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Keyword [COP1]
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1. Further Explore The Arabidopsis Csn1 Cop1 Intracellular Positioning And The Csn1 Biological Functions
2. Arabidopsis Phytochrome B Directly Regulates COP1and SPA1Nuclear Activities To Suppress The Photomorphogenesis Under Far-Red Light
3. Researches About Interaction And Genetic Transformation On Light Regulator Of COP1, HY5
4. Analysis Of Expression Patterns Cry1, Cry2, And COP1 Promoters In Arabidopsis
5. Biochemistry Analysis Of Blue Light Receptor Interaction With Spa1and The Mechanism In Arabidopsis
6. Effect Of Ethylene And Light On Hypocotyl Elongation In Arabidopsis And Exploration Of Chorispora Bungeana Unknown Protein Functions
7. The Molecular Mechanism Of Cross-talking Between Light-and Phytohormones Strigolactone-and Jasmonate-signaling
8. COP1 And PhyB Physically Interact With PIL1 To Regulate Its Stability And Photomorphogenic Development In Arabidopsis
9. The Functional Analysis Of Arabidopsis UV-B Photoreceptor UVR8
10. The Molecular Mechanism Of Photomorphogenic Development Promoted By Red Light-dependent Interaction Of PhyB With SPA1 In Arabidopsis
11. The Influence Of Light Signal And GAs On Anthocyanins Accumulation Induced By Low Nitrogen In Arabidopsis
12. Molecular Mechanism Of Jasmonic Acid Inhibiting The Dark Form Of Arabidopsis Thaliana
13. COP1 Mediates Degradation Of Microtubule-associated Protein WDL3 In Regulating Arabidopsis Hypocotyl Elongation
14. The Molecular Mechanisms Underlying TZP Regulation Of Far-red Light Signaling
15. Functional Study Of AtBBX21 In UV-B-Induced Photomorphogenesis In Arabidopsis
16. The Role Of COP1 In Dark-induced Stomatal Closure And Its Relationship With H2O2, NO, FT, TSF And SOC1
17. The Mechanism Of AFP2 And COP1 Interacting To Regulate The Thermal Morphogenesis Of Arabidopsis Hypocotyls
18. COP1 And HY5 Mediate UV-B-induced Stomatal Closure By Promoting Ethylene Synthesis And Transmitting Ethylene Signaling
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