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A DNA-conjugated small molecule catalyst enzyme mimic for site-selective ester hydrolysisElectronic supplementary information (ESI) available. See DOI: 10.1039/c7sc04554a

The challenge of site-selectivity must be overcome in many chemical research contexts, including selective functionalization in complex natural products and labeling of one biomolecule in a living system. Synthetic catalysts incorporating molecular recognition domains can mimic naturally-occurring e...

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Main Authors:	Flanagan, Moira L, Arguello, A. Emilia, Colman, Drew E, Kim, Jiyeon, Krejci, Jesse N, Liu, Shimu, Yao, Yueyu, Zhang, Yu, Gorin, David J
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creator	Flanagan, Moira L Arguello, A. Emilia Colman, Drew E Kim, Jiyeon Krejci, Jesse N Liu, Shimu Yao, Yueyu Zhang, Yu Gorin, David J
description	The challenge of site-selectivity must be overcome in many chemical research contexts, including selective functionalization in complex natural products and labeling of one biomolecule in a living system. Synthetic catalysts incorporating molecular recognition domains can mimic naturally-occurring enzymes to direct a chemical reaction to a particular instance of a functional group. We propose that DNA-conjugated small molecule catalysts (DCats), prepared by tethering a small molecule catalyst to a DNA aptamer, are a promising class of reagents for site-selective transformations. Specifically, a DNA-imidazole conjugate able to increase the rate of ester hydrolysis in a target ester by >100-fold compared with equimolar untethered imidazole was developed. Other esters are unaffected. Furthermore, DCat-catalyzed hydrolysis follows enzyme-like kinetics and a stimuli-responsive variant of the DCat enables programmable "turn on" of the desired reaction. A DNA-imidazole conjugate, designed to mimic enzyme function, site-selectively hydrolyzes a target ester, but not other esters, with >100-fold rate enhancement compared to free imidazole.
doi_str_mv	10.1039/c7sc04554a
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title	A DNA-conjugated small molecule catalyst enzyme mimic for site-selective ester hydrolysisElectronic supplementary information (ESI) available. See DOI: 10.1039/c7sc04554a
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