Chengdu Newsun Biochemistry Co. Ltd. is a high –technique enterprise combing scientific research, industry and trade. The research institute engages in research of plant growth regulators; Staffs include professors, researchers, and high –level agronomies. Our products are high quality, high effect, low poison, no effects of pollution.
DEVELOPMENT HISTORY:
CHENGDU ZHAOYANG BIOLOGY HORMONE BIOLOGY HORMONE RESEARCH INSTITUTE IS INVESTED BY GOVERNMENT AND APPLIED A POTENT FROM NANCHANG UNIVERSITY. THE INSTITUTE IS MAINLY ENGAGED IN RESEARCH, DEVELOPMENT, PRODUCTION AND SALES OF NEW PLANT GROWTH REGULATOR BRASSINOLIDE 481.
IN 1988,RESEARCH INSTITUTE SUCCESFULLY APPLIED POTENT TO DISTILL BRASSINOLIDE 481 AND START BULK PRODUCTION. ON 30,DEC.1989, NATIONAL PLANT CHEMICAL CONTROL MEETING IS HOLD IN JIANGXI INDUSTRIAL UNIVERSITY. HANBIWEN, PROFESSOR OF BEIJING AGRICULTURE INSTITUTE, LUO BINGSHAN, PROFESSOR OF CHINA CENTRAL AGRICULTURE UNIVERSITY AND OTHER TEN EXPERTS FORMED EVALUATION COMMITTEE, AND SUCCESSFULLY, FULLY AND STRICTLY DELIBERATE THE BIOLOGY ACTIVENEE, PHYSIOLOGY EFFECT, EFFECT OF INCREASING PRODUCTION, EMULSION AND POWDER OF BRASSINOLIDE 481,GOT AN EVALUATION CONCLUSION: AFTER THREE YEARS’ REPEATED TEST , WHEN BRASSINOLIDE 481 APPLY TO PADDY AND PEANUT, IT INCREASES PRODUCTION DISTINCTLY.
THOSE TWO RESEARCH RESULTS INAUGURATE THE NEW WAY OF PLANT CHEMICAL CONTROL, FILL UP THE BLANK OF PLANT CHEMICAL CONTROL. IT IS IMPORTANT FOR DEVELOPMENT OF AGRICULTURE. THE RESEARCH RESULTS REACH THE ADVANCED LEVEL. THIS RESEARCH RESULT ASSURES THE RELIABILITY OF BRASSINOLIDE 481 ,OFFERS NEW SCIENTIFIC INFORMATION AND FORMULA TECHNIQUES. OFFER AUTHORITIED DEMONSTRATION AND SCIENTIFIC GROUND OF SCIENTIFIC TEST, ESTABLISH THE STABLE AND SCIENTIFIC TECHNOLOGY BASE OF FURTHER DEVELOPMENT OF BRASSINOLIDE 481.
IN 1992,IN ORDER TO APPROVE MANAGEMENT AND DEVELOP MARKET, ENHANCE BENEFIT, ZHAOYANG FINE CHEMISTRY FACTORY IS FOUNDED, SUPPORTED BY RESEARCH INSTITUTE. IN 1998,CHENGDU ZHAOYANG FINE CHEMISTRY FACTORY CARRY OUT REFORM OF STOCK SYSTEM. IN MAY,1999,CHENGDU NEWSUN BIOLOGY AND CHEMISTRY CO. LTD. IS REGISTERD AND FOUNDED.
Unlock the mysteries of plant growth, development, and response mechanisms with Plant Hormones! Dive into the fascinating world of the tiny molecules that control every aspect of a plant's life.
we are dedicated to providing an in-depth resource on phytohormones and their essential roles in the plant kingdom. Whether you’re a student, researcher, or enthusiast, our platform serves as your go-to guide for understanding these critical compounds.
What Are Plant Hormones?
are endogenous organic compounds that exert profound effects on cellular processes and intercellular communication. These regulators orchestrate physiological responses ranging from cell differentiation and organogenesis to abiotic stress tolerance and pathogen defense.
Plant hormones, or phytohormones, are natural substances that regulate growth, development, and environmental responses in plants. Explore their types:
Auxins: Root initiation, elongation, and tropic responses.
Gibberellins: Stem elongation and seed germination.
Cytokinins: Cell division and growth regulation.
Ethylene: Fruit ripening and stress response.
Abscisic Acid (ABA): Stress tolerance and dormancy.
Brassinosteroids: Development and immune responses.
Jasmonates & Strigolactones: Defense and symbiotic signaling.
Plant Hormones
- Mechanism of polar auxin transport via PIN proteins.
- Role in apical dominance, lateral root initiation, and phototropism.
- Modulation of cell cycle regulation through Type-A and Type-B response regulators.
- Synergistic and antagonistic interactions with auxins in morphogenesis.
- Role in DELLA protein degradation via the GA-GID1 complex.
- Implications for seed germination, stem elongation, and flowering.
- Signal transduction pathways via PYR/PYL/RCAR receptors.
- Influence on stomatal aperture and osmotic stress signaling.
- Ethylene biosynthesis via the ACC pathway and its role in senescence and fruit ripening.
- BR signaling cascade: Interaction with BRI1/BAK1 receptors.
- Modulation of growth responses and stress tolerance.
- Function in shoot branching inhibition and arbuscular mycorrhizal symbiosis.
- Jasmonic acid biosynthesis and its role in herbivory defense and secondary metabolite production.
Features of Our Platform
Molecular Pathways and Mechanisms: Detailed descriptions of biosynthesis, signaling cascades, and regulatory networks.
Applications in Agriculture:
Insights into phytohormone manipulation for improved crop yield, stress resistance, and pest management.
Advanced Research Insights:
Access the latest peer-reviewed studies and cutting-edge discoveries in phytohormone science.
Data and Tools:
Curated databases and modeling tools for hormone interaction networks and functional genomics.
Protocols and Techniques:
Standardized methodologies for hormone quantification, gene expression analysis, and phenotypic assays.
Who Should Use This Platform?
- Plant Biologists: Explore advanced concepts in plant hormonal control and cross-talk mechanisms.
- Agronomists: Leverage hormonal insights to optimize crop management strategies.
- Biotechnologists: Discover applications of phytohormones in genetic engineering and synthetic biology.
- Educators and Students: Access curated resources for teaching and learning plant hormonal biology.
Why Focus on Plant Hormones?
A thorough understanding of phytohormones is pivotal for:
- Deciphering plant adaptation strategies in fluctuating environments.
- Innovating solutions for global challenges in agriculture and food security.
- Advancing plant synthetic biology for next-generation crops.