COP1 and phyB Physically Interact with PIL1 to Regulate Its Stability and Photomorphogenic Development in Arabidopsis. - Wikidata - wikimedia - TriplyDB

COP1 and phyB Physically Interact with PIL1 to Regulate Its Stability and Photomorphogenic Development in Arabidopsis.

COP1 and phyB Physically Interact with PIL1 to Regulate Its Stability and Photomorphogenic Development in Arabidopsis.

http://www.wikidata.org/entity/Q40201855

about

An Arabidopsis SUMO E3 Ligase, SIZ1, Negatively Regulates Photomorphogenesis by Promoting COP1 Activity The transcriptional repressor complex FRS7-FRS12 regulates flowering time and growth in Arabidopsis.Transcriptome Analysis of Genes Associated with the Artemisinin Biosynthesis by Jasmonic Acid Treatment under the Light in Artemisia annua.14-3-3 proteins participate in light signaling through association with PHYTOCHROME INTERACTING FACTORs.Linked circadian outputs control elongation growth and flowering in response to photoperiod and temperature.LSD1 and HY5 antagonistically regulate red light induced-programmed cell death in Arabidopsis Arabidopsis COP1 SUPPRESSOR 2 Represses COP1 E3 Ubiquitin Ligase Activity through Their Coiled-Coil Domains Association BBX21, an Arabidopsis B-box protein, directly activates HY5 and is targeted by COP1 for 26S proteasome-mediated degradation.COP1 Controls Abiotic Stress Responses by Modulating AtSIZ1 Function through Its E3 Ubiquitin Ligase Activity.Phytochrome B Negatively Affects Cold Tolerance by Regulating OsDREB1 Gene Expression through Phytochrome Interacting Factor-Like Protein OsPIL16 in Rice.Shedding light on ethylene metabolism in higher plants Genome-wide analysis of basic helix-loop-helix (bHLH) transcription factors in Brachypodium distachyon.Protein turnover in plant biology.A Negative Feedback Loop between PHYTOCHROME INTERACTING FACTORs and HECATE Proteins Fine-Tunes Photomorphogenesis in Arabidopsis.The RING-Finger Ubiquitin Ligase HAF1 Mediates Heading date 1 Degradation during Photoperiodic Flowering in Rice.PIF4 and ELF3 Act Independently in Arabidopsis thaliana Thermoresponsive Flowering.Hormonal Regulation in Shade Avoidance.Noncanonical role of Arabidopsis COP1/SPA complex in repressing BIN2-mediated PIF3 phosphorylation and degradation in darkness.Mechanism of Dual Targeting of the Phytochrome Signaling Component HEMERA/pTAC12 to Plastids and the Nucleus.The RopGEF2-ROP7/ROP2 Pathway Activated by phyB Suppresses Red Light-Induced Stomatal Opening.Mechanism of early light signaling by the carboxy-terminal output module of Arabidopsis phytochrome B.Phosphorylation and negative regulation of CONSTITUTIVELY PHOTOMORPHOGENIC 1 by PINOID in Arabidopsis.COP1 regulates plant growth and development in response to light at the post-translational level.Arabidopsis MKK10-MPK6 mediates red-light-regulated opening of seedling cotyledons through phosphorylation of PIF3.Phytochromes and Phytochrome Interacting Factors.HEMERA Couples the Proteolysis and Transcriptional Activity of PHYTOCHROME INTERACTING FACTORs in Arabidopsis Photomorphogenesis.Arabidopsis TSO1 and MYB3R1 form a regulatory module to coordinate cell proliferation with differentiation in shoot and root.Arabidopsis GAAP1 and GAAP3 Modulate the Unfolded Protein Response and the Onset of Cell Death in Response to ER Stress.Differential Gene Expression Caused by the and Loci Provides Insight Into Ethylene-Mediated Female Flower Differentiation in Cucumber

P2860

Q28551690-DE62C7F6-9C67-4685-816F-1F7AF0606643 Q33705566-B1DEEB90-6AF6-4B2E-9E10-6231900873E0 Q33775153-04DE3A73-7497-4A3E-AA26-5FC2AF272A1D Q34834950-EF9FFBC1-0598-4F18-A6BD-C85C2DC962F3 Q35093994-667756BF-59CD-4B72-A618-B1E544E5FC91 Q35569420-2CE4D91A-AB50-41B8-867C-F67D47608E7D Q35880779-96A5FF13-9781-4FDE-A8ED-B46111BB53C2 Q37086634-E0AD0617-6447-45C8-A7A1-13286FAEA305 Q37147073-615EC0B9-5949-428B-8803-8C56DC7B558D Q37531613-65CD6026-691B-4C62-9E6C-F715DB872BAF Q38292686-5D255E46-E6B7-40EC-A0F9-51C45A42ED0F Q38429840-67FCE342-AE42-4FED-BA59-DC0C8EA01FA8 Q38849648-0DF8D706-DC85-435A-A8D2-20FBE4C35431 Q39854843-857944D6-B396-4B85-95B7-943FDC262362 Q40618287-D9174766-F02B-4B33-BCBB-A9E0AE8EAE52 Q40957989-994AE7D1-277A-4CB5-9B2D-811DCE911611 Q41465583-C6E17678-D4EC-4D25-BA7D-3FFC74413EFE Q41677837-F39FDF55-337C-493D-96AA-0141AF253D42 Q46161402-2D59A172-CAF1-4193-9430-C761EC68BC62 Q46520206-BD7200BB-F76F-4D6F-BFC9-9F5AE37466FE Q46895367-24B76D5A-4DFC-48B7-8601-C5887E4DAADC Q47271174-003B42EA-CE11-4896-88CC-C92C2B46027E Q47676644-8A27AA5F-4F68-4E78-9977-CAA36EE42947 Q49824609-B5D2B43F-01DB-405B-AE16-674CD89577F2 Q50016209-CCD491E1-C2FC-4DC8-86EC-687B1BE17265 Q50446313-7C191F80-48C1-4597-B7B7-E2F2B4B9081A Q52357000-2A2A2D2F-6ABD-418F-A749-8C27C24211D4 Q55260078-7F4C59F7-5300-4140-9BC3-4F753DE84FA9 Q58781357-F4E16E09-5685-4884-8668-D5DC3D45FFF0

P2860

COP1 and phyB Physically Interact with PIL1 to Regulate Its Stability and Photomorphogenic Development in Arabidopsis.

http://www.wikidata.org/entity/Q40201855

description

2014 nî lūn-bûn

@nan

2014年の論文

@ja

2014年論文

@yue

2014年論文

@zh-hant

2014年論文

@zh-hk

2014年論文

@zh-mo

2014年論文

@zh-tw

2014年论文

@wuu

2014年论文

@zh

2014年论文

@zh-cn

name

COP1 and phyB Physically Inter ...... ic Development in Arabidopsis.

@en

type

label

COP1 and phyB Physically Inter ...... ic Development in Arabidopsis.

@en

prefLabel

COP1 and phyB Physically Inter ...... ic Development in Arabidopsis.

@en

P1433

Q40201855-75DF47DC-9A48-474C-AFD2-B41574E7D36E

P1476

Q40201855-45376359-DB07-44A2-852B-7B1D9E0F665A

P2093

Q40201855-222BEEEC-3572-4E28-9A19-2BDABFDB0C1D

Q40201855-3CBBBFA4-3180-43EC-B9C5-5217579B2E13

Q40201855-3FB53715-5DD0-4E30-A796-D62E4E267D8E

Q40201855-59C9BA55-42C7-4B07-A31F-AE778AF1C208

Q40201855-6F8752A9-E1CA-4BE4-BF1C-F71839D3B7A0

Q40201855-C46B7E29-F5BE-4A41-9BCB-447E10E5997B

P2860

Q40201855-02483BA3-706D-4B0E-83B1-0F656DA978EC

Q40201855-02706D3B-C533-45EE-BAC9-2FDEE03DD786

Q40201855-08FB43DD-7054-4895-B684-EF081E2C1016

Q40201855-09065FE2-B257-40F3-92D5-9AABB865D673

Q40201855-1195395E-CC9D-4962-9088-003962E4BF11

Q40201855-1295EEB3-3E75-482F-A77E-A55F89280A50

Q40201855-13FFBE99-12FF-4F22-B8DF-745D49BEDF01

Q40201855-184FA023-7620-4045-9ECC-905CEBE14E7B

Q40201855-2291B676-D8D5-41C4-BEBB-FA4E72022EA2

Q40201855-27D5313F-ECA7-4A15-BB3B-DD533C924595

P304

Q40201855-E1B2BDFC-F2C1-40BE-9D31-878C0649164E

P31

Q40201855-A4E24CF8-162F-4757-8A7A-8B3A3BD2D65A

P356

Q40201855-4FEC8D2E-5E53-4D0C-8CAB-4FAE61A9605B

P433

Q40201855-F96B0C50-BCCD-4211-8E89-5144A4749283

P478

Q40201855-679B157B-172C-481B-A003-72F19E7E74E6

P577

Q40201855-3D7C42E5-6A44-47F4-8215-ECAE35132252

P5875

Q40201855-38675ED6-BDFD-4E66-A3EE-8A83127ABC88

P698

Q40201855-D714D656-676F-4C5C-A9F1-2E443FAC2468

P932

Q40201855-CF8F9593-8932-43C1-93C1-4163AAF3CD77

P356

P1433

P1476

COP1 and phyB Physically Inter ...... ic Development in Arabidopsis.

@en

P2093

Hong-Li Lian

http://www.w3.org/2001/XMLSchema#string

Hong-Quan Yang

http://www.w3.org/2001/XMLSchema#string

Kun-Peng Jia

http://www.w3.org/2001/XMLSchema#string

Ling Li

http://www.w3.org/2001/XMLSchema#string

Qian Luo

http://www.w3.org/2001/XMLSchema#string

Sheng-Bo He

http://www.w3.org/2001/XMLSchema#string

P2860

Photoreceptors in plant photomorphogenesis to date. Five phytochromes, two cryptochromes, one phototropin, and one superchrome

Transient expression vectors for functional genomics, quantification of promoter activity and RNA silencing in plants

A Link between circadian-controlled bHLH factors and the APRR1/TOC1 quintet in Arabidopsis thaliana

Phytochrome structure and signaling mechanisms.

The SPA quartet: a family of WD-repeat proteins with a central role in suppression of photomorphogenesis in arabidopsis.

HFR1 is crucial for transcriptome regulation in the cryptochrome 1-mediated early response to blue light in Arabidopsis thaliana

Inhibition of the shade avoidance response by formation of non-DNA binding bHLH heterodimers.

The COP1-SPA1 interaction defines a critical step in phytochrome A-mediated regulation of HY5 activity

Signalling in light-controlled development.

Light: an indicator of time and place.

P304

2441-2456

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1105/TPC.113.121657

http://www.w3.org/2001/XMLSchema#string

P433

6

http://www.w3.org/2001/XMLSchema#string

P478

26

http://www.w3.org/2001/XMLSchema#string

P577

2014-06-20T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

263322778

http://www.w3.org/2001/XMLSchema#string

P698

24951480

http://www.w3.org/2001/XMLSchema#string

P932

4114944

http://www.w3.org/2001/XMLSchema#string