Germination of photoblastic lettuce seeds is regulated via the control of endogenous physiologically active gibberellin content, rather than of gibberellin responsiveness

Phytochrome regulates lettuce (Lactuca sativa L. cv. Grand Rapids) seed germination via the control of the endogenous level of bioactive gibberellin (GA). In addition to the previously identified LsGA20ox1, LsGA20ox2, LsGA3ox1, LsGA3ox2, LsGA2ox1, and LsGA2ox2, five cDNAs were isolated from lettuce...

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Bibliographic Details
Published in:Journal of experimental botany 2008-09, Vol.59 (12), p.3383-3393
Main Authors: Sawada, Yoshiaki, Katsumata, Takumi, Kitamura, Jun, Kawaide, Hiroshi, Nakajima, Masatoshi, Asami, Tadao, Nakaminami, Kentaro, Kurahashi, Toshihiro, Mitsuhashi, Wataru, Inoue, Yasunori, Toyomasu, Tomonobu
Format: Article
Language:English
Subjects:
Alkyl and Aryl Transferases - genetics
Alkyl and Aryl Transferases - metabolism
Biological and medical sciences
Biosynthesis
Cloning, Molecular
Complementary DNA
Cotyledons
Cytochrome P-450 Enzyme System - genetics
Cytochrome P-450 Enzyme System - metabolism
Escherichia coli
Fundamental and applied biological sciences. Psychology
gene expression
Gene expression regulation
Gene Expression Regulation, Plant - radiation effects
Genes
Germination
Germination - radiation effects
gibberellin metabolism
gibberellin signalling
Gibberellins
Gibberellins - genetics
Gibberellins - metabolism
Hypocotyls
Lactuca - enzymology
Lactuca - genetics
Lactuca - metabolism
Lactuca - radiation effects
Lactuca sativa
Lettuce
Light
messenger RNA
Mixed Function Oxygenases - genetics
Mixed Function Oxygenases - metabolism
Molecular Sequence Data
phytochrome
Pichia pastoris
Plant Proteins - genetics
Plant Proteins - metabolism
Research Papers
reverse transcriptase polymerase chain reaction
Seed germination
seeds
Seeds - enzymology
Seeds - genetics
Seeds - metabolism
Seeds - radiation effects
Signal Transduction - radiation effects
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Summary:Phytochrome regulates lettuce (Lactuca sativa L. cv. Grand Rapids) seed germination via the control of the endogenous level of bioactive gibberellin (GA). In addition to the previously identified LsGA20ox1, LsGA20ox2, LsGA3ox1, LsGA3ox2, LsGA2ox1, and LsGA2ox2, five cDNAs were isolated from lettuce seeds: LsCPS, LsKS, LsKO1, LsKO2, and LsKAO. Using an Escherichia coli expression system and functional assays, it is shown that LsCPS and LsKS encode ent-copalyl diphosphate synthase and ent-kaurene synthase, respectively. Using a Pichia pastoris system, it was found that LsKO1 and LsKO2 encode ent-kaurene oxidases and LsKAO encodes ent-kaurenoic acid oxidase. A comprehensive expression analysis of GA metabolism genes using the quantitative reverse transcription polymerase chain reaction suggested that transcripts of LsGA3ox1 and LsGA3ox2, both of which encode GA 3-oxidase for GA activation, were primarily expressed in the hypocotyl end of lettuce seeds, were expressed at much lower levels than the other genes tested, and were potently up-regulated by phytochrome. Furthermore, LsDELLA1 and LsDELLA2 cDNAs that encode DELLA proteins, which act as negative regulators in the GA signalling pathway, were isolated from lettuce seeds. The transcript levels of these two genes were little affected by light. Lettuce seeds in which de novo GA biosynthesis was suppressed responded almost identically to exogenously applied GA, irrespective of the light conditions, suggesting that GA responsiveness is not significantly affected by light in lettuce seeds. It is proposed that lettuce seed germination is regulated mainly via the control of the endogenous content of bioactive GA, rather than the control of GA responsiveness.
ISSN:0022-0957
1460-2431
DOI:10.1093/jxb/ern192