SEARCH

SEARCH BY CITATION

References

  • 1
    Audit, M., Barbier, M., Soyer-Gobillard, M.O., Albert, M., Geraud, M.L., Nicolas, G. (1996) Cyclin B (p56cdc13) localization in the yeast Schizosaccharomyces pombe: an ultrastructural and immunocytochemical study . Biol. Cell, 86, 1 10.
  • 2
    Benchimol, M. (1994) Fine structure of Tritrichomonas foetus as seen using cryotechniques. Microsc. Res. Tech. 29, 37 46.
  • 3
    Carlemalm, E., Garavito, R.M., Villiger, W. (1982) Resin development for electron microscopy and an analysis of embedding at low temperature. J. Microsc. 126, 123 143.
  • 4
    Echlin, P. (1992) Low Temperature Microscopy and Analysis. Plenum Press, New York.
  • 5
    Edelmann, L. (1991) Freeze-substitution and the preservation of diffusible ions. J. Microsc. 161, 217 228.
  • 6
    Eggli, E.S. & Graber, W. (1994) Improved ultrastructural preservation of rat ciliary body after high pressure freezing and freeze substitution: a perspective view based upon comparison with tissue processed according to a conventional protocol. or by osmium tetroxide/microwave fixation. Microsc. Res. Tech. 29, 11 22.
  • 7
    Eppenberger-Eberhardt, M., Aigner, S., Donath, M.Y., Kurer, V., Walther, P., Zuppinger, C., Schaub, M.C., Eppenberger, H.M. (1997) IGF-1 and bFGF differentially influence atrial natriuretic factor and smooth muscle actin expression in cultured atrial compared to ventricular adult rat cardiomyocytes. J. Mol. Cell. Cardiol. 29, 2027 2039.
  • 8
    Erk, I., Michel, M., Lepault, J. (1996) Electron cryo-microscopy of vitrified bulk biological specimens: ideal and real structures of water–lipid phases. J. Microsc. 182, 15 23.
  • 9
    Favre, R., Hermann, R., Cermola, M., Hohenberg, H., Müller, M., Bazzicalupo, P. (1995) Immuno-gold-labelling of CUT-1, CUT-2 and cuticlin epitopes in Caenorhabditis elegans and Heterorhabditis sp. processed by high pressure freezing and freeze-substitution. J. Submicrosc. Cytol. Pathol. 27, 341 347.
  • 10
    Griffiths, G. (1993) Fine Structure Immunocytochemistry. Springer-Verlag, Berlin.
  • 11
    Hohenberg, H., Mannweiler, K., Müller, M. (1994) High-pressure freezing of cell suspensions in cellulose capillary tubes. J. Microsc. 175, 34 43.
  • 12
    Hohenberg, H., Tobler, M., Müller, M. (1996) High-pressure freezing of tissue obtained by fine-needle biopsy. J. Microsc. 183, 133 139.
  • 13
    Humbel, B., Marti, T., Müller, M. (1983) Improved structural preservation by combining freeze-substitution and low temperature embedding. Beitr. Elektronenmikrosk. Directabb. Oberfl. 16, 585 594.
  • 14
    Humbel, B.M. & Müller, M. (1986) Freeze-substitution and low temperature embedding. The Science of Biological Specimen Preparation (ed. by M. Müller, R. P. Becker, A. Boyd and J. J. Wolosewick), pp. 175 183. SEM, AMF O'Hare, Chicago.
  • 15
    Kaneko, Y. & Walther, P. (1995) Comparison of ultrastructure of germinating pea leaves prepared by high-pressure freezing, freeze substitution and conventional chemical fixation. J. Electron Microsc. Tokyo 44, 104 109.
  • 16
    Kellenberger, E., Durrenberger, M., Villiger, W., Carlemalm, E., Wurtz, M. (1987) The efficiency of immunolabel on Lowicryl sections compared to theoretical predictions. J. Histochem. Cytochem. 35, 959 969.
  • 17
    Linner, J.G., Livesey, S.A., Harrison, D., Steiner, A.L. (1986) A new technique for removal of amorphous phase tissue water without ice crystal damage: a preparative method for ultrastructural analysis and immunoelectron microscopy. J. Histochem. Cytochem. 34, 1123 1135.
  • 18
    McDonald, K. & Morphew, M.K. (1993) Improved preservation of ultrastructure in difficult-to-fix organisms by high pressure freezing and freeze substitution: I. Drosophila melanogaster and Strongylocentrotus purpuratus embryos. Microsc. Res. Tech. 24, 465 473.
  • 19
    Michel, M., Hillmann, T., Müller, M. (1991) Cryosectioning of plant material frozen at high pressure. J. Microsc. 163, 3 18.
  • 20
    Monaghan, P., Perusinghe, N.P., Carlile, G., Evans, W.H. (1994) Rapid modulation of gap junction expression in mouse mammary gland during pregnancy, lactation and involution. J. Histochem. Cytochem. 42, 931 938.
  • 21
    Monaghan, P. & Robertson, D. (1990) Freeze-substitution without aldehyde or osmium fixatives: ultrastructure and implications for immunocytochemistry. J. Microsc. 158, 355 364.
  • 22
    Monaghan, P., Whitehead, R.H., Perusinghe, N., O'Hare, M.J. (1985) An immunocytochemical and ultrastructural study of heterogeneity in the human breast carcinoma cell line PMC42. Cancer Res. 45, 5088 5097.
  • 23
    Müller, M., Marti, T., Kriz, S.R. (1980) Improved structural preservation by freeze-substitution. Proceedings of the 7th European Congress of Electron Microscopy (ed. by P. Brederoo and W. de Priester), Vol. 2, pp. 720 721.
  • 24
    Palsgard, E., Lindh, U., Roomans, G.M. (1994) Comparative study of freeze-substitution techniques for X-ray microanalysis of biological tissue. Microsc. Res. Tech. 28, 254 258.
  • 25
    Richter, K. (1994) High-density morphologies of ice in high-pressure frozen biological specimens. Ultramicroscopy, 53, 237 249.
  • 26
    Robertson, D., Monaghan, P., Clarke, C., Atherton, A.J. (1992) An appraisal of low temperature embedding by progressive lowering of temperature into Lowicryl HM20 for immunocytochemical studies. J. Microsc. 168, 85 100.
  • 27
    Sartori, N., Richter, K., Dubochet, J. (1993) Vitrification depth can be increased more than 10-fold by high pressure freezing. J. Microsc. 172, 55 61.
  • 28
    Steinbrecht, R.A. & Müller, M. (1987) Freeze-substitution and freeze-drying. Cryotechniques in Biological Electron Microscopy (ed. by R. A. Steinbrecht and K. Zierold), pp. 149 172. Springer-Verlag, Berlin.
  • 29
    Studer, D., Hennecke, H., Müller, M. (1992) High pressure freezing of soybean nodules leads to an improved preservation of ultrastructure. Planta, 188, 155 163.
  • 30
    Studer, D., Michel, M., Müller, M. (1989) High pressure freezing comes of age. Scanning Microsc. Supplement, 3, 253 269.
  • 31
    Studer, D., Michel, M., Wohlwend, M., Hunziker, E.B., Buschmann, M.D. (1995) Vitrification of articular cartilage by high-pressure freezing. J. Microsc. 179, 321 332.
  • 32
    Szczesny, P.J., Walther, P., Müller, M. (1996) Light damage in rod outer segments — the effects of fixation on ultrastructure. Curr. Eye Res. 15, 807 814.
  • 33
    Tokuyasu, K.T. (1986) Immunocryoultramicrotomy. J. Microsc. 143, 139 149.
  • 34
    Van Harreveld, A. & Crowell, J. (1964) Electron microscopy after rapid freezing on a metal surface and substitution fixation. Anat. Rec. 149, 381 386.
  • 35
    Weibull, C. & Christiansson, A. (1986) Extraction of protein and lipids during low temperature embedding of biological material for electron microscopy. J. Microsc. 142, 79 86.
  • 36
    Whitehead, R.H., Bertoncello, I., Webber, L.M., Pedersen, J.S. (1983) A new human breast carcinoma cell line (PMC42) with stem cell characteristics. I morphological characterisation. J. Natl. Cancer Inst. 71, 1193 1203.
  • 37
    Young, R.D., Lawrence, P.A., Duance, V.C., Aigner, T., Monaghan, P. (1995) Immunolocalization of type III collagen in human articular cartilage prepared by high-pressure cryofixation, freeze-substitution, and low-temperature embedding. J. Histochem. Cytochem. 43, 421 427.
  • 38
    Zhang, G.F., Driouich, A., Staehelin, L.A. (1993) Effect of monensin on plant Golgi: re-examination of the monensin-induced changes in cisternal architecture and functional activities of the Golgi apparatus of sycamore suspension-cultured cells. J. Cell Sci. 104, 819 831.