9S,11,15S-trihydroxy-thrombox-13E-enoic Acid Analysis Service
- Disease biomarker discovery
- Drug efficacy and toxicity studies
- Nutritional and environmental exposure assessment
- Animal tissue ≥ 100 mg
- Plant tissue ≥ 200 mg
- Serum/ Plasma ≥ 200 μL
- Urine ≥ 2 mL
9S,11,15S-trihydroxy-thrombox-13E-enoic acid is a biologically active thromboxane derivative that plays a pivotal role in modulating platelet function and vascular homeostasis. This compound contains hydroxyl groups at the 9S, 11, and 15S positions, along with a conjugated double bond at the 13E position. As a member of the thromboxane family, it is a downstream metabolite derived from arachidonic acid through the cyclooxygenase (COX) pathway and thromboxane synthase activity, contributing to the regulation of thrombosis and inflammation. This compound is essential in thromboxane signaling, influencing platelet aggregation and vasoconstriction. 9S,11,15S-trihydroxy-thrombox-13E-enoic acid is involved in the resolution of clotting events, making it a key target for research in cardiovascular diseases, such as thrombosis, atherosclerosis, and hypertension. Additionally, its role in modulating inflammation positions it as a critical molecule for exploring the mechanisms of immune response and inflammatory diseases. Quantification of this thromboxane derivative is crucial for understanding its role in physiological and pathological processes, particularly in cardiovascular health. Monitoring its levels can provide insights into the efficacy of anti-thrombotic and anti-inflammatory therapies, aiding in the development of therapeutic interventions targeting thromboxane pathways.
Figure 1. The Structure of 9S,11,15S-trihydroxy-thrombox-13E-enoic Acid
MtoZ Biolabs, an integrated Chromatography and Mass Spectrometry (MS) Services Provider, providing advanced proteomics, metabolomics, and biopharmaceutical analysis services to researchers in biochemistry, biotechnology, and biopharmaceutical fields. Our ultimate aim is to provide more rapid, high-throughput, and cost-effective analysis, with exceptional data quality and minimal sample consumption.
MtoZ Biolabs offers a comprehensive 9S,11,15S-trihydroxy-thrombox-13E-enoic Acid Analysis Service, utilizing advanced mass spectrometry techniques to deliver precise and reliable quantification. Our service supports cutting-edge research in cardiovascular biology, inflammation, and pharmaceutical development.
Analysis Workflow
Service Advantages
1. Advance Analysis Platform
MtoZ Biolabs established an advanced 9S,11,15S-trihydroxy-thrombox-13E-enoic acid analysis service platform, guaranteeing reliable, fast, and highly accurate analysis service.
2. One-Time-Charge
Our pricing is transparent, no hidden fees or additional costs.
3. High-Data-Quality
Deep data coverage with strict data quality control. AI-powered bioinformatics platform integrate all 9S,11,15S-trihydroxy-thrombox-13E-enoic acid analysis service data providing clients with a comprehensive data report.
4. Customized Service
We understand that every project is unique, and we offer customized solutions to meet your specific needs.
Applications
Our 9S,11,15S-trihydroxy-thrombox-13E-enoic Acid Analysis Service can be applied in various research areas, including but not limited to:
Sample Submission Requirements
1. Sample Types
Serum, plasma, urine, tissues, and other biological samples. It is recommended to prepare at least 3 biological replicates for each sample type.
2. Sample Volume
3. Storage and Shipping
Samples should be stored at -80℃ and shipped with dry ice. Avoid repeated cycles of freezing and thawing
Note: Please provide details on sample collection and handling.
Deliverables
1. Comprehensive Experimental Details (Materials, Instruments, and Methods, etc.)
2. Relevant Liquid Chromatography and Mass Spectrometry Parameters
3. Detailed Information on 9S,11,15S-trihydroxy-thrombox-13E-enoic Acid
4. Raw Data
5. Custom Analysis Report
For more information about our 9S,11,15S-trihydroxy-thrombox-13E-enoic Acid Analysis Service, please do not hesitate to contact us. We look forward to assisting you in your research endeavors.
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