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[Related PubMed/MEDLINE]
Total Number of Papers: 202
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| Abbreviation |
: COP1 |
| Long Form |
: CONSTITUTIVE PHOTOMORPHOGENIC 1 |
|
| No. |
Year |
Title |
Co-occurring Abbreviation |
| 1 |
2023 |
HSP90s are required for hypocotyl elongation during skotomorphogenesis and thermomorphogenesis via the COP1-ELF3-PIF4 pathway in Arabidopsis. |
ELF3, HSP90s, PIF4 |
| 2 |
2023 |
Regulation of Plant Photoresponses by Protein Kinase Activity of Phytochrome A. |
HY5, phyA, PIFs, SPAs |
| 3 |
2023 |
Shade avoidance in the context of climate change. |
CRY1, phyB, PIFs |
| 4 |
2023 |
SmCIP7, a COP1 interactive protein, positively regulates anthocyanin accumulation and fruit size in eggplant. |
RNAi |
| 5 |
2022 |
Abscisic acid-induced cytoplasmic translocation of constitutive photomorphogenic 1 enhances reactive oxygen species accumulation through the HY5-ABI5 pathway to modulate seed germination. |
ABA, ROS |
| 6 |
2022 |
Arabidopsis B-box transcription factors BBX20-22 promote UVR8 photoreceptor-mediated UV-B responses. |
bZIP, HY5, UVR8, VP |
| 7 |
2022 |
Arabidopsis Phytochromes A and B Synergistically Repress SPA1 under Blue Light. |
HY5, phyA, SPA1 |
| 8 |
2022 |
Arabidopsis SPA2 represses seedling de-etiolation under multiple light conditions. |
CRY1, phy, SPA |
| 9 |
2022 |
Blue light-induced phosphorylation of Arabidopsis cryptochrome 1 is essential for its photosensitivity. |
CRY1, CRY2, PPKs |
| 10 |
2022 |
COP1 controls salt stress tolerance by modulating sucrose content. |
MS, WT |
| 11 |
2022 |
COP1 dynamics integrate conflicting seasonal light and thermal cues in the control of Arabidopsis elongation. |
ELF3, phyB |
| 12 |
2022 |
COP1 Mediates Dark-Induced Stomatal Closure by Suppressing FT, TSF and SOC1 Expression to Promote NO Accumulation in Arabidopsis Guard Cells. |
FT, NO, SOC1, TSF, WT |
| 13 |
2022 |
COP1 mutation causes low leaf temperature under various abiotic stresses in Arabidopsis thaliana. |
ABA, WT |
| 14 |
2022 |
COP1 positively regulates ABA signaling during Arabidopsis seedling growth in darkness by mediating ABA-induced ABI5 accumulation. |
ABA, ABD1 |
| 15 |
2022 |
Cysteines have a role in conformation of the UVR8 photoreceptor. |
RUP, UVB, UVR8 |
| 16 |
2022 |
Dark secrets of phytomelatonin. |
ROS, UVB |
| 17 |
2022 |
HYL1-CLEAVAGE SUBTILASE 1 (HCS1) suppresses miRNA biogenesis in response to light-to-dark transition. |
DCL1, HCS1, HYL1, miRNA, SE |
| 18 |
2022 |
Induced Mutation in GmCOP1b Enhances the Performance of Soybean under Dense Planting Conditions. |
--- |
| 19 |
2022 |
Mechanisms of UV-B light-induced photoreceptor UVR8 nuclear localization dynamics. |
Co-IP, FRAP, RUP1, UVB, UVR8 |
| 20 |
2022 |
Modelling of plant circadian clock for characterizing hypocotyl growth under different light quality conditions. |
CRY1, phyB |
| 21 |
2022 |
MYB30 integrates light signals with antioxidant biosynthesis to regulate plant responses during postsubmergence recovery. |
GSH1, MYB30, VTC1 |
| 22 |
2022 |
SICKLE represses photomorphogenic development of Arabidopsis seedlings via HY5- and PIF4-mediated signaling. |
HY5, PIFs, SIC |
| 23 |
2022 |
Stable ARMADILLO REPEAT KINESIN 2 in light inhibits hypocotyl elongation and facilitates light-induced cortical microtubule reorientation in Arabidopsis. |
ARK2 |
| 24 |
2022 |
The apple BTB protein MdBT2 positively regulates MdCOP1 abundance to repress anthocyanin biosynthesis. |
MdBT2 |
| 25 |
2022 |
The RNA helicase UAP56 and the E3 ubiquitin ligase COP1 coordinately regulate alternative splicing to repress photomorphogenesis in Arabidopsis. |
AS, mRNA |
| 26 |
2021 |
A missense mutation in WRKY32 converts its function from a positive regulator to a repressor of photomorphogenesis. |
--- |
| 27 |
2021 |
Arabidopsis cryptochrome 1 controls photomorphogenesis through regulation of H2A.Z deposition. |
BL, CRY1, HY5 |
| 28 |
2021 |
Arabidopsis cryptochrome 1 undergoes COP1 and LRBs-dependent degradation in response to high blue light. |
CRY1, HBL |
| 29 |
2021 |
Constitutive Photomorphogenic 1 Enhances ER Stress Tolerance in Arabidopsis. |
ER, HY5, TM, UPR |
| 30 |
2021 |
COP1 mediates light-dependent regulation of flavonol biosynthesis through HY5 in Arabidopsis. |
HY5 |
| 31 |
2021 |
Direct phosphorylation of HY5 by SPA kinases to regulate photomorphogenesis in Arabidopsis. |
HY5 |
| 32 |
2021 |
Erk1/2 Inactivation-Induced c-Jun Degradation Is Regulated by Protein Phosphatases, UBE2d3, and the C-Terminus of c-Jun. |
PP1, UBE2 |
| 33 |
2021 |
Expression of Tomato UVR8 in Arabidopsis reveals conserved photoreceptor function. |
UVR8 |
| 34 |
2021 |
Light-induced degradation of SPA2 via its N-terminal kinase domain is required for photomorphogenesis. |
DDB1, SPA |
| 35 |
2021 |
Long-term abscisic acid promotes golden2-like1 degradation through constitutive photomorphogenic 1 in a light intensity-dependent manner to suppress chloroplast development. |
ABA, GLK1, PORA |
| 36 |
2021 |
Mutual upregulation of HY5 and TZP in mediating phytochrome A signaling. |
FR, HY5, phyA |
| 37 |
2021 |
Origin and adaptive evolution of UV RESISTANCE LOCUS 8-mediated signaling during plant terrestrialization. |
BES1, BIM1, HY5, RUP, SPA, TFs, UVR8, WRKY36 |
| 38 |
2021 |
OsCOP1 regulates embryo development and flavonoid biosynthesis in rice (Oryza sativa L.). |
yel |
| 39 |
2021 |
The apple MdCOP1-interacting protein 1 negatively regulates hypocotyl elongation and anthocyanin biosynthesis. |
CIP1 |
| 40 |
2021 |
The GH3 amidosynthetases family and their role in metabolic crosstalk modulation of plant signaling compounds. |
GH3, GSTU, JA, JA-Ile, NRPS, SA |
| 41 |
2021 |
The Photomorphogenic Transcription Factor PpHY5 Regulates Anthocyanin Accumulation in Response to UVA and UVB Irradiation. |
CRY, HY5, UVA, UVB, UVR8 |
| 42 |
2020 |
A COP1-PIF-HEC regulatory module fine-tunes photomorphogenesis in Arabidopsis. |
HECs, PIFs, SPA |
| 43 |
2020 |
A HY5-COL3-COL13 regulatory chain for controlling hypocotyl elongation in Arabidopsis. |
COL, HY5 |
| 44 |
2020 |
Adjustment of the PIF7-HFR1 transcriptional module activity controls plant shade adaptation. |
HFR1, PIF |
| 45 |
2020 |
BBX28/BBX29, HY5 and BBX30/31 form a feedback loop to fine-tune photomorphogenic development. |
BBX, HY5 |
| 46 |
2020 |
COLD-REGULATED GENE27 Integrates Signals from Light and the Circadian Clock to Promote Hypocotyl Growth in Arabidopsis. |
COR27, HY5, PIF4 |
| 47 |
2020 |
COP1 destabilizes DELLA proteins in Arabidopsis. |
SPA1 |
| 48 |
2020 |
COR27 and COR28 Are Novel Regulators of the COP1-HY5 Regulatory Hub and Photomorphogenesis in Arabidopsis. |
COR |
| 49 |
2020 |
EGF Relays Signals to COP1 and Facilitates FOXO4 Degradation to Promote Tumorigenesis. |
CSN6, FOXO4, SGOC |
| 50 |
2020 |
Functional analysis of ZmCOP1 and ZmHY5 reveals conserved light signaling mechanism in maize and Arabidopsis. |
HY5 |
| 51 |
2020 |
Genomic evidence reveals SPA-regulated developmental and metabolic pathways in dark-grown Arabidopsis seedlings. |
HFR1, PAP1, RNA-Seq |
| 52 |
2020 |
Light signaling and UV-B-mediated plant growth regulation. |
HY5 |
| 53 |
2020 |
Molecular pathways regulating elongation of aerial plant organs: a focus on light, the circadian clock, and temperature. |
SPA |
| 54 |
2020 |
PCH1 and PCHL Directly Interact with PIF1, Promote Its Degradation, and Inhibit Its Transcriptional Function during Photomorphogenesis. |
PCH1, PCHL, phyB, PIF1 |
| 55 |
2020 |
The C-terminal 17 amino acids of the photoreceptor UVR8 is involved in the fine-tuning of UV-B signaling. |
UVR8 |
| 56 |
2020 |
The Photomorphogenic Central Repressor COP1: Conservation and Functional Diversification during Evolution. |
--- |
| 57 |
2019 |
A phyB-PIF1-SPA1 kinase regulatory complex promotes photomorphogenesis in Arabidopsis. |
SPA1-SPA4 |
| 58 |
2019 |
A transient expression system in soybean mesophyll protoplasts reveals the formation of cytoplasmic GmCRY1 photobody-like structures. |
CPs, NPs |
| 59 |
2019 |
BBX4, a phyB-interacting and modulated regulator, directly interacts with PIF3 to fine tune red light-mediated photomorphogenesis. |
BBX4, phyB, PIF3 |
| 60 |
2019 |
Beyond Light: Insights Into the Role of Constitutively Photomorphogenic1 in Plant Hormonal Signaling. |
--- |
| 61 |
2019 |
COP1 and BBXs-HY5-mediated light signal transduction in plants. |
DDB1 |
| 62 |
2019 |
Correlation of constitutive photomorphogenic 1 (COP1) and p27 tumor suppressor protein expression in ovarian cancer. |
--- |
| 63 |
2019 |
Extrachloroplastic PP7L Functions in Chloroplast Development and Abiotic Stress Tolerance. |
CRY, csn, phy, PIF, pp7l, rRNA, SIG5 |
| 64 |
2019 |
KAI2-KL signaling intersects with light-signaling for photomorphogenesis. |
KAI2 |
| 65 |
2019 |
PEDF promotes nuclear degradation of ATGL through COP1. |
ATGL, PEDF |
| 66 |
2019 |
PHYTOCHROME INTERACTING FACTOR8 Inhibits Phytochrome A-Mediated Far-Red Light Responses in Arabidopsis. |
bHLH, PIFs |
| 67 |
2019 |
Proline 411 biases the conformation of the intrinsically disordered plant UVR8 photoreceptor C27 domain altering the functional properties of the peptide. |
UVR8 |
| 68 |
2018 |
Arabidopsis ANGUSTIFOLIA3 (AN3) is associated with the promoter of CONSTITUTIVE PHOTOMORPHOGENIC1 (COP1) to regulate light-mediated stomatal development. |
AN3 |
| 69 |
2018 |
B-BOX DOMAIN PROTEIN28 Negatively Regulates Photomorphogenesis by Repressing the Activity of Transcription Factor HY5 and Undergoes COP1-Mediated Degradation. |
--- |
| 70 |
2018 |
Constitutively Photomorphogenic 1 Reduces the Sensitivity of Chronic Lymphocytic Leukemia Cells to Fludarabine Through Promotion of Ubiquitin-Mediated P53 Degradation. |
BM, CLL |
| 71 |
2018 |
COP1 plays a prominent role in drought stress tolerance in Arabidopsis and Pea. |
ABA |
| 72 |
2018 |
COP1 SUPPRESSOR 4 promotes seedling photomorphogenesis by repressing CCA1 and PIF4 expression in Arabidopsis. |
CCA1, CSU4, DET1, PIF4 |
| 73 |
2018 |
DET1 and COP1 Modulate the Coordination of Growth and Immunity in Response to Key Seasonal Signals in Arabidopsis. |
DET1, PIF4 |
| 74 |
2018 |
Ethylene-independent promotion of photomorphogenesis in the dark by cytokinin requires COP1 and the CDD complex. |
--- |
| 75 |
2018 |
Light-dependent suppression of COP1 multimeric complex formation is determined by the blue-light receptor FKF1 in Arabidopsis. |
FKF1, SEC, SPA1 |
| 76 |
2018 |
Low Temperature-Enhanced Flavonol Synthesis Requires Light-Associated Regulatory Components in Arabidopsis thaliana. |
--- |
| 77 |
2018 |
Photoperiod sensing system for timing of flowering in plants. |
CC, CO, FKF1, FT, SPA1 |
| 78 |
2018 |
Photoreceptor-mediated regulation of the COP1/SPA E3 ubiquitin ligase. |
SPA |
| 79 |
2018 |
The COP1 Target SHI-RELATED SEQUENCE5 Directly Activates Photomorphogenesis-Promoting Genes. |
BBX21, HY5, SRS5 |
| 80 |
2018 |
The SUMO Conjugation Complex Self-Assembles into Nuclear Bodies Independent of SIZ1 and COP1. |
NBs, SIZ1, SUMO |
| 81 |
2018 |
The ubiquitin ligase COP1 regulates cell cycle and apoptosis by affecting p53 function in human breast cancer cell lines. |
CDK2, PUMA, shRNA |
| 82 |
2018 |
Two B-Box Domain Proteins, BBX18 and BBX23, Interact with ELF3 and Regulate Thermomorphogenesis in Arabidopsis. |
BBX18, ELF3, PIF4 |
| 83 |
2017 |
A CRY-BIC negative-feedback circuitry regulating blue light sensitivity of Arabidopsis. |
CRY1, CRY2, HY5, LD |
| 84 |
2017 |
COP1 conveys warm temperature information to hypocotyl thermomorphogenesis. |
HY5 |
| 85 |
2017 |
COP1 mediates dark-specific degradation of microtubule-associated protein WDL3 in regulating Arabidopsis hypocotyl elongation. |
MAP, WDL3 |
| 86 |
2017 |
External coincidence model for hypocotyl thermomorphogenesis. |
CCA1, HY5 |
| 87 |
2017 |
FAR-RED INSENSITIVE 219/JAR1 Contributes to Shade Avoidance Responses of Arabidopsis Seedlings by Modulating Key Shade Signaling Components. |
JA |
| 88 |
2017 |
High Ambient Temperature Represses Anthocyanin Biosynthesis through Degradation of HY5. |
HY5 |
| 89 |
2017 |
Integration of Ethylene and Light Signaling Affects Hypocotyl Growth in Arabidopsis. |
ERF1, HY5, phyB, PIF3 |
| 90 |
2017 |
Jasmonate inhibits COP1 activity to suppress hypocotyl elongation and promote cotyledon opening in etiolated Arabidopsis seedlings. |
JA, SPA1 |
| 91 |
2017 |
Jasmonate suppresses seedling soil emergence in Arabidopsis thaliana. |
COI1 |
| 92 |
2017 |
Light Inhibits COP1-Mediated Degradation of ICE Transcription Factors to Induce Stomatal Development in Arabidopsis. |
ICE, SPCH |
| 93 |
2017 |
Noncanonical role of Arabidopsis COP1/SPA complex in repressing BIN2-mediated PIF3 phosphorylation and degradation in darkness. |
BIN2, PIF3, SPA |
| 94 |
2017 |
Phosphorylation and negative regulation of CONSTITUTIVELY PHOTOMORPHOGENIC 1 by PINOID in Arabidopsis. |
PID |
| 95 |
2017 |
Shining a light on the Arabidopsis circadian clock. |
ELF3, PIFs |
| 96 |
2017 |
Stabilizing the Transcription Factors by E3 Ligase COP1. |
--- |
| 97 |
2017 |
The F-box protein FKF1 inhibits dimerization of COP1 in the control of photoperiodic flowering. |
CO, FKF1, FT |
| 98 |
2017 |
The Transcription Factor COL12 Is a Substrate of the COP1/SPA E3 Ligase and Regulates Flowering Time and Plant Architecture. |
CO, COL, SPA |
| 99 |
2016 |
An Arabidopsis SUMO E3 Ligase, SIZ1, Negatively Regulates Photomorphogenesis by Promoting COP1 Activity. |
SUMO |
| 100 |
2016 |
Arabidopsis COP1-interacting protein 1 is a positive regulator of ABA response. |
ABA, CIP1, At5g41790 |
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