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Photoreceptor crosstalk in shade avoidance

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Photoreceptor crosstalk in shade avoidance. / Fraser, Donald P; Hayes, Scott; Franklin, Keara A.

In: Current Opinion in Plant Biology, Vol. 33, 10.2016, p. 1-7.

Research output: Contribution to journalArticle

Harvard

Fraser, DP, Hayes, S & Franklin, KA 2016, 'Photoreceptor crosstalk in shade avoidance', Current Opinion in Plant Biology, vol. 33, pp. 1-7. https://doi.org/10.1016/j.pbi.2016.03.008

APA

Fraser, D. P., Hayes, S., & Franklin, K. A. (2016). Photoreceptor crosstalk in shade avoidance. Current Opinion in Plant Biology, 33, 1-7. https://doi.org/10.1016/j.pbi.2016.03.008

Vancouver

Fraser DP, Hayes S, Franklin KA. Photoreceptor crosstalk in shade avoidance. Current Opinion in Plant Biology. 2016 Oct;33:1-7. https://doi.org/10.1016/j.pbi.2016.03.008

Author

Fraser, Donald P ; Hayes, Scott ; Franklin, Keara A. / Photoreceptor crosstalk in shade avoidance. In: Current Opinion in Plant Biology. 2016 ; Vol. 33. pp. 1-7.

Bibtex

@article{4d75e71faba74a6ca1fec3a288471141,
title = "Photoreceptor crosstalk in shade avoidance",
abstract = "Plants integrate a variety of environmental signals to determine the threat of competitor shading and use this information to initiate escape responses, termed shade avoidance. Photoreceptor-mediated light signals are central to this process. Encroaching vegetation is sensed as a reduction in the ratio of red to far-red wavebands (R:FR) by phytochromes. Plants shaded within a canopy will also perceive reduced blue light signals and possibly enriched green light through cryptochromes. The detection of canopy gaps may be further facilitated by blue light sensing phototropins and the UV-B photoreceptor, UVR8. Once sunlight has been reached, phytochrome and UVR8 inhibit shade avoidance. Accumulating evidence suggests that multiple plant photoreceptors converge on a shared signalling network to regulate responses to shade.",
author = "Fraser, {Donald P} and Scott Hayes and Franklin, {Keara A}",
year = "2016",
month = "10",
doi = "10.1016/j.pbi.2016.03.008",
language = "English",
volume = "33",
pages = "1--7",
journal = "Current Opinion in Plant Biology",
issn = "1369-5266",
publisher = "Elsevier",

}

RIS - suitable for import to EndNote

TY - JOUR

T1 - Photoreceptor crosstalk in shade avoidance

AU - Fraser, Donald P

AU - Hayes, Scott

AU - Franklin, Keara A

PY - 2016/10

Y1 - 2016/10

N2 - Plants integrate a variety of environmental signals to determine the threat of competitor shading and use this information to initiate escape responses, termed shade avoidance. Photoreceptor-mediated light signals are central to this process. Encroaching vegetation is sensed as a reduction in the ratio of red to far-red wavebands (R:FR) by phytochromes. Plants shaded within a canopy will also perceive reduced blue light signals and possibly enriched green light through cryptochromes. The detection of canopy gaps may be further facilitated by blue light sensing phototropins and the UV-B photoreceptor, UVR8. Once sunlight has been reached, phytochrome and UVR8 inhibit shade avoidance. Accumulating evidence suggests that multiple plant photoreceptors converge on a shared signalling network to regulate responses to shade.

AB - Plants integrate a variety of environmental signals to determine the threat of competitor shading and use this information to initiate escape responses, termed shade avoidance. Photoreceptor-mediated light signals are central to this process. Encroaching vegetation is sensed as a reduction in the ratio of red to far-red wavebands (R:FR) by phytochromes. Plants shaded within a canopy will also perceive reduced blue light signals and possibly enriched green light through cryptochromes. The detection of canopy gaps may be further facilitated by blue light sensing phototropins and the UV-B photoreceptor, UVR8. Once sunlight has been reached, phytochrome and UVR8 inhibit shade avoidance. Accumulating evidence suggests that multiple plant photoreceptors converge on a shared signalling network to regulate responses to shade.

U2 - 10.1016/j.pbi.2016.03.008

DO - 10.1016/j.pbi.2016.03.008

M3 - Article

C2 - 27060719

VL - 33

SP - 1

EP - 7

JO - Current Opinion in Plant Biology

JF - Current Opinion in Plant Biology

SN - 1369-5266

ER -