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Abstract
The isolation of biomolecules in high vacuum enables experiments on fragile species in the absence of a perturbing environment. Since many molecular properties are influenced by local electric fields, here we seek to gain control over the number of charges on a biopolymer. Here, we present the design, modelling and synthesis of photoactive molecular tags, their labelling to peptides and proteins as well as their photochemical validation in solution and in the gas phase. The tailored tags can be selectively cleaved off, at a well-defined time and without the need for any external charge transferring agents. The energy of a single or two green photons can already trigger the process and it is soft enough to ensure the integrity of the released biomolecular cargo. We exploit differences in the cleavage pathways in solution and in vacuum, and observe a surprising robustness in upscaling the approach from a model system to genuine proteins. The interaction wavelength of 532 nm is compatible with various biomolecular entities such as oligonucleotides or oligosaccharides.
Supplementary materials
Title
Synthesis, CID, photochemistry and DFT-calculations
Description
Preparation and characterization of compounds
CID-experiments;
Fluorescence lifetimes, quantum yields and excitation spectra;
Solution phase photocleavage;
Experimental set-up for gas-phase cleavage;
Potential energy surface scans;
HOMO-LUMO transition energies;
Calculated reaction energies;
Cartesian Coodinates;
Additional discussion
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