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PLANT PHYSIOLOGY , Vol 111, Issue 3 699-711, Copyright © 1996 by American Society of Plant Biologists
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GENE REGULATION AND MOLECULAR GENETICS |
The Arabidopsis ACT7 Actin Gene Is Expressed in Rapidly Developing Tissues and Responds to Several External Stimuli
J. M. McDowell, Yq. An, S. Huang, E. C. McKinney and R. B. Meagher
Department of Biology, University of North Carolina, Chapel Hill, North Carolina 27599 (J.M.M.)
ACT7 encodes one of the six distinct and ancient subclasses of actin
protein in the complex Arabidopsis actin gene family. We determined the
sequence and structure of the Arabidopsis thaliana ACT7 actin gene and
investigated its tissue-specific expression and regulation. The ACT7 mRNA
levels varied by 128-fold among several different tissues and organs. The
highest levels of ACT7 mRNA were found in rapidly expanding vegetative
organs, the lowest in pollen. A translational fusion with the 5[prime] end
of ACT7 (1.9 kb) joined to the [beta]-glucoronidase reporter gene was
strongly and preferentially expressed in all young, developing vegetative
tissues of transgenic Arabidopsis plants. ACT7 was the only Arabidopsis
actin gene strongly expressed in the hypocotyl and seed coat. Although no
[beta]-glucoronidase expression was seen in developing ovules or immature
seeds, strong expression was seen in dry seeds and immediately after
imbibition in the entire seedling. ACT7 was the only Arabidopsis actin gene
to respond strongly to auxin, other hormone treatments, light regime, and
wounding, and may be the primary actin gene responding to external stimuli.
The ACT7 promoter sequence contains a remarkable number of motifs with
sequence similarity to putative phytohormone response elements.
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