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LITERATURE CITED

  • 1
    Förster T. Zwischenmolekulare Energiewanderung und Fluoreszenz. Ann Phys 1948; 2: 5575.
  • 2
    Stryer L, Thomas DD, Carlsen WF. Fluorescence energy transfer measurements of distances in rhodopsin and the purple membrane protein. Methods Enzymol 1982; 81: 668678.
  • 3
    Matyus L. Fluorescence resonance energy transfer measurements on cell surfaces. A spectroscopic tool for determining protein interactions. J Photochem Photobiol B 1992; 12: 323337.
  • 4
    Szollosi J, Damjanovich S, Matyus L. Application of fluorescence resonance energy transfer in the clinical laboratory: routine and research. Cytometry 1998; 34: 159179.
  • 5
    Vereb G, Matko J, Szollosi J. Cytometry of fluorescence resonance energy transfer. Methods Cell Biol 2004; 75: 105152.
  • 6
    Damjanovich S, Vereb G, Schaper A, Jenei A, Matko J, Starink JP, Fox GQ, rndt-Jovin DJ, Jovin TM. Structural hierarchy in the clustering of HLA class I molecules in the plasma membrane of human lymphoblastoid cells. Proc Natl Acad Sci USA 1995; 92: 11221126.
  • 7
    Lidke DS, Nagy P, Barisas BG, Heintzmann R, Post JN, Lidke KA, Clayton AH, rndt-Jovin DJ, Jovin TM. Imaging molecular interactions in cells by dynamic and static fluorescence anisotropy (rFLIM and emFRET). Biochem Soc Trans 2003; 31: 10201027.
  • 8
    Nagy P, Bene L, Balazs M, Hyun WC, Lockett SJ, Chiang NY, Waldman F, Feuerstein BG, Damjanovich S, Szollosi J. EGF-induced redistribution of erbB2 on breast tumor cells: flow and image cytometric energy transfer measurements. Cytometry 1998; 32: 120131.
  • 9
    Gu Y, Di WL, Kelsell DP, Zicha D. Quantitative fluorescence resonance energy transfer (FRET) measurement with acceptor photobleaching and spectral unmixing. J Microsc 2004; 215: 162173.
  • 10
    Jares-Erijman EA, Jovin TM. FRET imaging. Nat Biotechnol 2003; 21: 13871395.
  • 11
    Damjanovich S, Matko J, Matyus L, Szabo GJr, Szollosi J, Pieri JC, Farkas T, Gaspar RJr. Supramolecular receptor structures in the plasma membrane of lymphocytes revealed by flow cytometric energy transfer, scanning force- and transmission electron-microscopic analyses. Cytometry 1998; 33: 225233.
  • 12
    Dornan S, Sebestyen Z, Gamble J, Nagy P, Bodnar A, Alldridge L, Doe S, Holmes N, Goff LK, Beverley P, Szollosi J, Alexander DR. Differential association of CD45 isoforms with CD4 and CD8 regulates the actions of specific pools of p56lck tyrosine kinase in T cell antigen receptor signal transduction. J Biol Chem 2002; 277: 19121918.
  • 13
    Vamosi G, Bodnar A, Vereb G, Jenei A, Goldman CK, Langowski J, Toth K, Matyus L, Szollosi J, Waldmann TA, Damjanovich S. IL-2 and IL-15 receptor alpha-subunits are coexpressed in a supramolecular receptor cluster in lipid rafts of T cells. Proc Natl Acad Sci USA 2004; 101: 1108211087.
  • 14
    Diermeier S, Horvath G, Knuechel-Clarke R, Hofstaedter F, Szollosi J, Brockhoff G. Epidermal growth factor receptor coexpression modulates susceptibility to Herceptin in HER2/neu overexpressing breast cancer cells via specific erbB-receptor interaction and activation. Exp Cell Res 2005; 304: 604619.
  • 15
    Nagy P, Jenei A, Damjanovich S, Jovin TM, Szolosi J. Complexity of signal transduction mediated by ErbB2: clues to the potential of receptor-targeted cancer therapy. Pathol Oncol Res 1999; 5: 255271.
  • 16
    Nagy P, Vereb G, Sebestyen Z, Horvath G, Lockett SJ, Damjanovich S, Park JW, Jovin TM, Szollosi J. Lipid rafts and the local density of ErbB proteins influence the biological role of homo- and heteroassociations of ErbB2. J Cell Sci 2002; 115: 42514262.
  • 17
    Szollosi J, Nagy P, Sebestyen Z, Damjanovich S, Park JW, Matyus L. Applications of fluorescence resonance energy transfer for mapping biological membranes. J Biotechnol 2002; 82: 251266.
  • 18
    Vereb G, Szollosi J, Matko J, Nagy P, Farkas T, Vigh L, Matyus L, Waldmann TA, Damjanovich S. Dynamic, yet structured: the cell membrane three decades after the Singer-Nicolson model. Proc Natl Acad Sci USA 2003; 100: 80538058.
  • 19
    Bagossi P, Horvath G, Vereb G, Szollosi J, Tozser J. Molecular modeling of nearly full-length ErbB2 receptor. Biophys J 2005; 88: 13541363.
  • 20
    Gaspar RJr, Bagossi P, Bene L, Matko J, Szollosi J, Tozser J, Fesus L, Waldmann TA, Damjanovich S. Clustering of class I HLA oligomers with CD8 and TCR: three-dimensional models based on fluorescence resonance energy transfer and crystallographic data. J Immunol 2001; 166: 50785086.
  • 21
    Szentesi G, Horvath G, Bori I, Vamosi G, Szollosi J, Gaspar R, Damjanovich S, Jenei A, Matyus L. Computer program for determining fluorescence resonance energy transfer efficiency from flow cytometric data on a cell-by-cell basis. Comput Methods Programs Biomed 2004; 75: 201211.
  • 22
    Jovin TM, Arndt-Jovin DJ. Digital imaging of fluorescence resonance energy transfer. Applications in cell biology. Cell structure and function by microspectrofluorimetry. 1989: 99115.
  • 23
    Jovin TM, Arndt-Jovin DJ. FRET microscopy: digital imaging of fluorescence energy transfer. Application in cell biology. In: KohenE, PloemJS, HirschbergJG, editors. Cell structure and function by microspectrofluorimetry. Orlando: Academic Press; 1989. p 99117.
  • 24
    Young RM, Arnette JK, Roess DA, Barisas BG. Quantitation of fluorescence energy transfer between cell surface proteins via fluorescence donor photobleaching kinetics. Biophys J 1994; 67: 881888.
  • 25
    Bodnar A, Jenei A, Bene L, Damjanovich S, Matko J. Modification of membrane cholesterol level affects expression and clustering of class I HLA molecules at the surface of JY human lymphoblasts. Immunol Lett 1996; 54: 221226.
  • 26
    Bodnar A, Bacso Z, Jenei A, Jovin TM, Edidin M, Damjanovich S, Matko J. Class I HLA oligomerization at the surface of B cells is controlled by exogenous beta(2)-microglobulin: implications in activation of cytotoxic T lymphocytes. Int Immunol 2003; 15: 331339.
  • 27
    Szabo GJr, Weaver JL, Pine PS, Rao PE, Aszalos A. Cross-linking of CD4 in a TCR/CD3-juxtaposed inhibitory state: a pFRET study. Biophys J 1995; 68: 11701176.
  • 28
    Nagy P, Vereb G, Sebestyén Z, Horváth G, Lockett SJ, Damjanovich S, Park JW, Jovin TM, Szöllosi J. Lipid rafts and the local density of ErbB proteins influence the biological role of homo- and heteroassociations of ErbB2. J Cell Sci 2002; 115.
  • 29
    Bastiaens PIH, Jovin TM. Fluorescence resonance energy transfer microscopy. Cell biology: a laboratory handbook. Volume 3. New York: Academic Press; 1998. p 136146.
  • 30
    Gadella TWJ, Jovin TM. Fast algorithms for the analysis of single and double exponential decay curves with a background term. Application to time-resolved imaging microscopy. Bioimaging 1997; 5: 1939.
  • 31
    Nagy P, Vamosi G, Bodnar A, Lockett SJ, Szollosi J. Intensity-based energy transfer measurements in digital imaging microscopy. Eur Biophys J 1998; 27: 377389.
  • 32
    Periasamy A. Fluorescence resonance energy transfer microscopy: a mini review. J Biomed Opt 2001; 6: 287291.
  • 33
    Bene L, Szentesi G, Matyus L, Gaspar R, Damjanovich S. Nanoparticle energy transfer on the cell surface. J Mol Recogn 2005; 18: 236253.
  • 34
    Szöllosi J, Horejsi V, Bene L, Angelisova P, Damjanovich S. Supramolecular complexes of MHC class I, MHC class II, CD20, and tetraspan molecules (CD53, CD81, and CD82) at the surface of a B cell line JY. J Immunol 1996; 157.
  • 35
    Jovin TM, Arndt-Jovin DJ, Marriott G, Clegg RM, bert- Nicoud M, Bestyen Z. Distance, wavelength and time: the versatile 3rd dimensions in light emission microscopy. In: HermanB, JacobsonK, editors. Optical microscopy for biology. New York: Wiley-Liss; 1990. p 575602.
  • 36
    Song L, Hennink EJ, Young IT, Tanke HJ. Photobleaching kinetics of fluorescein in quantitative fluorescence microscopy. Biophys J 1995; 68: 25882600.
  • 37
    Song L, Varma CA, Verhoeven JW, Tanke HJ. Influence of the triplet excited state on the photobleaching kinetics of fluorescein in microscopy. Biophys J 1996; 70: 29592968.
  • 38
    Song L, van Gijlswijk RP, Young IT, Tanke HJ. Influence of fluorochrome labeling density on the photobleaching kinetics of fluorescein in microscopy. Cytometry 1997; 27: 213223.
  • 39
    William HP, Brian PF, Saul AT, William TV. Numeriacla recipes in C. Cambridge: Cambridge University Press; 2005.
  • 40
    Bastiaens PI, Majoul IV, Verveer PJ, Soling HD, Jovin TM. Imaging the intracellular trafficking and state of the AB5 quaternary structure of cholera toxin. EMBO J 1996; 15: 42464253.
  • 41
    Panyi G, Vamosi G, Bacso Z, Bagdany M, Bodnar A, Varga Z, Gaspar R, Matyus L, Damjanovich S. Kv1.3 potassium channels are localized in the immunological synapse formed between cytotoxic and target cells. Proc Natl Acad Sci USA 2004; 101: 12851290.
  • 42
    Vereb G, Meyer CK, Jovin TM. Novel microscope-based approaches for the investigation of protein-protein interactions in signal transduction. In: HeilmeyerLMGJr, editor. Interacting protein domains, their role in signal and energy transduction. Volume H102. New York: Springer-Verlag; 1997. pp. 4952.