Association·nasa

Gravity induces re-localization of CsPIN1 auxin efflux carrier

Claim that gravity signal in cucumber seedlings induces the re-localization of the CsPIN1 auxin efflux carrier during spaceflight.

Confidence
70%
active

Evidence Quote

Gravity induces the re-localization of auxin efflux carrier CsPIN1 in cucumber seedlings

Relationship

Gravity signal in cucumber seedlings induces CsPIN1 auxin efflux carrier

Arguments

Gravity signal in cucumber seedlingssubject
CsPIN1 auxin efflux carrierobject

Connections (2)

Gravity-regulated plant growth and molecular response chainInferenceChain
Spaceflight alters plant gene expressionAssociation

Evidence

The gravity-induced re-localization of auxin efflux carrier CsPIN1 in cucumber seedlings analyzed by spaceflight immunohistochemical microscopy.

Yamazaki, C. & et al. (2016). The gravity-induced re-localization of auxin efflux carrier CsPIN1 in cucumber seedlings: spaceflight experiments for immunohistochemical microscopy doi:10.1038/npjmgrav.2016.30

Shows that cytosolic calcium, hydrogen peroxide and related gene expression and protein modulation in Arabidopsis thaliana cell cultures respond immediately to altered gravitation (parabolic flight data).

(2014). Hausmann, N. et al. Cytosolic calcium, hydrogen peroxide and related gene expression and protein modulation in Arabidopsis thaliana cell cultures respond immediately to altered gravitation: parabolic flight data.