Unlocking Plant Growth: The Role of 1-Aminocyclopropane-1-carboxylic Acid
Discover the critical precursor to ethylene and its impact on plant development and stress responses.
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1-Aminocyclopropane-1-carboxylic acid
1-Aminocyclopropane-1-carboxylic acid (ACC) is a vital non-proteinogenic amino acid that serves as the direct precursor to the plant hormone ethylene. Its intricate involvement in plant physiological processes, from growth and development to stress responses, makes it a subject of intense research. Understanding its function is key to advancing agricultural science and improving crop yields.
- Explore the 1-aminocyclopropane-1-carboxylic acid plant hormone connection, understanding its foundational role in ethylene biosynthesis.
- Investigate ACC as a crucial ACC plant signaling molecule, mediating ethylene-independent pathways that influence plant development.
- Learn about the advanced LC-MS/MS phytohormone profiling techniques essential for accurate ACC quantification in complex biological matrices.
- Discover the applications of precise ethylene precursor ACC quantification in various plant research and agricultural contexts.
Key Advantages and Features
Essential for Ethylene Production
As the immediate precursor to ethylene, ACC is fundamental to regulating numerous plant developmental processes, making its study vital for understanding plant biology.
Beyond Ethylene Signaling
ACC exhibits ethylene-independent signaling, impacting plant responses to stimuli like pollination and stress, highlighting its multifaceted role in plant growth regulation ACC.
Enabling Accurate Analysis
The development of sophisticated analytical methods, such as LC-MS/MS phytohormone profiling, allows for precise measurement of ACC, even in small sample quantities, advancing plant hormone research & analysis.
Key Applications
Agrochemical Development
ACC's role in plant development makes it a target for developing novel plant growth regulators and understanding mechanisms relevant to agrochemical innovation.
Biochemical Research
Facilitating studies into the complex ethylene biosynthesis pathway and its regulatory mechanisms, contributing to fundamental plant science knowledge.
Hormone Profiling Studies
Critical for comprehensive phytohormone profiling services, enabling researchers to correlate ACC levels with other hormones and plant responses.
Stress Response Analysis
Understanding how ACC levels change under various environmental stresses is crucial for developing resilient crops and understanding plant stress response ACC mechanisms.
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