Issue 8, 2015
From the journal:

Chemical Science

Signal transduction and amplification through enzyme-triggered ligand release and accelerated catalysis

Sean Goggins,a   Barrie J. Marsh,b   Anneke T. Lubbena  and  Christopher G. Frost*a  

* Corresponding authors

a Department of Chemistry, University of Bath, Bath, UK
E-mail: C.G.Frost@bath.ac.uk
Fax: +44 (0)1225 386231
Tel: +44 (0)1225 386142

b Atlas Genetics, Derby Court, Epsom Square, White Horse Business Park, Trowbridge, Wiltshire, UK
E-mail: barrie.marsh@atlasgenetics.com
Tel: +44 (0)1225 717932

Abstract

Signal transduction and signal amplification are both important mechanisms used within biological signalling pathways. Inspired by this process, we have developed a signal amplification methodology that utilises the selectivity and high activity of enzymes in combination with the robustness and generality of an organometallic catalyst, achieving a hybrid biological and synthetic catalyst cascade. A proligand enzyme substrate was designed to selectively self-immolate in the presence of the enzyme to release a ligand that can bind to a metal pre-catalyst and accelerate the rate of a transfer hydrogenation reaction. Enzyme-triggered catalytic signal amplification was then applied to a range of catalyst substrates demonstrating that signal amplification and signal transduction can both be achieved through this methodology.

Graphical abstract: Signal transduction and amplification through enzyme-triggered ligand release and accelerated catalysis

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Article information

DOI
https://doi.org/10.1039/C5SC01588J
Article type
Edge Article
Submitted
01 May 2015
Accepted
13 Jun 2015
First published
15 Jun 2015
This article is Open Access

All publication charges for this article have been paid for by the Royal Society of Chemistry
Creative Commons BY-NC license

Chem. Sci., 2015,6, 4978-4985

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Signal transduction and amplification through enzyme-triggered ligand release and accelerated catalysis

S. Goggins, B. J. Marsh, A. T. Lubben and C. G. Frost, Chem. Sci., 2015, 6, 4978 DOI: 10.1039/C5SC01588J

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