Protein crystals in Phycomyces sporangiophores are involved in graviperception.

The sporangiophores of the zygomycete fungus Phycomyces blakesleeanus contain octahedral crystals with diameters of up to 5 micrometers in their vacuole. The crystals are associated with the intracellular membrane system. In tilted or horizontally placed sporangiophores, the crystals sediment to the respective lower face of the vacuole with a velocity of up to 100 micrometers per minute. The sedimentation is completed within about 2 minutes, well within the latency period for the negative gravitropic response of Phycomyces. Crystal-lacking mutant strains display a smaller maximal bending angle and a reduced gravitropic bending rate in comparison to the wild type. We therefore conclude that the crystals serve as statoliths for gravitropism in Phycomyces.

[1]  M. Zalokar INTRACELLULAR CENTRIFUGAL SEPARATION OF ORGANELLES IN PHYCOMYCES , 1969, The Journal of cell biology.

[2]  E. Lipson,et al.  MODIFIED ACTION SPECTRA OF PHOTOGEOTROPIC EQUILIBRIUM IN Phycomyces blakesleeanus MUTANTS WITH DEFECTS IN GENES madA, madB, madC, and madH , 1985, Photochemistry and photobiology.

[3]  B. Hock,et al.  Flammulina as a model system for fungal graviresponses , 1997, Planta.

[4]  J. J. Wolken MICROSPECTROPHOTOMETRY AND THE PHOTORECEPTOR OF PHYCOMYCES I , 1969, The Journal of cell biology.

[5]  T. Ootaki,et al.  OCTAHEDRAL CRYSTALS IN PHYCOMYCES. II , 1973, The Journal of cell biology.

[6]  J. Monzer Actin filaments are involved in cellular graviperception of the basidiomycete Flammulina velutipes. , 1995, European journal of cell biology.

[7]  G. Banbury,et al.  ULTRASTRUCTURE, PROTOPLASMIC STREAMING, GROWTH AND TROPISMS OF PHYCOMYCES SPORANGIOPHORES , 1967 .

[8]  D. Moore,et al.  Gravimorphogenesis in agarics. , 1996, Mycological research.

[9]  D. S. Dennison The Effect of Light on the Geotropic Responses of Phycomyces Sporangiophores , 1964, The Journal of general physiology.

[10]  T. Ootaki,et al.  Parameters governing gravitropic response of sporangiophores inPhycomyces blakesleeanus , 1995 .

[11]  Coordinated cell elongation alone drives tropic bending in stems of the mushroom fruit body of Coprinus cinereus. , 1997, Canadian journal of botany. Journal canadien de botanique.

[12]  R. M. Thornton Crystalloids of phycomyces sporangiophores: nature and photosensitive accumulation. , 1969, Plant physiology.

[13]  D. S. Dennison Tropic Responses of Phycomyces Sporangiophores to Gravitational and Centrifugal Stimuli , 1961, The Journal of general physiology.

[14]  W. Shropshire,et al.  The gravireceptor of Phycomyces. Its development following gravity exposure , 1984, The Journal of general physiology.

[15]  J. Kiss The Response to Gravity Is Correlated with the Number of Statoliths in Chara Rhizoids , 1994, Plant physiology.

[16]  J. Kiss,et al.  Reduced gravitropism in hypocotyls of starch-deficient mutants of Arabidopsis. , 1997, Plant & cell physiology.

[17]  C. Lloyd The Cytoskeletal basis of plant growth and form , 1991 .

[18]  V. Campuzano,et al.  Blue‐Light Receptor Requirement for Gravitropism, Autochemotropism and Ethylene Response in Phycomyces * , 1996, Photochemistry and photobiology.

[19]  V. Russo,et al.  Threshold and adaptation in Phycomyces. Their interrelation and regulation by light , 1984, The Journal of general physiology.

[20]  R. P. Sutter Mutations affecting sexual development in Phycomyces blakesleeanus. , 1975, Proceedings of the National Academy of Sciences of the United States of America.

[21]  J. J. Wolken Phycomyces: a model photosensory cell. , 1972, The International journal of neuroscience.