Butylamine Analysis Service
- Rapid Analysis Cycle and Cost-Effectiveness
- Stable, Reliable, and Highly Sensitive Results
- Comprehensive One-Stop Service for Extensive Testing Needs
- User-Friendly Operation with Wide Application Scope
- Supported by Extensive Bioanalytical Resources and Advanced Platforms
- Animal tissue ≥ 100 mg
- Plant tissue ≥ 200 mg
- Serum/ Plasma ≥ 200 μL
- Urine ≥ 2 mL
Butylamine is an organic compound with the molecular formula C₄H₁₁N, belonging to the amine class of compounds. Its structure consists of a four-carbon straight-chain alkyl group (butyl group, C₄H₉) attached to an amino group (–NH₂). Butylamine is typically a colorless liquid with a strong ammonia-like odor, readily soluble in water and many organic solvents. It is commonly used as an intermediate in the synthesis of pharmaceuticals, agrochemicals, and other organic compounds, and can also participate in reactions that produce biologically active substances. Therefore, studying the metabolism of butylamine and its metabolites in the body is important for drug development. Analyzing the absorption, distribution, metabolism, and excretion (ADME) of butylamine in the body helps in understanding the mechanism of action, toxicity, and safe dosage of drugs involving butylamine. The accumulation or transformation of butylamine metabolites may impact the efficacy and side effects of related compounds. Thus, analyzing butylamine and its metabolites can aid in optimizing drug formulations and ensuring safety.
Gas chromatography (GC) is frequently used for the quantitative analysis of butylamine. Due to its volatile properties, the sample can be vaporized, and butylamine is separated between the stationary and mobile phases, enabling precise quantitative analysis. High-performance liquid chromatography (HPLC) can also be employed to detect butylamine in complex matrices. When coupled with UV or fluorescence detectors, HPLC efficiently separates and quantifies butylamine with high accuracy. Mass spectrometry (MS) offers precise identification of butylamine's molecular structure and mass data, making it particularly useful for analyzing its metabolites or complex mixtures.
Figure 1. The Structure of Butylamine
MtoZ Biolabs provides top-notch Butylamine Analysis Service, utilizing our state-of-the-art liquid chromatography-mass spectrometry (LC-MS) platform and a team of metabolomics experts. Our service offers a comprehensive butylamine analysis, assuring high sensitivity and accuracy.
Analysis Workflow
Service Advantages
Applications
1. Discovering new disease biomarkers
2. Enhancing disease diagnosis
3. Speeding up the discovery of innovative therapeutics
4. Uncovering new insights into disease mechanisms
Sample Submission Requirements
1. Sample Types
Serum, plasma, urine, tissues and other biological samples. At least 3 samples under the same condition for each type are required.
2. Sample Volume
3. Sample Preservation
Store at -80°C to maintain stability.
Note: Please provide detailed information on sample collection and handling.
Deliverables
1. Experimental Procedures
2. Related Liquid Chromatography and Mass Spectrometry Parameters
3. Detailed Information on Butylamine
4. Raw Data
5. Custom Analysis Report
Our Butylamine Analysis Service aims to facilitate your research and product development processes with precise and reliable data.
How to order?