Gross, Z.

J. Am. Chem. Soc. 2005, 127, 2883-2887, 10.1021/ja045372c

An extremely simple biomimetic oxidation system, consisting of mixing metal complexes of amphiphilic corroles with serum albumins, utilizes hydrogen peroxide for asymmetric sulfoxidation in up to 74% ee. The albumin-conjugated manganese corroles also display catalase-like activity, and mechanistic evidence points toward oxidant-coordinated manganese(III) as the prime reaction intermediate.

Marchetti, M.

Tetrahedron Lett. 2000, 41, 3717-3720, 10.1016/S0040-4039(00)00473-1

A highly efficient and chemoselective biphasic hydroformylation of olefins was accomplished using water soluble complexes formed by the interaction between Rh(CO)2(acac) and human serum albumin (HSA), a readily available water soluble protein. A new type of shape-selectivity was observed in the hydroformylation of sterically hindered olefins.

Gross, Z.

Cat. Sci. Technol. 2011, 1, 578, 10.1039/c1cy00046b

Oxidation of thioanisoles, catalyzed by chiral manganese(III) and iron(III) corroles, provides the corresponding sulfoxides in moderate chemical yields and low enantioselectivities. Biocatalysis by non-chiral albumin-associated manganese(III) corroles proceeds much better and allows for the enantioselective synthesis of the pharmacologically important R-modafinil, in 88% yield and 73% ee.

Brustad, E.M.; Nicewicz, D.A.

ChemBioChem 2020, 21, 3146-3150, 10.1002/cbic.202000362

A pair of 9-mesityl-10-phenyl acridinium (Mes−Acr+) photoredox catalysts were synthesized with an iodoacetamide handle for cysteine bioconjugation. Covalently tethering of the synthetic Mes−Acr+ cofactors with a small panel of thermostable protein scaffolds resulted in 12 new artificial enzymes. The unique chemical and structural environment of the protein hosts had a measurable effect on the photophysical properties and photocatalytic activity of the cofactors. The constructed Mes−Acr+ hybrid enzymes were found to be active photoinduced electron-transfer catalysts, controllably oxidizing a variety of aryl sulfides when irradiated with visible light, and possessed activities that correlated with the photophysical characterization data. Their catalytic performance was found to depend on multiple factors including the Mes−Acr+ cofactor, the protein scaffold, the location of cofactor immobilization, and the substrate. This work provides a framework toward adapting synthetic photoredox catalysts into artificial cofactors and includes important considerations for future bioengineering efforts.

Jarvis, A.G.; Kamer, P.C.J.

Angew. Chem. Int. Ed. 2017, 129, 13784-13788, 10.1002/ange.201705753

Hayashi, T

J. Am. Chem. Soc. 2009, 131, 15124-15125, 10.1021/ja907428e

Myoglobin (Mb) and horseradish peroxidase (HRP) were both reconstituted with a meso-unsubstituted iron corrole and their electronic configurations and peroxidase activities were investigated. The appearance of the 540 nm band upon incorporation of the iron corrole into apoMb indicates axial coordination by the proximal histidine imidazole in the Mb heme pocket. Based on 1H NMR measurements using the Evans method, the total magnetic susceptibility of the iron corrole reconstituted Mb was evaluated to be S = 3/2. In contrast, although a band does not appear in the vicinity of 540 nm during reconstitution of the iron corrole into the matrix of HRP, a spectrum similar to that of the iron corrole reconstituted Mb is observed upon the addition of dithionite. This observation suggests that the oxidation state of the corrole iron in the reconstituted HRP can be assigned as +4. The catalytic activities of both proteins toward guaiacol oxidation are quite different; the iron corrole reconstituted HRP decelerates H2O2-dependent oxidation of guaiacol, while the same reaction catalyzed by iron corrole reconstituted Mb has the opposite effect and accelerates the reaction. This finding can be attributed to the difference in the oxidation states of the corrole iron when these proteins are in the resting state.

Gross, Z.; Mahy, J.-P.

Dalton Trans. 2016, 45, 706-710, 10.1039/c5dt04158a

Light induced enantioselective oxidation of an organic molecule with water as the oxygen atom source is demonstrated in a system where chirality is induced by a protein, oxygen atom transfer by a manganese corrole, and photocatalysis by ruthenium complexes.

Kazlauskas, R.J.

ChemCatChem 2010, 2, 953-957, 10.1002/cctc.201000159

CA confidential: Replacing the active‐site zinc in carbonic anhydrase (CA) by rhodium forms a new enzymatic catalyst for cofactor‐free hydroformylation of styrene with syn gas. Unlike free rhodium, this rhodium–protein hybrid, [Rh]–CA, is regioselective (8.4:1) for linear over branched aldehyde product, which is a 40‐fold change in regioselectivity compared to free rhodium.