Biology:Photoaffinity labeling

Photoaffinity labeling is a chemoproteomics technique used to attach "labels" to the active site of a large molecule, especially a protein. The "label" attaches to the molecule loosely and reversibly, and has an inactive site which can be converted using photolysis into a highly reactive form, which causes the label to bind more permanently to the large molecule via a covalent bond.^[1]^[2] The technique was first described in the 1970s.^[3] Molecules that have been used as labels in this process are often analogs of complex molecules, in which certain functional groups are replaced with a photoreactive group, such as an azide, a diazirine or a benzophenone.^[4]^[5]^[6]

References

↑ Photoaffinity labeling
↑ Photoaffinity labeling, Gold Book
↑ Ruoho, A. E.; Kiefer, H.; Roeder, P. E.; Singer, S. J. (1973). "The mechanism of photoaffinity labeling". Proceedings of the National Academy of Sciences of the United States of America 70 (9): 2567–2571. doi:10.1073/pnas.70.9.2567. PMID 4517671. Bibcode: 1973PNAS...70.2567R.
↑ Bush, J. T.; Walport, L. J.; McGouran, J. F.; Leung, I. K. H.; Berridge, G. (2013). "The Ugi four-component reaction enables expedient synthesis and comparison of photoaffinity probes". Chemical Science 4 (12): 4115–4120. doi:10.1039/C3SC51708J.
↑ Panov, M. S.; Voskresenska, V. D.; Ryazantsev, M. N.; Tarnovsky, A. N.; Wilson, R. M. (2013). "5-Azido-2-aminopyridine, a New Nitrene/Nitrenium Ion Photoaffinity Labeling Agent That Exhibits Reversible Intersystem Crossing between Singlet and Triplet Nitrenes". Journal of the American Chemical Society 135 (51): 19167–19179. doi:10.1021/ja405637b. PMID 24219134. https://scholarworks.bgsu.edu/chem_pub/182.
↑ Akiyama, S.; Cornwell, M. M.; Kuwano, M.; Pastan, I.; Gottesman, M. M. (1988). "Most drugs that reverse multidrug resistance also inhibit photoaffinity labeling of P-glycoprotein by a vinblastine analog". Molecular Pharmacology 33 (2): 144–147. PMID 2893251.

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[1] Photoaffinity labeling

[2] Photoaffinity labeling, Gold Book

[3] Ruoho, A. E.; Kiefer, H.; Roeder, P. E.; Singer, S. J. (1973). "The mechanism of photoaffinity labeling". Proceedings of the National Academy of Sciences of the United States of America 70 (9): 2567–2571. doi:10.1073/pnas.70.9.2567. PMID 4517671. Bibcode: 1973PNAS...70.2567R.

[4] Bush, J. T.; Walport, L. J.; McGouran, J. F.; Leung, I. K. H.; Berridge, G. (2013). "The Ugi four-component reaction enables expedient synthesis and comparison of photoaffinity probes". Chemical Science 4 (12): 4115–4120. doi:10.1039/C3SC51708J.

[5] Panov, M. S.; Voskresenska, V. D.; Ryazantsev, M. N.; Tarnovsky, A. N.; Wilson, R. M. (2013). "5-Azido-2-aminopyridine, a New Nitrene/Nitrenium Ion Photoaffinity Labeling Agent That Exhibits Reversible Intersystem Crossing between Singlet and Triplet Nitrenes". Journal of the American Chemical Society 135 (51): 19167–19179. doi:10.1021/ja405637b. PMID 24219134. https://scholarworks.bgsu.edu/chem_pub/182.

[6] Akiyama, S.; Cornwell, M. M.; Kuwano, M.; Pastan, I.; Gottesman, M. M. (1988). "Most drugs that reverse multidrug resistance also inhibit photoaffinity labeling of P-glycoprotein by a vinblastine analog". Molecular Pharmacology 33 (2): 144–147. PMID 2893251.

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