Interaction with plant transcription factors can mediate nuclear import of phytochrome B

Pfeiffer, Anne; Nagel, Marie-Kristin; Popp, Claudia; Wüst, Florian; Bindics, János; Viczián, András; Hiltbrunner, Andreas; Nagy, Ferenc; Kunkel, Tim; Schäfer, Eberhard

doi:10.1073/pnas.1120764109

Cited by 79 publications

(86 citation statements)

References 47 publications

(82 reference statements)

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“…Interestingly, PIF-induced phyB degradation does not operate under prolonged shade environments (Leivar et al, 2012a), consistent with the absence of interaction between PIFs and the Pr-inactive form of phy or under SD photoperiods (Soy et al, 2012), where the short light period is insufficient to promote significant slow PIF3-induced phyB degradation. Adding another layer of complexity, it has been reported that the interaction with PIFs mediates the nuclear import of phyB into isolated nuclei of the algae Acetabularia acetabulum (Pfeiffer et al, 2012). Consistent with this observation, the authors showed that phyB is not translocated into the nucleus of Arabidopsis pifq mutants during early irradiation of dark-grown seedlings.…”

Section: Pif Function In Phy-mediated Growth Responses To Light Phy Rsupporting

confidence: 75%

PIFs: Systems Integrators in Plant Development

2014

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Section: Pif Function In Phy-mediated Growth Responses To Light Phy Rsupporting

confidence: 75%

PIFs: Systems Integrators in Plant Development

2014

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“…Phys containing the G767R mutation are retained in the cytoplasm (Wagner and Quail, 1995;Ni et al, 1999;Matsushita et al, 2003). This has been attributed to the inability of the G767R mutant to interact with PIF3 and then be imported into the nucleus (Pfeiffer et al, 2012). Surprisingly, the double phy mutant partially complemented the phyABCDE null mutant: light-grown YHB-G767R(phyABCDE) lines exhibited expanded cotyledons and shorter hypocotyls compared with the parental phyABCDE seedlings (Fig.…”

Section: Cytosolic Yhb Has Little Effect On Clock Gene Expression or mentioning

confidence: 98%

A Constitutively Active Allele of Phytochrome B Maintains Circadian Robustness in the Absence of Light

Jones

Litthauer

et al. 2015

Plant Physiology

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The sensitivity of the circadian system to light allows entrainment of the clock, permitting coordination of plant metabolic function and flowering time across seasons. Light affects the circadian system via both photoreceptors, such as phytochromes and cryptochromes, and sugar production by photosynthesis. In the present study, we introduce a constitutively active version of phytochrome B-Y276H (YHB) into both wild-type and phytochrome null backgrounds of Arabidopsis (Arabidopsis thaliana) to distinguish the effects of photoreceptor signaling on clock function from those of photosynthesis. We find that the YHB mutation is sufficient to phenocopy red light input into the circadian mechanism and to sustain robust rhythms in steady-state mRNA levels even in plants grown without light or exogenous sugars. The pace of the clock is insensitive to light intensity in YHB plants, indicating that light input to the clock is constitutively activated by this allele. Mutation of YHB so that it is retained in the cytoplasm abrogates its effects on clock function, indicating that nuclear localization of phytochrome is necessary for its clock regulatory activity. We also demonstrate a role for phytochrome C as part of the red light sensing network that modulates phytochrome B signaling input into the circadian system. Our findings indicate that phytochrome signaling in the nucleus plays a critical role in sustaining robust clock function under red light, even in the absence of photosynthesis or exogenous sources of energy.

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“…Recently, the pif4 pif5 double loss-of-function mutant has been shown to be hypersensitive to low FR fluence rates, without altering phyA concentration (Lorrain et al, 2009). PIF3 facilitates the nuclear import of phyB under R and FR light irradiation (Pfeiffer et al, 2012). Thus, PIFs may be involved in phyB-mediated repression of seedling deetiolation under FR light (Figure 10).…”

Section: Phyb Enhances Spa1 Accumulation To Repress Fr Light Signalinmentioning

confidence: 99%

ArabidopsisPhytochrome B Promotes SPA1 Nuclear Accumulation to Repress Photomorphogenesis under Far-Red Light

Shu

Zhai

et al. 2013

The Plant Cell

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Phytochrome A (phyA) is the primary photoreceptor mediating deetiolation under far-red (FR) light, whereas phyB predominantly regulates light responses in red light. SUPPRESSOR OF PHYA-105 (SPA1) forms an E3 ubiquitin ligase complex with CONSTITUTIVE PHOTOMORPHOGENIC1 (COP1), which is responsible for the degradation of various photomorphogenesis-promoting factors, resulting in desensitization to light signaling. However, the role of phyB in FR light signaling and the regulatory pathway from light-activated phytochromes to the COP1-SPA1 complex are largely unknown. Here, we confirm that PHYB overexpression causes an etiolation response with reduced ELONGATED HYPOCOTYL5 (HY5) accumulation under FR light. Notably, phyB exerts its nuclear activities and promotes seedling etiolation in both the presence and absence of phyA in response to FR light. PhyB acts upstream of SPA1 and is functionally dependent on it in FR light signaling. PhyB interacts and forms a protein complex with SPA1, enhancing its nuclear accumulation under FR light. During the dark-to-FR transition, phyB is rapidly imported into the nucleus and facilitates nuclear SPA1 accumulation. These findings support the notion that phyB plays a role in repressing FR light signaling. Activity modulation of the COP1-SPA E3 complex by light-activated phytochromes is an effective and pivotal regulatory step in light signaling.

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Interaction with plant transcription factors can mediate nuclear import of phytochrome B

Cited by 79 publications

References 47 publications

PIFs: Systems Integrators in Plant Development

PIFs: Systems Integrators in Plant Development

A Constitutively Active Allele of Phytochrome B Maintains Circadian Robustness in the Absence of Light

ArabidopsisPhytochrome B Promotes SPA1 Nuclear Accumulation to Repress Photomorphogenesis under Far-Red Light

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