A Localized Enantioselective Catalytic Site on Short DNA Sequences and their Amphiphiles

21 June 2021, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

A DNA-based artificial metalloenzyme (ArM) consisting of copper (II) complex of 4,4’-dimethyl-2,2’-bipyridine (dmbipy-Cu) bound to double-stranded DNA (dsDNA) as short as 8 base pairs with only two contiguous central G•C pairs (G for guanine and C for cytosine), catalyzes highly enantioselective Diels-Alder reaction in water. Molecular simulations indicate that these minimal sequences provide a single site where dmbipy-Cu is groove-bound and able to function as an enantioselective catalyst. Enantioselective preference inverses when D-DNA is replaced with L-DNA. When the DNA is conjugated to a hydrophobic tail, the obtained ArMs exhibit enantioselective performance in a methanol-water mixture superior to that of non-amphiphilic dsDNA, and dsDNA-amphiphiles with more complex G•C-rich sequences.

Keywords

artificial metalloenzyme • DNA catalysis • asymmetric catalysis • catalysis in methanol-water • DNA-amphiphile

Supplementary materials

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Description
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Title
A Localized Enantioselective Catalytic Site on Short DNA Sequences and their Amphiphiles
Description
This file contains: Experimental Procedures; Supplementary Schemes; Supplementary Tables; Supplementary Figures; References; 1H-NMR Spectra and 13C-NMR Spectra; HPLC Chromatogram; Calculation of Conversion of (1a).
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