Inhibition of germination of dormant barley (Hordeum vulgare L.) grains by blue light as related to oxygen and hormonal regulation

Germination of primary dormant barley grains is promoted by darkness and temperatures below 20 °C, but is strongly inhibited by blue light. Exposure under blue light at 10 °C for periods longer than five days, results in a progressive inability to germinate in the dark, considered as secondary dorma...

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Bibliographic Details
Published in:Plant, cell and environment cell and environment, 2014-06, Vol.37 (6), p.1393-1403
Main Authors: HOANG, HAI HA, SECHET, JULIEN, BAILLY, CHRISTOPHE, LEYMARIE, JULIETTE, CORBINEAU, FRANÇOISE
Format: Article
Language:English
Subjects:
abscisic acid
abscisic acid (ABA)
Abscisic Acid - metabolism
barley
Biological and medical sciences
blue light
cryptochromes
Development Biology
dormancy
Fundamental and applied biological sciences. Psychology
Gene Expression Regulation, Plant - radiation effects
genes
germination
Germination - radiation effects
Germination and dormancy
gibberellins
gibberellins (GA)
Gibberellins - metabolism
Hordeum
Hordeum - growth & development
Hordeum - metabolism
Hordeum - radiation effects
hormonal regulation
hypoxia
Life Sciences
metabolism
oxygen
Oxygen - metabolism
Plant Growth Regulators - metabolism
Plant physiology and development
primary dormancy
secondary dormancy
Seeds - growth & development
Seeds - radiation effects
Signal Transduction
Temperature
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Summary:Germination of primary dormant barley grains is promoted by darkness and temperatures below 20 °C, but is strongly inhibited by blue light. Exposure under blue light at 10 °C for periods longer than five days, results in a progressive inability to germinate in the dark, considered as secondary dormancy. We demonstrate that the inhibitory effect of blue light is reinforced in hypoxia. The inhibitory effect of blue light is associated with an increase in embryo abscisic acid (ABA) content (by 3.5‐ to 3.8‐fold) and embryo sensitivity to both ABA and hypoxia. Analysis of expression of ABA metabolism genes shows that increase in ABA mainly results in a strong increase in HvNCED1 and HvNCED2 expression, and a slight decrease in HvABA8′OH‐1. Among the gibberellins (GA) metabolism genes examined, blue light decreases the expression of HvGA3ox2, involved in GA synthesis, increases that of GA2ox3 and GA2ox5, involved in GA catabolism, and reduces the GA signalling evaluated by the HvExpA11 expression. Expression of secondary dormancy is associated with maintenance of high embryo ABA content and a low HvExpA11 expression. The partial reversion of the inhibitory effect of blue light by green light also suggests that cryptochrome might be involved in this hormonal regulation.
ISSN:0140-7791
1365-3040
DOI:10.1111/pce.12239