posted on 2014-10-29, 00:00authored byPhilippe
A. Peixoto, Agathe Boulangé, Malcolm Ball, Bertrand Naudin, Thibault Alle, Pascal Cosette, Peter Karuso, Xavier Franck
Epicocconone is a natural latent
fluorophore that is widely used
in biotechnology because of its large Stokes shift and lack of fluorescence
in its unconjugated state. However, the low photostability and quantum
yields of epicocconone have limited its wider use, and in the absence
of a total synthesis, this limitation has been a long-standing problem.
Here we report a general strategy for the synthesis of epicocconone
analogues that relies on a 2-iodoxybenzoic acid-mediated dearomatization
and on the replacement of the triene tail of the natural product by
an aromatic ring. This design element is general and the synthesis
is straightforward, providing ready access to libraries of polyfunctional
fluorophores with long Stokes shifts based on the epicocconone core.
Our structural modifications resulted in analogues with increased
photostability and quantum yields compared with the natural product.
Staining proteomic gels with these new analogues showed significant
lowering of the detection limit and a 30% increase in the number of
low-abundance proteins detected. These epiccoconone analogues will
substantially improve the discovery rate of biomarker needles in the
proteomic haystack.