Untargeted Metabolomics

Untargeted Metabolomics is a robust analytical technique designed for a comprehensive exploration of all measurable metabolites without predefined hypotheses. This method enables a thorough examination of metabolomic profile changes within biological samples, facilitating an understanding of biochemical functions during both normal and diseased states. Our untargeted metabolomics services leverage cutting-edge analytical technologies to identify both known and novel metabolites, offering fresh scientific insights for disease research and biopharmaceutical advancements.

MtoZ Biolabs conducts untargeted metabolomics analyses using state-of-the-art liquid chromatography-mass spectrometry (LC-MS). This technique meticulously analyzes complex metabolite mixtures, including organic acids, amino acids, and lipids, all crucial for comprehensive metabolic profiling.

Analysis Workflow

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Zeki, Ö. C. et al. J. Pharm. Biomed, 2020.

Figure 1. Untargeted Metabolomics Analysis Workflow

Date Analysis

Services at MtoZ Biolabs

Lipidomics

Plant Metabolomics

Animal Metabolomics

Microbial Metabolomics

Exosome Metabolomics

Service Advantages

Comprehensive Metabolite Coverage: Capable of analyzing over 95% of known metabolic pathways' small molecule metabolites.
Exceptional Sensitivity and Precision: Utilizes LC-MS technology to detect minute quantities of metabolites across a variety of biological samples efficiently.
Versatile Sample Compatibility: Supports a wide array of sample types including blood, urine, tissues, and cells.

Sample Submission Requirements

Sample Types

Sample Volume

Animal tissues: ≥ 100 mg
Plant tissue: ≥ 200 mg
Cells: ≥ 1×10^7 cells
Microbes: ≥ 200 µL
Serum/plasma ≥ 200 μL
Urine: ≥ 2 mL

Please contact our technical team for more detailed requests for samples.

Applications

1. Disease Mechanism Research: Investigates metabolic alterations associated with specific diseases, uncovering underlying disease mechanisms.

2. Drug Development: Evaluates drugs' metabolic effects to inform the design and optimization of dosages.

3. Precision Medicine: Utilizes metabolic biomarkers for diagnosing and evaluating treatment efficacy, enhancing treatment customization and accuracy.

4. Environmental Impact Studies: Examines the influence of environmental factors on metabolic activities within organisms.

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