Light and ark georeaction of maize roots: effect and endogenous level of abscisic acid
Pilet, P.E.
Light and ark georeaction of maize roots: effect and endogenous level of abscisic acid - 1980 - Printed
24 ref.; Summary (En)
An ABA pretreatment enhanced the geotropism of maize (cv. LG 11) root segments. Such stimulation was much stronger for georeacting roots in darkness. When ABA was applied asymmetrically on the lower part of the apical cut end of decapped segments, it induced a downward curvature which increased with increasing ABA concentration. Using the GC/MS technique, ABA was found in the root tip: the light exposed roots containing more ABA than those kept in darkness. But no changes in the total ABA level were obtained between vertical and horizontal segments. This indicates that the increase in the growth inhibitor amount in the lower part of the
English
Maize
Zea mays
81-586261
Light and ark georeaction of maize roots: effect and endogenous level of abscisic acid - 1980 - Printed
24 ref.; Summary (En)
An ABA pretreatment enhanced the geotropism of maize (cv. LG 11) root segments. Such stimulation was much stronger for georeacting roots in darkness. When ABA was applied asymmetrically on the lower part of the apical cut end of decapped segments, it induced a downward curvature which increased with increasing ABA concentration. Using the GC/MS technique, ABA was found in the root tip: the light exposed roots containing more ABA than those kept in darkness. But no changes in the total ABA level were obtained between vertical and horizontal segments. This indicates that the increase in the growth inhibitor amount in the lower part of the
English
Maize
Zea mays
81-586261