Journal of Experimental Botany, Vol 49, 1695-1703, Copyright © 1998 by Oxford University Press
N Sanan and S Sopory
Primary leaf development of Sorghum bicolor is a
phytochrome-mediated response. Primary leaves are not produced in
Sorghum seedlings even after 10 d of germination if
grown in darkness. However, 5 min irradiation with white light or red light
given to 5 d etiolated seedlings resulted in the formation of etiolated
leaves. This effect of red light was reversed by far-red light. When
calcium (3-5 mM) was added exogenously, complete leaf formation was
obtained in darkness; however, the kinetics of the response was slower than
that seen with light irradiation. This effect was also obtained with
potassium ions but magnesium ions had no effect. Light- and
calcium-mediated leaf development could be arrested at the stage of leaf
emergence or leaf expansion by the addition of inhibitors of G-proteins or
by calcium channel blockers suggesting a role of G-proteins and calcium in
phytochrome signal transduction during primary leaf development.Key words:
Leaf formation, G-proteins, calcium, potassium, Sorghum
bicolor.
ARTICLES
A role of G-proteins and calcium in light-regulated primary leaf formation in Sorghum bicolor
Molecular Plant Physiology Laboratory, School of Life Sciences, Jawaharla Nehru University, New Delhi, India; International Centre for Genetic Engineering and Biotechnology, Aruna Asaf Ali Marg, New Delhi, India; Corresponding author
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