GraPhoBox:: Gravitropism and phototropism in Arabidopsis thaliana

The morphology of plants is directed by the directional growth of roots and shoots. Gravity and light direction are the two major environmental stimuli important for directional growth. The 'GraPhoBox' experiment, flown on the Dutch DELTA mission to the ISS in April 2004, tries to elucidate the different effects of gravitropism and phototropism on plants, and their combined effects on plant motphology. Wild-type Arabidopsis thaliana (L.), phototropic-deficient mutants phot1 and gravitropic-deficient mutant pgm1 seeds were germinated in microgravity and in Earth gravity, in low light conditions and darkness. The angle of directional growth of roots and shoots was then assessed. Light is -even in the absense of gravity- the most important environmental cue for directional growth of shoots, while for roots gravity is by far the most important cue, and light is only a very minor factor due to their poor phototropic capacity. Compared to roots, shoots are deviated more than roots in microgravity and therefore less gravity-dependent. All results together suggests that environmental cues are differently percepted by roots and shoots which also adapt differently. Furthermore, environmental cues are probably transferred little or not to the opposite side of the plant.