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Dmitry Gakamsky "Tryptophan fluorescence for early evaluation of cataracts" in: Biophotonics, Tryptophan and diseases. Eds. LA Sordilo and PP Sordilo. Elsevier Academic Press, 2021, pp: 67-80.

Gakamsky D and Gakamsky A. Tryptophan Fluorescence as a Research and Diagnostics Tool. Fluorescent Biomolecules and Their Building Blocks (FB3) at Glasgow University. 1 July 2018

Gakamsky A, Duncan RR, Howarth NM, Dhillon B, Buttenschön KK, Daly DJ, Gakamsky D. Sci Rep. 2017, 7:40375. doi: 10.1038/srep40375. Tryptophan and Non-Tryptophan Fluorescence of the Eye Lens Proteins Provides Diagnostics of Cataract at the Molecular Level.

Gakamsky D, Gakamsky A. Intrinsic fluorescence of proteins as a medical diagnostic tool. Spectroscopy Europe (2017) 29(3) pp. 6-9.

Borger, J., Zamoyska, R. and Gakamsky, D. M. TCR and CD8 proximity controls the functional response of T cells. Immunol Lett, 2013, 157(1-2):16-22.

Anikeeva N., Gakamsky D.M., Schøller J. and Sykulev Y. Evidence that the density of self peptide-MHC ligands regulates T-cell receptor signaling. Science Signaling. PLoS One. (2012) 7(8):e41466. (PLOSone 2012)

Gakamsky D.M., Dhillon B., Babraj J. Shelton M. and Smith S.D. Exploring the possibility of early cataract diagnostics based on tryptophan fluorescence. J R Soc Interface (2011) 8(64):1616-21.

Gakamsky D.M., Dennis R and Smith S.D. Fluorescence lifetime technology provides efficient protection from false hits in high throughput screening . Anal. Biochem. 409(1) (2010) 89-97.

GakamskyD. M., Lewitzk E., GrellE., SaulquinX., MalissenB, Montero-JulianF., BonnevilleM. and PechtI. Kinetic evidence for a ligand-binding-induced conformational transition in the T cell receptor PNAS, 104 (2007) 42:16639-16644.

Pecht, I. and Gakamsky D. M.. Spatial coordination of CD8 and TCR molecules controls antigen recognition by CD8+ T-cells. FEBS Lett. 579 (2005) 3336-41.

Gakamsky, D. M., Luescher I. F., Pramanik A., Kopito R. B., Lemonnier F., Vogel H., Rigler R., and Pecht I. CD8 Kinetically Promotes Ligand Binding to the T-Cell Antigen Receptor. Biophys. J. 89 (2005) 2121-33.

Gakamsky D. M., Luescher I. F., Pecht I. T-cell receptor – ligand interaction: A conformational preequilibrium or an induced fit. PNAS 101 (2004) 24: 9063-6

Gakamsky D. M., Davis D. M, Strominger J. L., and Pecht I. Assembly and dissociation of human leukocyte antigen HLA-A2 studied by real-time fluorescence resonance energy transfer. Biochemistry 39 (2000) 36:11163-9.

Gakamsky D. M., Boyd L. F., Margulies D. H., Davis D. M., Strominger J.L. and Pecht I. An allosteric mechanism controls antigen presentation by the H-2Kb complex. Biochemistry 38 (1999) 37:11887-94.

Gakamsky, D. M. Davis D. M. Haas E., Strominger J. L.and Pecht I. Photophysical analysis of class I MHC protein assembly using a Xanthene derivatized b2-microglobulin. Biophys. J. 78 (1999) 1552-60.

Gakamsky D. M., P. J. Bjorkman and I. Pecht Peptide interaction with a class I MHC encoded molecule: allosteric control of the ternary complex stability. Biochemistry 35(1996) 14841:8.

Gakamsky D. M., Haas E., Robbins P., Stromimger J. L. and Pecht I. Selective steady-state and time-resolved fluorescence spectroscopy of HLA-A2-peptide complex. Immunol Lett, 44 (1995) 195-201.