Issue 32, 2013

The effect of azobenzene cross-linker position on the degree of helical peptide photo-control

Abstract

Photo-switchable α-helical peptides offer a valuable tool to probe protein-biomacromolecule interactions in a spatiotemporally controlled manner. We synthesized a series of 32 residue peptides (AA32 s) with the core structure Ac-W-(E1A2A3A4R5)6-Q-NH2 and introduced the azobenzene based cross-linker BSBCA via reaction with Cys residues spaced at i, i + 7 intervals in different positions along the helix. UV/Vis measurements show that the composition of the photostationary state as well as thermal relaxation rates do not change considerably with changes in cross-linker position. CD analysis shows that photo-control of helix folding/unfolding is most effective when the cross-linker is targeted to the middle of the peptide so long as this segment has a high intrinsic helical propensity. The largest degree of photo-controlled conformational change occurred when a cross-linked central region of high intrinsic helicity was followed on the C-terminal side by a region of lower intrinsic helicity. This indicates the BSBCA cross-linker can act as a nucleation site for N-to-C propagation of a helix. These data help to guide the choice of cross-linking site in larger peptides and proteins where photo-control of conformation is desired.

Graphical abstract: The effect of azobenzene cross-linker position on the degree of helical peptide photo-control

Article information

Article type
Paper
Submitted
05 Apr 2013
Accepted
02 Jul 2013
First published
02 Jul 2013

Org. Biomol. Chem., 2013,11, 5325-5331

The effect of azobenzene cross-linker position on the degree of helical peptide photo-control

A. M. Ali and G. A. Woolley, Org. Biomol. Chem., 2013, 11, 5325 DOI: 10.1039/C3OB40684A

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