Hydrophobicity of contact surface induces appressorium formation in Magnaporthe grisea

Abstract

Infection by Magnaporthe grisea, the causal agent of rice blast, requires the formation of a melanized, dome-shaped infection cell, called an appressorium. Little is known about the signals and mechanisms regulating this important developmental process. We have previously observed a correlation between hydrophobicity of the contact surface and appressorium formation. To evaluate this thigmotropic response more precisely, we measured appressorium formation on the surfaces of silicon wafers modified to create various degrees of hydrophobicity. We also examined the effects of artificial ridges created on polystyrene surfaces. Hydrophobic surfaces induced a high level of appressorium formation, whereas hydrophilic surfaces did not. Tips of germ-tubes did not respond to ridges of any particular height, but formed appressoria in a random manner. These results indicate that hydrophobicity of the substratum is a primary determinant and is sufficient to induce appressorium formation in M. grisea.