4000+ lipids can be detected at one time.
Quantitative Lipidomics is a high-throughput targeted approach that simultaneously identifies and quantifies with semiquantification of over 4000 lipids.
Lipidomics refers to the study of the structure, function, content changes, and interactions of lipids in organisms to reveal the regulatory role of lipid metabolism on the physiological and pathological state of the organism. Quantitative Lipidomics is a high-throughput targeted approach that simultaneously identifies and quantifies with semiquantification of over 4000 lipids. Metware Biotechnology has developed a professional method for the detection of lipids, covering 51 kinds, such as CE, Cer, HexCer, SM, FA, CAR, Eicosanoid, PC, LPC, PE, LPE, PG, LPG, PS, LPS, PI, TG, DG.
4000+ lipids can be detected at one time.
Simultaneous detection of more than 51 types of lipids such as CE, Cer, HexCer, SM, FA, CAR, Eicosanoid, PC, LPC, PE, LPE, PG, LPG, PS, LPS, PI, TG, DG, etc.
Better reproducibility of multiple testing results, with intra-batch correction for large sample volumes.
The use of highly sensitive mass spectrometer AB SCIEX6500+, detection down to pg level.
Absolute quantification by internal standard method with more accurate results (standard + isotope internal standard).
Clinical disease research: applied to various types of disease research such as cardiovascular, tumor, immune, endocrine, gastrointestinal, and neurological.
Screening of Biomarkers: by studying the differences in lipid profiles between different groups, screening of Biomarkers can be used for research on disease diagnosis, disease staging/staging, prognosis determination, etc.
Mechanism studies: e.g. mechanism studies of lipid effects on growth, development, energy metabolism, signal transduction processes, and diseases.
Pharmaceutical therapy: e.g. polyketide anti-microbial, anti-parasitic and anti-tumor drugs.
Multi-omics joint research: combined with other histologies to study the physiological and pathological effects of the organism, such as the elucidation of regulatory genes of important lipids that affect disease health and the mechanisms of regulation.
Number of Lipids | ||
Class I | Class II | Number |
Fatty acyls(FA) | CAR, FFA, Eicosanoid, FAHFA | 270 |
Glycerolipids(GL) | DG, DG-O, MG, TG, TG-O, MGDG, DGDG | 1015 |
Glycerophospholipids(GP) | LPC, LPC-O, LPE, LPE-P, LPG, LPS, PC, PC-O, PE, PE-P, PE-O, PG, PS, LPI, PI, LPA, PA, PMeOH, BMP, HMBP, LNAPE | 1800 |
Sphingolipids(SL) | SPH, CerP, HexCer, SM, Cer, Cert | 828 |
Sterol lipids(ST) | Cho, CE, BA, CASE | 122 |
Prenol lipids(PR) | CoQ | 3 |
Total | 4000+ |
Sample type | sample | Recommended sample | Minimum sample | Biological replication |
liquid | Plasma, serum, hemolymph, milk, egg white | 100 μL | 20μL | human>30 animal>8 |
Cerebrospinal fluid, tear fluid, interstitial fluid, uterine fluid, pancreatic fluid and bile, pleural effusion, follicular fluid, culture medium | 100 μL | 20μL | ||
Seminal plasma, amniotic fluid, prostate fluid, rumen fluid, respiratory condensate, gastric lavage fluid, alveolar lavage fluid, urine, sweat, corpse fluid, saliva, sputum | 500 μL | 100 μL | ||
tissue | Animal tissue, placenta, thrombus, fish skin, mycelium, nematode | 100 mg | 20 mg | |
Whole body, aircraft (wings), pupae | 500 mg | 20 mg | ||
Zebrafish organs, insect organs | 20 | 10 | ||
cell | Adherent cells | 1*10^6 | 5*10^5 | |
Escherichia coli and other microorganisms | 1*10^10 | 5*10^8 | ||
feces | Feces,iIntestinal contents | 200 mg (Wet weight) | 50 mg (Wet weight) | |
Please submit a detailed description of your project. We will provide you with a customized project plan metabolomics services to meet your research requests. You can also send emails directly to support-global@metwarebio.com for inquiries.