Acyl CoAs
- High Sensitivity and Specificity: Utilize high-resolution mass spectrometry instruments and optimized chromatographic conditions to ensure precise identification and quantification of Acyl-CoA.
- Comprehensive Metabolite Coverage: Detect and analyze various Acyl-CoA molecules, providing a detailed metabolic profile.
- Dynamic Change Analysis: Monitor Acyl-CoA level changes under different conditions, uncovering regulatory mechanisms.
- Efficient Data Analysis: Employ professional data analysis platforms to deliver comprehensive Acyl-CoA information and interpret its biological significance.
Acyl-CoA is a crucial intermediate in fatty acid metabolism, participating in vital biochemical processes such as β-oxidation of fatty acids, lipid synthesis, and energy metabolism. Variations in Acyl-CoA levels and composition can indicate cellular metabolic states, reveal disease mechanisms, and serve as biomarkers for metabolic disorders. Quantitative analysis of Acyl-CoA aids in studying the regulatory mechanisms of lipid and energy metabolism, promoting research into associated diseases and new drug development.
Figure 1. General Chemical Structure of an Acyl-CoA
MtoZ Biolabs offers specialized Acyl-CoA analysis services, combining advanced mass spectrometry technology with cutting-edge bioinformatics tools to deliver accurate and reliable quantitative analysis of Acyl-CoA, supporting scientific research and applications.
Analysis Workflow
Services at MtoZ Biolabs
Palmitoyl-CoA
Palmitoleoyl-CoA
Stearoyl-CoA
Oleoyl-CoA
Linoleoyl-CoA
Arachidyl-CoA
Arachidonyl-CoA
Behenyl-CoA
Lignoceryl-CoA
Cerotyl-CoA
Service Advantages
Applications
Disease Mechanism Research: Investigate the molecular mechanisms of metabolic diseases (e.g., diabetes, obesity, cardiovascular diseases) through Acyl-CoA analysis.
Biomarker Discovery: Identify and validate Acyl-CoA as potential biomarkers for metabolic disorders.
Drug Development: Assess the impact of drugs on Acyl-CoA metabolism, supporting drug screening and target validation.
Nutrition and Metabolism Research: Explore the effects of different nutritional states on Acyl-CoA metabolism, elucidating its role in energy metabolism.
Deliverables
1. Experimental Procedures
2. Relevant Liquid Chromatography and Mass Spectrometry Parameters
3. Detailed Information on Acyl-CoAs
4. Raw Data
5. Custom Analysis Report
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