References
- Inbar M, Shinitzky M. Decrease in microviscosity of lymphocyte surface membrane associated with stimulation induced by concanavalin A. Eur J Immunol 1975; 5: 166–70
- Nairn R C, Rolland J M, Halliday G M, . Fluorescent probes to monitor early lymphocyte activation. Immunofluorescence and related staining techniques, W Knapp, K Holubar, G Wick, et al. Elsevier/North Holland Biomedical Press, Amsterdam, New York 1978; 57–66
- Lalande M E, Miller R G. Fluorescence flow analysis of lymphocyte activation using Hoechst 33342 dye. J Histochem Cytochem 1979; 27: 394–7
- Nairn R C, Rolland J M. Fluorescent probes to detect lymphocyte activation. Clin Exp Immunol 1980; 39: 1–13
- Nairn R C, Rolland J M. Fluorescent probes to study lymphocyte activation. Endeavour 1981; 5: 167–71
- Nairn R C, Jablonka I M, Rolland J M, et al. Rhodamine as a fluorescent probe of lymphocyte activation. Immunology 1979; 36: 235–40
- Butcher E C, Weissman I L. Direct fluorescent labelling of cells with fluorescein or rhodamine isothiocyanate. I. Technical aspects. J Immunol Methods 1980; 37: 97–108
- Halliday G M, Nairn R C, Pallett M A, Rolland J M, Ward H A. Detection of early lymphocyte activation by the fluorescent cell membrane probe N-phenyl-1-naphthylamine. J Immunol Methods 1979; 28: 381–90
- Rolland J M, Betts R L, Halliday G M, et al. Early changes in Con-canavalin A-stimulated lymphocytes detected by the fluorescent probe N-phenyl-1-naphthylamine. Cell Tissue Res 1981; 214: 119–28
- Rotman B, Papermaster B W. Membrane properties of living mammalian cells as studied by enzymatic hydrolysis of fluorogenic esters. Proc Natl Acad Sci 1966; 55: 134–41
- Rolland J M, Ferrier G R, Nairn R C, Cauchi M N. Acridine orange fluorescence cytochemistry for detecting lymphocyte immunoreac-tivity. J Immunol Methods 1976; 12: 347–54
- Halliday G M, Nairn R C, Rolland J M. Lymphocyte stimulation by Concanavalin A studied by the fluorescent probe acridine orange. Cell Tissue Res 1981; 217: 117–26
- Pallett M A, Rolland J M, Nairn R C. Fluorescent probe assay of early “mixed lymphocyte reaction” to predict allograft survival in mice. Transplantation 1983; 35: 243–8
- Cercek L, Cercek B. Application of the phenomenon of changes in the structuredness of cytoplasmic matrix (SCM) in the diagnosis of malignant disorders: a review. Eur J Cancer 1977; 13: 903–15
- Pritchard J AV, Sutherland W H, Seaman J E, et al. Cancer-specific density changes in lymphocytes after stimulation with phytohaemag-glutin. Lancet 1978; 2: 1275–7
- Pritchard J AV, Sutherland W H, Siddall J E, et al. A clinical assessment of fluorescence polarisation changes in lymphocytes stimulated by phytohaemagglutinin (PHA) in malignant and benign diseases. Eur J Cancer Clin Oncol 1982; 18: 651–9
- Hocking G R, Rolland J M, Nairn R C, et al. Lymphocyte fluorescence polarization changes after phytohemagglutinin stimulation in the diagnosis of colorectal carcinoma. J Natl Cancer Inst 1982; 68: 579–83
- Price G B, McCutcheon M J, Taylor W B, Miller R G. Measurement of cytoplasmic fluorescence depolarization of single cells in a flow system. J Histochem Cytochem 1977; 25: 597–600
- Udkoff R, Norman A. Polarization of fluorescein fluorescence in single cells. J Histochem Cytochem 1979; 27: 49–55
- Bagshawe K D. Workshop on macrophage electrophoretic mobility (MEM) and structuredness of cytoplasmic matrix (SCM) tests. Br J Cancer 1977; 35: 701–4
- Rolland J M, Nairn R C, Nind A P, Pihl E. Significance of lymphocyte fluorescence polarization changes after phytohemagglutinin stimulation in cancer and non-cancerous conditions. J Natl Cancer Inst 1983, (in press)
- Hocking G R. Fluorescent probes to study lymphocyte reactivity. PhD Thesis, Monash University, Melbourne 1982
- Nairn R C. Fluorescent Protein Tracing, 1st ed. Churchill Livingstone, Edinburgh 1962
- Nairn R C. Fluorescent Protein Tracing, 4th ed. Churchill Livingstone, Edinburgh 1976