Livia Knörr scite author profile

Enzymes provide an exquisitely tailored chiral environment to foster high catalytic activities and selectivities, but their native structures are optimized for very specific biochemical transformations. Designing a protein to accommodate a non-native transition metal complex can broaden the scope of enzymatic transformations while raising the activity and selectivity of small molecule catalysis. Herein, we report the creation of a bifunctional artificial metalloenzyme in which a glutamic acid or aspartic acid residue engineered into streptavidin acts in concert with a docked biotinylated rhodium(III) complex to enable catalytic asymmetric C–H activation. The coupling of benzamides and alkenes to access dihydroisoquinolones proceeds with up to nearly a hundredfold rate acceleration compared to the activity of the isolated Rh complex and enantiomeric ratios as high as 93: 7.

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Synthetic cascades are enabled by combining biocatalysts with artificial metalloenzymes

Köhler

et al. 2012

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Enzymatic catalysis and homogeneous catalysis offer complementary means to address synthetic challenges, both in chemistry and in biology. Despite its attractiveness, the implementation of concurrent cascade reactions that combine an organometallic catalyst with an enzyme has proven challenging because of the mutual inactivation of both catalysts. To address this, we show that incorporation of a d(6)-piano stool complex within a host protein affords an artificial transfer hydrogenase (ATHase) that is fully compatible with and complementary to natural enzymes, thus enabling efficient concurrent tandem catalysis. To illustrate the generality of the approach, the ATHase was combined with various NADH-, FAD- and haem-dependent enzymes, resulting in orthogonal redox cascades. Up to three enzymes were integrated in the cascade and combined with the ATHase with a view to achieving (i) a double stereoselective amine deracemization, (ii) a horseradish peroxidase-coupled readout of the transfer hydrogenase activity towards its genetic optimization, (iii) the formation of L-pipecolic acid from L-lysine and (iv) regeneration of NADH to promote a monooxygenase-catalysed oxyfunctionalization reaction.

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Artificial Transfer Hydrogenases for the Enantioselective Reduction of Cyclic Imines

et al. 2011

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Transcriptional profiling of Giardia intestinalis in response to oxidative stress

Ma’ayeh

Knörr

Svärd

2015

International Journal for Parasitology

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Localization of ligands within human carbonic anhydrase II using ¹⁹F pseudocontact shift analysis

et al. 2019

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Livia Knörr

Biotinylated Rh(III) Complexes in Engineered Streptavidin for Accelerated Asymmetric C–H Activation

Synthetic cascades are enabled by combining biocatalysts with artificial metalloenzymes

Artificial Transfer Hydrogenases for the Enantioselective Reduction of Cyclic Imines

Transcriptional profiling of Giardia intestinalis in response to oxidative stress

Localization of ligands within human carbonic anhydrase II using ¹⁹F pseudocontact shift analysis

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Livia Knörr

Biotinylated Rh(III) Complexes in Engineered Streptavidin for Accelerated Asymmetric C–H Activation

Synthetic cascades are enabled by combining biocatalysts with artificial metalloenzymes

Artificial Transfer Hydrogenases for the Enantioselective Reduction of Cyclic Imines

Transcriptional profiling of Giardia intestinalis in response to oxidative stress

Localization of ligands within human carbonic anhydrase II using 19F pseudocontact shift analysis

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Localization of ligands within human carbonic anhydrase II using ¹⁹F pseudocontact shift analysis