Li M,
Harrison W,
Zhang Z,
Yuan Y,
Zhao H.
*
University of Illinois at Urbana-Champaign, USA
Remote Stereocontrol with Azaarenes via Enzymatic Hydrogen Atom Transfer.
Nat. Chem. 2023;
DOI:
10.1038/s41557-023-01368-x
Key words
asymmetric catalysis - organocatalysis - remote stereocontrol - ene-reductase - photoenzyme
- radical hydroalkylation
Significance
The Zhao group describes a radical hydroalkylation reaction in which the ene-reductase
system modulates the enantioselectivity of remote carbon-centered radicals on aza-arenes.
Their computational and experimental analysis highlights the importance of hydrogen
bonding and steric effects of critical amino acid residues in generating such high
stereoselectivities. They also offer a plausible technique for inserting an aza-arene
pharmacophore into ‘ene’-containing molecules, thus opening new pathways for the creation
of value-added products from styrenes.
Comment
The decreasing control provided by the catalyst’s chiral environment with increasing
distance to the reaction site makes remote stereocontrol a challenging task in chemical
synthesis. The authors show how to use a flavin mononucleotide (FMN)-dependent ene-reductase
for an enantioselective radical hydroalkylation process. DFT calculations show that
Int1 serves as the initiating intermediate and that the product formation involves
an electron-spin-state transition from triplet (Int-triplet) to singlet (Int-spin)
process. This paper tackles a long-standing problem in asymmetric catalysis by proposing
a feasible technique for remote stereocontrol using a single functional group.
