational Design Of Heteronuclear Metal-binding mentioning
confidence: 99%
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