DNA-Accelerated Catalysis of Carbene-Transfer Reactions by a DNA/Cationic Iron Porphyrin Hybrid

A novel DNA‐based hybrid catalyst comprised of salmon testes DNA and an iron(III) complex of a cationic meso‐tetrakis(N‐alkylpyridyl)porphyrin was developed. When the N‐methyl substituents were placed at the ortho position with respect to the porphyrin ring, high reactivity in catalytic carbene‐tran...

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Veröffentlicht in:Angewandte Chemie International Edition 2016-11, Vol.55 (45), p.14136-14140
Hauptverfasser: Rioz-Martínez, Ana, Oelerich, Jens, Ségaud, Nathalie, Roelfes, Gerard
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Sprache:eng
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Zusammenfassung:A novel DNA‐based hybrid catalyst comprised of salmon testes DNA and an iron(III) complex of a cationic meso‐tetrakis(N‐alkylpyridyl)porphyrin was developed. When the N‐methyl substituents were placed at the ortho position with respect to the porphyrin ring, high reactivity in catalytic carbene‐transfer reactions was observed under mild conditions, as demonstrated in the catalytic enantioselective cyclopropanation of styrene derivatives with ethyl diazoacetate (EDA) as the carbene precursor. A remarkable feature of this catalytic system is the large DNA‐induced rate acceleration observed in this reaction and the related dimerization of EDA. It is proposed that high effective molarity of all components of the reaction in or near the DNA is one of the key contributors to this unique reactivity. This study demonstrates that the concept of DNA‐based asymmetric catalysis can be expanded into the realm of organometallic chemistry. DNA shows the way: DNA‐based catalysis by cationic iron porphyrins enabled efficient carbene transfer in the enantioselective cyclopropanation of styrenes with diazo compounds. High effective molarity of all reaction components in or near the DNA is believed to be key to this unique reactivity (see picture).
ISSN:1433-7851
1521-3773
DOI:10.1002/anie.201608121