Blue light regulated shade avoidance
Most plants grow in dense vegetation with the risk of being out-competed by neighboring plants. These neighbors can be detected not only through the depletion in light quantity that they cause, but also through the change in light quality, which plants perceive using specific photoreceptors. Both the reduction of the red:far-red ratio and the depletion of blue light are signals that induce a set of phenotypic traits, such as shoot elongation and leaf hyponasty, which increase the likelihood of light capture in dense plant stands. This set of phenotypic responses are part of the so called "shade avoidance syndrome" (SAS). This addendum discusses recent findings on the regulation of the SAS of Arabidopsis thaliana upon blue light depletion. Keller et al. and Keuskamp et al. show that the low blue light attenuation induced shade avoidance response of seedling and rosette-stage A. thaliana plants differ in their hormonal regulation. These studies also show there is a regulatory overlap with the R:FR-regulated SAS.
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| Format: | Article/Letter to editor biblioteca |
| Language: | English |
| Subjects: | Cryptochrome, Hormones, Light, Photoreceptor, Phytochrome, Shade avoidance, |
| Online Access: | https://research.wur.nl/en/publications/blue-light-regulated-shade-avoidance |
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dig-wur-nl-wurpubs-6201042024-10-29 Keuskamp, Diederik H. Keller, Mercedes M. Ballaré, Carlos L. Pierik, Ronald Article/Letter to editor Plant Signaling and Behavior 7 (2012) 4 ISSN: 1559-2316 Blue light regulated shade avoidance 2012 Most plants grow in dense vegetation with the risk of being out-competed by neighboring plants. These neighbors can be detected not only through the depletion in light quantity that they cause, but also through the change in light quality, which plants perceive using specific photoreceptors. Both the reduction of the red:far-red ratio and the depletion of blue light are signals that induce a set of phenotypic traits, such as shoot elongation and leaf hyponasty, which increase the likelihood of light capture in dense plant stands. This set of phenotypic responses are part of the so called "shade avoidance syndrome" (SAS). This addendum discusses recent findings on the regulation of the SAS of Arabidopsis thaliana upon blue light depletion. Keller et al. and Keuskamp et al. show that the low blue light attenuation induced shade avoidance response of seedling and rosette-stage A. thaliana plants differ in their hormonal regulation. These studies also show there is a regulatory overlap with the R:FR-regulated SAS. en text/html https://research.wur.nl/en/publications/blue-light-regulated-shade-avoidance 10.4161/psb.19340 https://edepot.wur.nl/640237 Cryptochrome Hormones Light Photoreceptor Phytochrome Shade avoidance Wageningen University & Research |
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Cryptochrome Hormones Light Photoreceptor Phytochrome Shade avoidance Cryptochrome Hormones Light Photoreceptor Phytochrome Shade avoidance |
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Cryptochrome Hormones Light Photoreceptor Phytochrome Shade avoidance Cryptochrome Hormones Light Photoreceptor Phytochrome Shade avoidance Keuskamp, Diederik H. Keller, Mercedes M. Ballaré, Carlos L. Pierik, Ronald Blue light regulated shade avoidance |
| description |
Most plants grow in dense vegetation with the risk of being out-competed by neighboring plants. These neighbors can be detected not only through the depletion in light quantity that they cause, but also through the change in light quality, which plants perceive using specific photoreceptors. Both the reduction of the red:far-red ratio and the depletion of blue light are signals that induce a set of phenotypic traits, such as shoot elongation and leaf hyponasty, which increase the likelihood of light capture in dense plant stands. This set of phenotypic responses are part of the so called "shade avoidance syndrome" (SAS). This addendum discusses recent findings on the regulation of the SAS of Arabidopsis thaliana upon blue light depletion. Keller et al. and Keuskamp et al. show that the low blue light attenuation induced shade avoidance response of seedling and rosette-stage A. thaliana plants differ in their hormonal regulation. These studies also show there is a regulatory overlap with the R:FR-regulated SAS. |
| format |
Article/Letter to editor |
| topic_facet |
Cryptochrome Hormones Light Photoreceptor Phytochrome Shade avoidance |
| author |
Keuskamp, Diederik H. Keller, Mercedes M. Ballaré, Carlos L. Pierik, Ronald |
| author_facet |
Keuskamp, Diederik H. Keller, Mercedes M. Ballaré, Carlos L. Pierik, Ronald |
| author_sort |
Keuskamp, Diederik H. |
| title |
Blue light regulated shade avoidance |
| title_short |
Blue light regulated shade avoidance |
| title_full |
Blue light regulated shade avoidance |
| title_fullStr |
Blue light regulated shade avoidance |
| title_full_unstemmed |
Blue light regulated shade avoidance |
| title_sort |
blue light regulated shade avoidance |
| url |
https://research.wur.nl/en/publications/blue-light-regulated-shade-avoidance |
| work_keys_str_mv |
AT keuskampdiederikh bluelightregulatedshadeavoidance AT kellermercedesm bluelightregulatedshadeavoidance AT ballarecarlosl bluelightregulatedshadeavoidance AT pierikronald bluelightregulatedshadeavoidance |
| _version_ |
1816160301102399488 |