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PLANT PHYSIOLOGY , Vol 104, Issue 2 505-513, Copyright © 1994 by American Society of Plant Biologists
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DEVELOPMENT AND GROWTH REGULATION |
Investigation of Gene Expression, Growth Kinetics, and Wall Extensibility during Brassinosteroid-Regulated Stem Elongation
D. M. Zurek, D. L. Rayle, T. C. McMorris and S. D. Clouse
Department of Biology, San Diego State University, San Diego, California 92182 (D.M.Z., D.L.R., S.D.C.)
Brassinosteroids promote stem elongation in a variety of plants but little
is known about the mechanism of action of these plant growth regulators. We
investigated a number of physiological and molecular parameters associated
with brassinosteroid-enhanced elongation. Continuous growth recordings of
soybean (Glycine max L. cv Williams 82) epicotyls showed that there was a
45-min lag before 0.1 [mu]M brassinolide (BR) exerted a detectable effect
on elongation. BR caused a marked increase in Instron-measured plastic
extensibility, suggesting that BR may promote elongation in part by
altering mechanical properties of the cell wall (wall loosening).
Structure-function studies suggested that the dimensions of the
brassinosteroid side chain were critical for promotion of elongation and
expression of BRU1, a gene regulated specifically by active
brassinosteroids. Auxin-BR interactions were examined by using small auxin
up RNA (SAUR) gene probes and the auxin-insensitive diageotropica (dgt)
mutant of tomato (Lycopersicon esculentum Mill.). We have shown that in
wild-type tomato, which elongates in response to exogenous auxin, a
transcript of identical size to the soybean SAUR 15A is strongly induced
within 1 h by 50 [mu]M 2,4-dichlorophenoxyacetic acid or indoleacetic acid,
whereas in the dgt mutant, which does not elongate in response to auxin, no
transcript is expressed. Furthermore, BR promotes equal elongation of
hypocotyls in both wild-type and dgt tomatoes but does not rapidly induce
the SAUR 15A homolog in either genotype. BR does not cause rapid induction
of SAUR 6B in elongating soybean epicotyls but does lead to increased
expression after 18 h. This late BR activation of SAUR 6B is controlled, at
least in part, at the transcriptional level and is not accompanied by an
increase of free indoleacetic acid in the tissue. We conclude that although
both BR and auxin affect wall relaxation processes, BR-promoted elongation
in soybean and tomato stems acts via a mechanism that most likely does not
proceed through the auxin signal transduction pathway.
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