Oxalacetic Acid: A Vital Component in Cellular Metabolism and Beyond
Discover the critical role of Oxalacetic Acid in energy cycles and its diverse applications in biotechnology and research.
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Oxalacetic Acid
Oxalacetic Acid, identified by CAS number 328-42-7, is a foundational alpha-keto acid critical for numerous biological processes. It plays a central role in cellular energy production, serving as a key intermediate in vital metabolic pathways such as the citric acid cycle and gluconeogenesis. Its ability to inhibit succinate dehydrogenase also makes it a significant compound in biochemical research.
- Central to Cellular Metabolism: This compound is indispensable for the functioning of the citric acid cycle, directly reacting with acetyl-CoA to form citrate, a cornerstone of cellular energy production.
- Enhances Hybridoma Cell Culture: As a supplement, Oxalacetic Acid has been proven to boost the growth and productivity of hybridoma cells, making it invaluable in biotechnology and antibody production.
- Metabolic Pathway Intermediate: Its involvement in gluconeogenesis and other critical biochemical pathways highlights its importance in understanding and manipulating cellular functions.
- Research Chemical Significance: The precise role of Oxalacetic Acid in inhibiting specific enzymes like succinate dehydrogenase underscores its utility in detailed biochemical studies and drug discovery.
Key Advantages of Utilizing Oxalacetic Acid
Metabolic Efficiency Support
Leverage the role of Oxalacetic Acid in cellular metabolism to optimize energy production pathways and enhance cellular efficiency in various applications.
Biotechnological Advancement
The application of Oxalacetic Acid in hybridoma cell culture directly contributes to advancements in biotechnology, particularly in the production of therapeutic proteins and antibodies.
Research Tool Versatility
Its well-defined biochemical properties, including enzyme inhibition, make Oxalacetic Acid a versatile tool for researchers investigating cellular processes and metabolic disorders.
Key Applications
Cellular Metabolism Studies
Understanding the fundamental aspects of cellular energy production and metabolic pathways is greatly aided by the availability and study of compounds like Oxalacetic Acid.
Biotechnology & Cell Culture
In the realm of biotechnology, particularly for hybridoma cell culture, Oxalacetic Acid is a vital nutrient supplement that enhances cell proliferation and product yield.
Biochemical Research
Researchers utilize Oxalacetic Acid to probe enzyme kinetics and metabolic regulation, contributing to a deeper understanding of biological systems and potential therapeutic targets.
Pharmaceutical Intermediates
As a key intermediate, Oxalacetic Acid is crucial in the synthesis of various compounds, highlighting its importance in the broader pharmaceutical and chemical industries.