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334 results on '"Hoecker, Ute"'

2. Environmental gradients reveal stress hubs pre-dating plant terrestrialization

Author

Dadras, Armin, Fürst-Jansen, Janine M. R., Darienko, Tatyana, Krone, Denis, Scholz, Patricia, Sun, Siqi, Herrfurth, Cornelia, Rieseberg, Tim P., Irisarri, Iker, Steinkamp, Rasmus, Hansen, Maike, Buschmann, Henrik, Valerius, Oliver, Braus, Gerhard H., Hoecker, Ute, Feussner, Ivo, Mutwil, Marek, Ischebeck, Till, de Vries, Sophie, Lorenz, Maike, and de Vries, Jan

Published
2023
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3. Anterograde signaling controls plastid transcription via sigma factors separately from nuclear photosynthesis genes

Author

Hwang, Youra, Han, Soeun, Yoo, Chan Yul, Hong, Liu, You, Chenjiang, Le, Brandon H, Shi, Hui, Zhong, Shangwei, Hoecker, Ute, Chen, Xuemei, and Chen, Meng

Subjects
Plant Biology, Biological Sciences, Genetics, Sigma Factor, Photosynthesis, Transcription, Genetic, Cell Nucleus, Plastids, Arabidopsis, RNA, Bacterial
Abstract

Light initiates chloroplast biogenesis in Arabidopsis by eliminating PHYTOCHROME-INTERACTING transcription FACTORs (PIFs), which in turn de-represses nuclear photosynthesis genes, and synchronously, generates a nucleus-to-plastid (anterograde) signal that activates the plastid-encoded bacterial-type RNA polymerase (PEP) to transcribe plastid photosynthesis genes. However, the identity of the anterograde signal remains frustratingly elusive. The main challenge has been the difficulty to distinguish regulators from the plethora of necessary components for plastid transcription and other essential chloroplast functions, such as photosynthesis. Here, we show that the genome-wide induction of nuclear photosynthesis genes is insufficient to activate the PEP. PEP inhibition is imposed redundantly by multiple PIFs and requires PIF3's activator activity. Among the nuclear-encoded components of the PEP holoenzyme, we identify four light-inducible, PIF-repressed sigma factors as anterograde signals. Together, our results elucidate that light-dependent inhibition of PIFs activates plastid photosynthesis genes via sigma factors as anterograde signals in parallel with the induction of nuclear photosynthesis genes.

Published
2022

6. Comparative transcriptomics elucidates the cellular responses of an aeroterrestrial zygnematophyte to UV radiation.

Author

Busch, Anna, Gerbracht, Jennifer V, Davies, Kevin, Hoecker, Ute, and Hess, Sebastian

Subjects
ULTRAVIOLET radiation, TRANSCRIPTOMES, PHENYLPROPANOIDS, GENETIC regulation, DNA repair, LIGNINS, LIGNIN structure
Abstract

The zygnematophytes are the closest relatives of land plants and comprise several lineages that adapted to a life on land. Species of the genus Serritaenia form colorful, mucilaginous capsules, which surround the cells and block harmful solar radiation, one of the major terrestrial stressors. In eukaryotic algae, this 'sunscreen mucilage' represents a unique photoprotective strategy, whose induction and chemical background are unknown. We generated a de novo transcriptome of Serritaenia testaceovaginata and studied its gene regulation under moderate UV radiation (UVR) that triggers sunscreen mucilage under experimental conditions. UVR induced the repair of DNA and the photosynthetic apparatus as well as the synthesis of aromatic specialized metabolites. Specifically, we observed pronounced expressional changes in the production of aromatic amino acids, phenylpropanoid biosynthesis genes, potential cross-membrane transporters of phenolics, and extracellular, oxidative enzymes. Interestingly, the most up-regulated enzyme was a secreted class III peroxidase, whose embryophyte homologs are involved in apoplastic lignin formation. Overall, our findings reveal a conserved, plant-like UVR perception system (UVR8 and downstream factors) in zygnematophyte algae and point to a polyphenolic origin of the sunscreen pigment of Serritaenia , whose synthesis might be extracellular and oxidative, resembling that of plant lignins. [ABSTRACT FROM AUTHOR]

Published
2024
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17. Environmental gradients reveal stress hubs predating plant terrestrialization

Author

Dadras, Armin, primary, Fürst-Jansen, Janine M. R., additional, Darienko, Tatyana, additional, Krone, Denis, additional, Scholz, Patricia, additional, Rieseberg, Tim P., additional, Irisarri, Iker, additional, Steinkamp, Rasmus, additional, Hansen, Maike, additional, Buschmann, Henrik, additional, Valerius, Oliver, additional, Braus, Gerhard H., additional, Hoecker, Ute, additional, Mutwil, Marek, additional, Ischebeck, Till, additional, de Vries, Sophie, additional, Lorenz, Maike, additional, and de Vries, Jan, additional

Published
2022
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19. Signaling Mechanisms by Arabidopsis Cryptochromes

Author

Ponnu, Jathish, Hoecker, Ute, Ponnu, Jathish, and Hoecker, Ute

Abstract

Cryptochromes (CRYs) are blue light photoreceptors that regulate growth, development, and metabolism in plants. In Arabidopsis thaliana (Arabidopsis), CRY1 and CRY2 possess partially redundant and overlapping functions. Upon exposure to blue light, the monomeric inactive CRYs undergo phosphorylation and oligomerization, which are crucial to CRY function. Both the N- and C-terminal domains of CRYs participate in light-induced interaction with multiple signaling proteins. These include the COP1/SPA E3 ubiquitin ligase, several transcription factors, hormone signaling intermediates and proteins involved in chromatin-remodeling and RNA N6 adenosine methylation. In this review, we discuss the mechanisms of Arabidopsis CRY signaling in photomorphogenesis and the recent breakthroughs in Arabidopsis CRY research.

Published
2022

29. Uncovering a novel function of the CCR4-NOT complex in phytochrome A-mediated light signalling in plants

Author

Schwenk, Philipp, Sheerin, David J., Ponnu, Jathish, Staudt, Anne-Marie, Lesch, Klara L., Lichtenberg, Elisabeth, Medzihradszky, Katalin F., Hoecker, Ute, Klement, Eva, Viczian, Andras, Hiltbrunner, Andreas, Schwenk, Philipp, Sheerin, David J., Ponnu, Jathish, Staudt, Anne-Marie, Lesch, Klara L., Lichtenberg, Elisabeth, Medzihradszky, Katalin F., Hoecker, Ute, Klement, Eva, Viczian, Andras, and Hiltbrunner, Andreas

Abstract

Phytochromes are photoreceptors regulating growth and development in plants. Using the model plant Arabidopsis, we identified a novel signalling pathway downstream of the farred light-sensing phytochrome, phyA, that depends on the highly conserved CCR4-NOT complex. CCR4-NOT is integral to RNA metabolism in yeast and animals, but its function in plants is largely unknown. NOT9B, an Arabidopsis homologue of human CNOT9, is a component of the CCR4-NOT complex, and acts as negative regulator of phyA-specific light signalling when bound to NOT1, the scaffold protein of the complex. Light-activated phyA interacts with and displaces NOT9B from NOT1, suggesting a potential mechanism for light signalling through CCR4-NOT. ARGONAUTE 1 and proteins involved in splicing associate with NOT9B and we show that NOT9B is required for specific phyA-dependent alternative splicing events. Furthermore, association with nuclear localised ARGONAUTE 1 raises the possibility that NOT9B and CCR4-NOT are involved in phyA-modulated gene expression.

Published
2021

30. Functional comparison of the WD-repeat domains of SPA1 and COP1 in suppression of photomorphogenesis

Author

Kerner, Konstantin, Nagano, Soshichiro, Lubbe, Annika, Hoecker, Ute, Kerner, Konstantin, Nagano, Soshichiro, Lubbe, Annika, and Hoecker, Ute

Abstract

The Arabidopsis COP1/SPA complex acts as a cullin4-based E3 ubiquitin ligase to suppress photomorphogenesis in darkness. It is a tetrameric complex of two COP1 and two SPA proteins. Both COP1 and SPA are essential for the activity of this complex, and they both contain a C-terminal WD-repeat domain responsible for substrate recruitment and binding of DDB1. Here, we used a WD domain swap-approach to address the cooperativity of COP1 and SPA proteins. We found that expression of a chimeric COP1 carrying the WD-repeat domain of SPA1 mostly complemented the cop1-4-mutant phenotype in darkness, indicating that the WD repeat of SPA1 can replace the WD repeat of COP1. In the light, SPA1-WD partially substituted for COP1-WD. In contrast, expression of a chimeric SPA1 protein carrying the WD repeat of COP1 did not rescue the spa-mutant phenotype. Together, our findings demonstrate that a SPA1-type WD repeat is essential for COP1/SPA activity, while a COP1-type WD is in part dispensible. Moreover, a complex with four SPA1-WDs is more active than a complex with only two SPA1-WDs. A homology model of SPA1-WD based on the crystal structure of COP1-WD uncovered two insertions and several amino acid substitutions at the predicted substrate-binding pocket of SPA1-WD.

Published
2021

31. Light-induced degradation of SPA2 via its N-terminal kinase domain is required for photomorphogenesis

Author

Schenk, Tobias, Trimborn, Laura, Chen, Song, Schenkel, Christian, Hoecker, Ute, Schenk, Tobias, Trimborn, Laura, Chen, Song, Schenkel, Christian, and Hoecker, Ute

Abstract

Arabidopsis (Arabidopsis thaliana) CONSTITUTIVELY PHOTOMORPHOGENIC1 (COP1) and members of the SUPPRESSOR OF PHYTOCHROMEA-105 (SPA) protein family form an E3 ubiquitin ligase that suppresses light signaling in darkness by polyubiquitinating positive regulators of the light response. COP1/SPA is inactivated by light to allow photomorphogenesis to proceed. Mechanisms of inactivation include light-induced degradation of SPA1 and, in particular, SPA2, corresponding to a particularly efficient inactivation of COP1/SPA2 by light. Here, we show that SPA3 and SPA4 proteins are stable in the light, indicating that light-induced destabilization is specific to SPA1 and SPA2, possibly related to the predominant function of SPA1 and SPA2 in dark-grown etiolating seedlings. SPA2 degradation involves cullin and the COP10-DEETIOLATED-DAMAGED-DNA BINDING PROTEIN (DDB1) CDD complex, besides COP1. Consistent with this finding, light-induced SPA2 degradation required the DDB1-interacting Trp-Asp (WD)-repeat domain of SPA2. Deletion of the N-terminus of SPA2 containing the kinase domain led to strong stabilization of SPA2 in darkness and fully abolished light-induced degradation of SPA2. This prevented seedling de-etiolation even in very strong far-red and blue light and reduced de-etiolation in red light, indicating destabilization of SPA2 through its N-terminal domain is essential for light response. SPA2 is exclusively destabilized by phytochrome A in far-red and blue light. However, deletion of the N-terminal domain of SPA2 did not abolish SPA2-phytochrome A interaction in yeast nor in vivo. Our domain mapping suggests there are two SPA2-phytochrome A interacting domains, the N-terminal domain and the WD-repeat domain. Conferring a light-induced SPA2-phyA interaction only via the WD-repeat domain may thus not lead to COP1/SPA2 inactivation.

Published
2021

32. New Insights on the Regulation of Glucosinolate Biosynthesis via COP1 and DELLA Proteins in Arabidopsis Thaliana

Author

Frerigmann, Henning, Hoecker, Ute, Gigolashvili, Tamara, Frerigmann, Henning, Hoecker, Ute, and Gigolashvili, Tamara

Abstract

The biosynthesis of defensive secondary metabolites, such as glucosinolates (GSLs), is a costly process, which requires nutrients, ATP, and reduction equivalents, and, therefore, needs well-orchestrated machinery while coordinating defense and growth. We discovered that the key repressor of light signaling, the CONSTITUTIVE PHOTOMORPHOGENIC 1/SUPPRESSOR OF PHYTOCHROME A-105 (COP1/SPA) complex, is a crucial component of GSL biosynthesis regulation. Various mutants in this COP1/SPA complex exhibited a strongly reduced level of GSL and a low expression of jasmonate (JA)-dependent genes. Furthermore, cop1, which is known to accumulate DELLA proteins in the dark, shows reduced gibberellin (GA) and JA signaling, thereby phenocopying other DELLA-accumulating mutants. This phenotype can be complemented by a dominant gain-of-function allele of MYC3 and by crossing with a mutant having low DELLA protein levels. Hence, SPA1 interacts with DELLA proteins in a yeast two-hybrid screen, whereas high levels of DELLA inhibit MYC function and suppress JA signaling. DELLA accumulation leads to reduced synthesis of GSL and inhibited growth. Thus, the COP1/SPA-mediated degradation of DELLA not only affects growth but also regulates the biosynthesis of GSLs.

Published
2021

33. Illuminating the COP1/SPA Ubiquitin Ligase: Fresh Insights Into Its Structure and Functions During Plant Photomorphogenesis

Author

Ponnu, Jathish, Hoecker, Ute, Ponnu, Jathish, and Hoecker, Ute

Abstract

CONSTITUTIVE PHOTOMORPHOGENIC 1 functions as an E3 ubiquitin ligase in plants and animals. Discovered originally in Arabidopsis thaliana, COP1 acts in a complex with SPA proteins as a central repressor of light-mediated responses in plants. By ubiquitinating and promoting the degradation of several substrates, COP1/SPA regulates many aspects of plant growth, development and metabolism. In contrast to plants, human COP1 acts as a crucial regulator of tumorigenesis. In this review, we discuss the recent important findings in COP1/SPA research including a brief comparison between COP1 activity in plants and humans.

Published
2021

39. Genomic evidence revealsSPA-regulated developmental and metabolic pathways in dark-grownArabidopsisseedlings

Author

Pham, Vinh Ngoc, Paik, Inyup, Hoecker, Ute, Huq, Enamul, Pham, Vinh Ngoc, Paik, Inyup, Hoecker, Ute, and Huq, Enamul

Abstract

Photomorphogenesis is repressed in the dark mainly by an E3 ubiquitin ligase complex comprising CONSTITUTIVE PHOTOMORPHOGENIC 1 (COP1) and four homologous proteins called SUPPRESSOR OF PHYA-105 (SPA1-SPA4) in Arabidopsis. This complex induces the ubiquitination and subsequent degradation of positively acting transcription factors (TFs; e.g. ELONGATED HYPOCOTYL (HY5), LONG HYPOCOTYL IN FAR-RED 1 (HFR1), PRODUCTION OF ANTHOCYANIN PIGMENT 1 (PAP1) and others] in the dark to repress photomorphogenesis. Genomic evidence showed a large number of genes regulated by COP1 in the dark, of which many are direct targets of HY5. However, the genomic basis for the constitute photomorphogenic phenotype ofspaQremains unknown. Here, we show that >7200 genes are differentially expressed in thespaQbackground compared to wild-type in the dark. Comparison of the RNA sequencing (RNA-Seq) data betweencop1andspaQrevealed a large overlapping set of genes regulated by the COP1-SPA complex. In addition, many of the genes coordinately regulated by the COP1-SPA complex are also regulated by HY5 directly and indirectly. Taken together, our data reveal that SPA proteins repress photomorphogenesis by controlling gene expression in concert with COP1, likely through regulating the abundance of downstream TFs in light signaling pathways. Moreover, SPA proteins may function both in a COP1-dependent and -independent manner in regulating many biological processes and developmental pathways in Arabidopsis.

Published
2020

40. COLD REGULATED 27 and 28 are targets of CONSTITUTIVELY PHOTOMORPHOGENIC 1 and negatively affect phytochrome B signalling

Author

Kahle, Nikolai, Sheerin, David J., Fischbach, Patrick, Koch, Leonie-Alexa, Schwenk, Philipp, Lambert, Dorothee, Rodriguez, Ryan, Kerner, Konstantin, Hoecker, Ute, Zurbriggen, Matias D., Hiltbrunner, Andreas, Kahle, Nikolai, Sheerin, David J., Fischbach, Patrick, Koch, Leonie-Alexa, Schwenk, Philipp, Lambert, Dorothee, Rodriguez, Ryan, Kerner, Konstantin, Hoecker, Ute, Zurbriggen, Matias D., and Hiltbrunner, Andreas

Abstract

Phytochromes are red/far-red light receptors in plants involved in the regulation of growth and development. Phytochromes can sense the light environment and contribute to measuring day length; thereby, they allow plants to respond and adapt to changes in the ambient environment. Two well-characterized signalling pathways act downstream of phytochromes and link light perception to the regulation of gene expression. The CONSTITUTIVELY PHOTOMORPHOGENIC 1/SUPPRESSOR OF PHYA-105 (COP1/SPA) E3 ubiquitin ligase complex and the PHYTOCHROME INTERACTING FACTORs (PIFs) are key components of these pathways and repress light responses in the dark. In light-grown seedlings, phytochromes inhibit COP1/SPA and PIF activity and thereby promote light signalling. In a yeast-two-hybrid screen for proteins binding to light-activated phytochromes, we identified COLD-REGULATED GENE 27 (COR27). COR27 and its homologue COR28 bind to phyA and phyB, the two primary phytochromes in seed plants. COR27 and COR28 have been described previously with regard to a function in the regulation of freezing tolerance, flowering and the circadian clock. Here, we show that COR27 and COR28 repress early seedling development in blue, far-red and in particular red light. COR27 and COR28 contain a conserved Val-Pro (VP)-peptide motif, which mediates binding to the COP1/SPA complex. COR27 and COR28 are targeted for degradation by COP1/SPA and mutant versions with a VP to AA amino acid substitution in the VP-peptide motif are stabilized. Overall, our data suggest that COR27 and COR28 accumulate in light but act as negative regulators of light signalling during early seedling development, thereby preventing an exaggerated response to light.

Published
2020

41. Author response: Uncovering a novel function of the CCR4-NOT complex in phytochrome A-mediated light signalling in plants

Author

Schwenk, Philipp, primary, Sheerin, David J, additional, Ponnu, Jathish, additional, Staudt, Anne-Marie, additional, Lesch, Klara L, additional, Lichtenberg, Elisabeth, additional, Medzihradszky, Katalin F, additional, Hoecker, Ute, additional, Klement, Eva, additional, Viczián, András, additional, and Hiltbrunner, Andreas, additional

Published
2021
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46. COLD REGULATED 27 and 28 are targets of CONSTITUTIVELY PHOTOMORPHOGENIC 1 and negatively affect phytochrome B signalling

Author

Kahle, Nikolai, primary, Sheerin, David J., additional, Fischbach, Patrick, additional, Koch, Leonie‐Alexa, additional, Schwenk, Philipp, additional, Lambert, Dorothee, additional, Rodriguez, Ryan, additional, Kerner, Konstantin, additional, Hoecker, Ute, additional, Zurbriggen, Matias D., additional, and Hiltbrunner, Andreas, additional

Published
2020
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