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Mycologia Volume 79, 1987 - Issue 3
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Articles

Chemically Induced Appressoria in Uromyces Appendiculatus are Formed Aerially, Apart from the Substrate

H. C. HochDepartment of Plant Pathology, New York State Agricultural Experiment Station, Cornell University, Geneva, New York14456
,
R. C. StaplesBoyce Thompson Institute for Plant Research, Ithaca, New York14853
&
T. BourettDepartment of Plant Pathology, New York State Agricultural Experiment Station, Cornell University, Geneva, New York14456
Pages 418-424 | Accepted 04 Dec 1986, Published online: 12 Sep 2018

LITERATURE CITED

  • French, R. C., C. L. Graham, A. W. Gale, and R. K. Long. 1977. Structural and exposure time requirements for chemical stimulation of germination of uredospores of Uromycesphaseoli. J. Agric. Food Chem. 25: 84–88.
  • Hoch, H. C., and R. C. Staples. 1983a. Visualization of actin in situ by rhodamine-conjugated phalloin in the fungus Uromyces phaseoli. Europ. J. Cell Biol. 32: 52–58.
  • Hoch, H. C., and R. C. Staples. 1983b. Ultrastructural organization of the non-differentiated uredospore germ- ling of Uromyces phaseoli variety typica. Mycologia 75: 795–824.
  • Hoch, H. C., and R. C. Staples. 1984. Evidence that cAMP initiates nuclear division and infection structure formation in the bean rust fungus, Uromyces phaseoli. Exper. Mycol. 8: 37–46.
  • 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.
  • Hoch, H. C., and R. C. Staples, T. M. Bourett, and R. C. Staples. 1986. Inhibition of cell differentiation in Uromyces with D2O and taxol. Europ. J. Cell Biol. 41: 290–297.
  • Kaminskyj, S., and A. W. Day. 1984. Chemical induction of infection structures by rust fungi. I. Sugar and complex media. Exper. Mycol. 8: 63–72.
  • Sawhney, B. L., and I. Zelitch. 1969. Direct determination of potassium ion accumulation in guard cells in relation to stomated opening in light. Plant Physiol. 44: 1350–1354.
  • Staples, R. C., H. J. Grambow, and H. C. Houch. 1983a. Potassium ion induces rust fungi to develop infection structures. Exper. Mycol. 7: 40–46.
  • Staples, R. C., H. J. Grambow, and H. C. Houch, S. Hassouna, and H. C. Hoch. 1985a. Effect of potassium on sugar uptake and assimilation of bean rust germlings. Mycologia 77: 248–252.
  • Staples, R. C., H. J. Grambow, and H. C. Houch, S. Hassouna, and H. C. Hoch, L. Laccetti, and H. C. Hoch. 1984. Metabolic alterations in bean rust germlings during differentiation induced by the potassium ion. Exper. Mycol. 8: 183–192.
  • Staples, R. C., H. J. Grambow, and H. C. Houch, S. Hassouna, and H. C. Hoch, L. Laccetti, and H. C. Hoch, and H. C. Hoch. 1982. A possible role for microtubules and microfilaments in the induction of nuclear division in bean rust uredospore germlings. Exper. Mycol. 6: 293–302.
  • Staples, R. C., H. J. Grambow, and H. C. Houch, S. Hassouna, and H. C. Hoch, L. Laccetti, and H. C. Hoch, and H. C. Hoch, L. Epstein, L. Laccetti, and S. Hassouna. 1985b. Recognition of host morphology by rust fungi: responses and mechanisms. Canad. J. Plant Path. 7: 314–322.
  • Staples, R. C., H. J. Grambow, and H. C. Houch, S. Hassouna, and H. C. Hoch, L. Laccetti, and H. C. Hoch, and H. C. Hoch, L. Epstein, L. Laccetti, and S. Hassouna, V. Macko, W. K. Wynn, and H. C. Hoch. 1983b. Terminology to describe the differentiation response by germlings of fungal spores. Phytopathology 73: 1436–1439.
  • Wynn, W. K. 1976. Appressorium formation over stomates by the bean rust fungus: response to a surface contact stimulus. Phytopathology 66: 136–146.

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