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Mycologia Volume 85, 1993 - Issue 5
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Fluorescence Confocal Microscopy: Applications in Fungal Cytology

Y. H. KwonDepartment of Plant Pathology, University of California, Berkeley, California94720
,
K. S. WellsBiosciences Division, Molecular Probes, Inc., Eugene, Oregon97402
&
H. C. HochDepartment of Plant Pathology, Cornell University, New York State Agricultural Experiment Station, Geneva, New York14456
Pages 721-733 | Accepted 04 Jun 1993, Published online: 29 Aug 2018

LITERATURE CITED

  • Agard, D. A., Y. Hiraoka, D. Shaw, and J. W. Sedat. 1989. Fluorescence microscopy in three dimensions. Meth. Cell Biol. 30: 353–377.
  • Aist, J. R., and C. J. Bayles. 1991. Ultrastructural basis of mitosis in the fungus Nectria haematocca: sexual stage of Fusarium solani I. Asters. Protoplasma 161: 111–122.
  • Amos, W. B., and J. Roger. 1989. Scanning confocal micrograph of chick retina labeled with fluorescein and Texas Red conjugated antibodies. In: Molecular probes handbook of fluorescent probes and research chemicals. Molecular Probes, Inc., Eugene, Oregon. (Cover photo)
  • Amos, W. B., and J. Roger, J. G. White, and M. Fordham. 1987. Use of confocal imaging in the study of biological structure. Appl. Optics 26: 3239–3234.
  • Aris, J. P., and G. Blobel. 1989. Yeast nuclear envelope proteins cross react with an antibody against mammalian pore complex proteins. J. Cell Biol. 108: 2059–2068.
  • Boyde, A. 1985. Stereoscopic images in confocal (tandem scanning) microscopy. Science 230: 1270–1272.
  • Brakenhoff, G. J., P. Blom, and P. Barends. 1979. Confocal scanning light microscopy with high aperture immersion lenses. J. Microscop. 117: 219–232.
  • Brakenhoff, G. J., P. Blom, and P. Barends, H. T. M. Van Der Voort, E. A. Van Spronsen, and N. Nanninga. 1989. Three-dimensional imaging in fluorescence by confocal scanning microscopy. J. Microscop. 153: 151–159.
  • Brakenhoff, G. J., P. Blom, and P. Barends, H. T. M. Van Der Voort, E. A. Van Spronsen, and N. Nanninga, and K. Visscher. 1990. Novel confocal imaging and visualization techniques. In: Micro 90: proceedings of the Royal Microscopical Society conference, London, July 1990. Ed., A. Hilger. Royal Microscopical Society, London, United Kingdom.
  • Butt, T. M., H. C. Hoch, R. C. Staples, and R. J. St. Leger. 1989. The use of fluorochromes in the study of fungal cytology and differentiation. Topical review. Exp. Mycol. 13: 303–320.
  • Calpouzos, L., and H.-S. Chang. 1971. Fungus spore germination inhibited by blue and far red radiation. Pl. Physiol. 47: 729–730.
  • Carlsson, K., and A. Liljeborg. 1989. A confocal laser microscope scanner for digital recording of optical serial sections. J. Microscop. 153: 171–180.
  • Carlsson, K., and A. Liljeborg, P. Wallen, and L. Brodin. 1989. Three-dimensional imaging of neurons by confocal fluorescence microscopy. J. Microscop. 155: 15–26.
  • Cox, I. J., and C. J. R. Sheppard. 1983. Scanning optical microscope incorporating a digital frame-store and microcomputer. Appl. Optics 22: 1474–1478.
  • Cox, I. J., and C. J. R. Sheppard, and T. Wilson. 1982. Super-resolution by confocal fluorescent microscopy. Optik 60: 391–396.
  • Cremer, C., and T. Cremer. 1978. Considerations on a laser-scanning microscope with high resolution and depth of field. Microscop. Acta. 81: 31–44.
  • Denk, W., J. H. Strickler, and W. W. Webb. 1990. Two-photon laser scanning fluorescence microscopy. Science 248: 73–76.
  • Hamilton, D. K., and T. Wilson. 1984. Two-dimensional phase imaging in the scanning optical microscope. Appl. Optics 23: 348–352.
  • Hardham, A. R., F. Gubler, J. Duniec, and J. Elliott. 1991. A review of the methods for the production of monoclonal antibodies to study zoosporic plant pathogens. J. Microscop. 162: 305–318.
  • Haugland, R. P. 1992. Molecular probes handbook of fluorescent probes and research chemicals. Molecular Probes, Inc., Eugene, Oregon.
  • Hoch, H. C., and R. C. Staples. 1983a. Ultrastructural organization of the non-differentiated uredospore germling of Uromyces phaseoli variety typica. Mycologia 75: 795–824.
  • Hoch, H. C., and R. C. Staples. 1983b. Visualization of actin in situ by rhodamine-conjugated phalloin in the fungus Uromyces phaseoli. Eur. J. Cell Biol. 32: 52–58.
  • Hoch, H. C., and R. C. Staples. 1985. The microtubule cytoskeleton in hyphae of Uromyces phaseoli germlings: its relationship to the region of nucleation and to the F-actin cytoskeleton. Protoplasma 124: 112–122.
  • Howard, R. J. 1981. Ultrastructural analysis of hyphal tip cell growth in fungi: Spitzenkörper cytoskeleton and endomembranes after freeze-substitution. J. Cell Sci. 48: 89–103.
  • Hyde, G. J., and A. K. Hardham. 1992. Confocal microscopy of microtubule arrays in cryosectioned sporangia of Phytophthora cinnamomi. Exp. Mycol. 16: 207–218.
  • Hyde, G. J., and A. K. Hardham. 1993. Microtubules regulate the generation of polarity in zoospores of Phytophthora cinnamomi. Eur. J. Cell Biol. (In press)
  • Kanbe, T., I. Kobayashi, and K. Tanaka. 1989. Dynamics of cytoplasmic organelles in the cell cycle of the fission yeast Schizosaccharomyces pombe. Three-dimensional reconstruction from serial sections. J. Cell Sci. 94: 647–656.
  • Kobori, H., N. Yamada, A. Taki, and M. Osumi. 1989. Actin is associated with the formation of the cell wall in reverting protoplasts of the fission yeast Schizosaccharomyces pombe. J. Cell Sci. 94: 635–646.
  • Koester, C. J. 1980. A scanning mirror microscope with optical sectioning characteristics: applications in ophthalmology. Appl. Optics 19: 1749–1757.
  • Kwon, Y. H., and H. C. Hoch. 1991. Temporal and spatial dynamics of appressorium formation in Uromyces appendiculatus. Exp. Mycol. 15: 116–131.
  • Kwon, Y. H., and H. C. Hoch, and J. R. Aist. 1991a. Initiation of appressorium formation in Uromyces appendiculatus: organization of the apex, and the responses involving microtubules and apical vesicles. Canad. J. Bot. 69: 2560–2573.
  • Kwon, Y. H., and H. C. Hoch, and J. R. Aist, and R. C. Staples. 1991b. Cytoskeletal organization in Uromyces urediospore germling apices during appressorium formation. Protoplasma 165: 37–50.
  • Lichtman, J. W., W. J. Sunderland, and R. S. Wilkinson. 1989. High-resolution imaging of synaptic structure with a simple confocal microscope. New Biol. 1: 75–82.
  • Lloyd, C. W., C. J. Venverloo, K. C. Goodbody, and P. J. Shaw. 1992. Confocal laser microscopy and three-dimensional reconstruction of nucleus-associated microtubules in the division plane of vacuolated plant cells. J. Microscop. 166: 99–109.
  • McCauley, M. M., and P. K. Hepler. 1990. Visualization of the endoplasmic reticulum in living buds and branches of the moss Funaria hygrometrica by confocal laser scanning microscopy. Development 109: 753–764.
  • Minsky, M. 1961. Microscopy apparatus. U.S. Patent 3013467.
  • Minsky, M.. 1988. Memoir on inventing the confocal scanning microscope. Scanning 10: 128–138.
  • Petran, M., M. Hadravsky, M. D. Egger, and R. Galambos. 1968. Tandem-scanning reflected-light microscopy. J. Opt. Soc. Amer. 58: 661–664.
  • Powell, M. J., and S. Roychoudhury. 1992. Ultrastructural organization of Rhizophlyctis harderi zoospores and redefinition of the type I microbody lipid globule complex. Canad. J. Bot. 70: 750–761.
  • Quader, H. 1990. Formation and disintegration of cisterne of the endoplasmic reticulum visualized in live cells by conventional fluorescence and confocal laser scanning microscopy: evidence for the involvement of calcium and the cytoskeleton. Protoplasma 155: 166–175.
  • Read, N. D., W. T. G. Allen, H. Knight, M. R. Knight, R. Malho, A. Russel, P. S. Shacklock, and A. J. Trewavas. 1992b. Imaging and measurement of cytosolic free calcium in plant and fungal cells. J. Microscop. 166: 57–86.
  • Read, N. D., W. T. G. Allen, H. Knight, M. R. Knight, R. Malho, A. Russel, P. S. Shacklock, and A. J. Trewavas, H. Knight, and A. J. Trewavas. 1992a. Fluorescence ratio imaging and confocal microscopy of calcium in filamentous fungi. Binary Computing in Microbiol. 4: 50–52.
  • Roberson, R. W. 1992. The actin cytoskeleton in hyphal cells of Sclerotium rolfsii. Mycologia 84: 41–51.
  • Roberson, R. W., and M. S. Fuller. 1988. Ultrastructural aspects of the hyphal tip of Sclerotium rolfsii preserved by freeze substitution. Protoplasma 146: 143–149.
  • Runeberg, P., M. Raudaskoski, and I. Virtanen. 1986. Cytoskeletal elements in the hyphae of the homobasidiomycete Schizophyllum commune visualized with indirect immunofluorescence and NBD-phallacidin. Eur. J. Cell Biol. 41: 25–32.
  • Salo, V., S. S. Niini, I. Virtanen, and M. Raudaskoski. 1989. Comparative immunocytochemistry of the cytoskeleton in filamentous fungi with dikaryotic and multinucleate hyphae. J. Cell Sci. 94: 11–24.
  • Sandison, D. R., and W. W. Webb. 1993. Background rejection and optimization of signal-to-noise in confocal microscopy. In: Three-dimensional confocal microscopy. Eds., J. K. Stevens, L. R. Mills, and J. E. Trogadis. Academic Press, Inc., Orlando, Florida. (In press)
  • Shaw, P., M. Highett, and D. Rawlins. 1992. Confocal microscopy and image processing in the study of plant nuclear structure. J. Microscop. 166: 87–97.
  • Sheppard, C. J. R., and A. Choudhury. 1977. Image formation in the scanning microscope. Opt. Acta 24: 1051–1073.
  • Shotton, D. M. 1989. Confocal scanning optical microscopy and its applications for biological specimens. J. Cell Sci. 94: 175–206.
  • Shuman, H. 1988. Contrast in confocal scanning microscopy with a finite detector. J. Microscop. 149: 67–71.
  • Suzuki, T., and Y. Horikawa. 1986. Development of real-time scanning laser microscope for biological use. Appl. Optics 25: 4115–4121.
  • Tang, X., S. A. Lancelle, and P. K. Hepler. 1989. Fluorescence microscopic localization of actin in pollen tubes: comparison of actin antibody and phalloidin staining. Cell Motil. Cytoskel. 12: 216–224.
  • Tucker, B. E., H. C. Hoch, and R. C. Staples. 1986. The involvement of F-actin in Uromyces cell differentiation: the effects of cytochalasin E and phalloidin. Protoplasma 135: 88–101.
  • Van Der Voort, H. T. M., and G. J. Brakenhoff. 1990. 3-D image formation in high-aperture fluorescence confocal microscopy: a numerical analysis. J. Microscop. 158: 43–54.
  • Van Der Voort, H. T. M., and G. J. Brakenhoff, and M. W. Baarslag. 1989. Three-dimensional visualization methods for confocal microscopy. J. Microscop. 153: 123–132.
  • Van Der Voort, H. T. M., and G. J. Brakenhoff, and M. W. Baarslag, J. A. Valkenburg, and N. Nanninga. 1985. Design and use of a computer controlled confocal microscope for biological applications. Scanning 7: 66–78.
  • Verheijen, R., H. J. H. Kuijpers, R. O. Schlingemann, A. L. M. Boehmer, R. Van Driel, G. J. Brakenhoff, and F. C. S. Ramaekers. 1989. Ki-67 detects a nuclear matrix-associated proliferation-related antigen I. Intracellular localization during interphase. J. Cell Sci. 92: 123–130.
  • Wells, K. S., and I. D. Johnson. 1993. Fluorescent labels for confocal microscopy. In: Three-dimensional confocal microscopy. Eds., J. K. Stevens, L. R. Mills, and J. E. Trogadis. Academic Press, Inc., Orlando, Florida. (In press)
  • Wells, K. S., and I. D. Johnson, D. R. Sandison, J. Strickler, and W. W. Webb. 1990. Quantitative fluorescence imaging with laser scanning confocal microscopy. Pp. 27–39. In: The handbook of biological confocal microscopy. Ed., J. Pawley. Plenum Press, New York.
  • White, J. G., W. B. Amos, and M. Fordham. 1987. An evaluation of confocal versus conventional imaging of biological structures by fluorescence light microscopy. J. Cell Biol. 105: 41–48.
  • Wijnaendts Van Resandt, R. W., H. J. B. Marsman, R. Kaplan, J. Davoust, E. H. K. Stelzer, and R. Stricker. 1985. Optical fluorescence microscopy in three dimensions: microtomoscopy. J. Microscop. 138: 29–34.
  • Williams, D. A., S. H. Cody, C. A. Gehring, R. W. Parish, and P. J. Harris. 1990. Confocal imaging of ionized calcium in living plant cells. Cell Calcium 11: 291–297.
  • Wilson, T. 1989a. Optical scanning in confocal fluorescent microscopes. J. Microscop. 154: 143–156.
  • Wilson, T.. 1989b. Three-dimensional imaging in confocal systems. J. Microscop. 153: 161–169.
  • Wilson, T., and C. J. R. Sheppard. 1984. Theory and practice of scanning optical microscopy. Academic Press, London, United Kingdom.
  • Wright, S. J., and G. Schatten. 1991. Confocal fluorescence microscopy and three-dimensional reconstruction. J. Electron Microscopy Techn. 18: 2–10.
  • Wright, S. J., and G. Schatten, J. S. Walker, H. Schatten, C. Simerly, J. J. McCarthy, and G. Schatten. 1989. Confocal fluorescence microscopy with the tandem scanning light microscope. J. Cell Sci. 94: 617–624.
  • Xiao, G. Q., T. R. Corle, and G. S. Kino. 1988. Real-time confocal scanning optical microscope. Appl. Phys. Lett. 53: 716–718.

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