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Expanding biohybrid-mediated asymmetric catalysis into the realm of RNA

The recent development of biohybrid catalytic systems has allowed synthetic chemists to reach high levels of selectivity on a wide variety of valuable synthetic transformations. In this context, DNA-based catalysts have emerged as particularly appealing tools. Interestingly, while long RNA sequences...

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Published in:	Chemical communications (Cambridge, England) England), 2016-01, Vol.52 (55), p.864-867
Main Authors:	Duchemin, Nicolas, Benedetti, Erica, Bethge, Lucas, Vonhoff, Stefan, Klussmann, Sven, Vasseur, Jean-Jacques, Cossy, Janine, Smietana, Michael, Arseniyadis, Stellios
Format:	Article
Language:	English
Subjects:	Alkylation Asymmetry Biocatalysis Biochemistry Catalysis Catalysts Chemical Sciences Chemists Gene sequencing Medicinal Chemistry Nucleic Acid Conformation Organic chemistry Ribonucleic acids RNA, Catalytic - chemistry RNA, Catalytic - metabolism Solvents - chemistry Transformations
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creator	Duchemin, Nicolas Benedetti, Erica Bethge, Lucas Vonhoff, Stefan Klussmann, Sven Vasseur, Jean-Jacques Cossy, Janine Smietana, Michael Arseniyadis, Stellios
description	The recent development of biohybrid catalytic systems has allowed synthetic chemists to reach high levels of selectivity on a wide variety of valuable synthetic transformations. In this context, DNA-based catalysts have emerged as particularly appealing tools. Interestingly, while long RNA sequences (ribozymes) are known to catalyse specific biochemical reactions with remarkable efficiencies, RNA-based catalysts involving a catalytically active metal complex interacting in a non-covalent fashion with short sequences have never been evaluated to date. We report here our results, which have led to the first example involving a short RNA-based catalyst. We report here the first example of an RNA-based catalyst involving a catalytically active metal complex interacting in a non-covalent fashion with short RNA sequences.
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subjects	Alkylation Asymmetry Biocatalysis Biochemistry Catalysis Catalysts Chemical Sciences Chemists Gene sequencing Medicinal Chemistry Nucleic Acid Conformation Organic chemistry Ribonucleic acids RNA, Catalytic - chemistry RNA, Catalytic - metabolism Solvents - chemistry Transformations
title	Expanding biohybrid-mediated asymmetric catalysis into the realm of RNA
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