Toxins Analysis Service
Creative Proteomics' targeted metabolomics services target specific metabolites and pathways of interest, which can accurately monitor dynamic metabolic processes, reveal related metabolic mechanisms and verify potential metabolic biomarkers, to guide your research with reliable and accurate measurement results.
Toxins refer to toxic chemical substances produced during the growth and metabolism of organisms. These substances are usually proteins that interfere with the action of other macromolecules in the organism, such as ricin.
Biological toxins are divided into protein toxins and non-protein toxins, including phytotoxins, bacterial toxins, animal toxins and mycotoxins, which can cause biological damage after they invade the body.
Detectable toxins at Creative Proteomics
※The items are constantly being updated, not only those listed, please contact our staff via email to get more latest information and related information.
The technical route of targeted metabolomics of toxins
- Consultation for details by email or phone
- Signing a contract
- Fill in the information sheet
- Sample submission
- Detection and analysis
- Output experiment report
- Delivery and after-sales Q&A
Creative Proteomics offers several approaches to plant metabolomics studies, delivers precise and detailed data and analysis report. We can also customize the methods or establish new methods together with our collaborators, so they are fit-for-purpose and meet your specific needs. If you have any questions or specific requirements, please feel free to contact us.
- Bhatnagar D, Rajasekaran K, Payne G, et al. The'omics' tools: genomics, proteomics, metabolomics and their potential for solving the aflatoxin contamination problem. World Mycotoxin Journal, 2008, 1(1): 3-12.
- Falade T, Chrysanthopoulos P K, Hodson M P, et al. Metabolites identified during varied doses of Aspergillus species in Zea mays grains, and their correlation with aflatoxin levels. Toxins, 2018, 10(5): 187.
- Mohammed A, Hussain R M, Ur R N, et al. De novo transcriptome sequencing and metabolite profiling analyses reveal the complex metabolic genes involved in the terpenoid biosynthesis in Blue Anise Sage (Salvia guaranitica L.). DNA Research (6):6.
For Research Use Only. Not for use in diagnostic procedures.