| Field | Specification |
|---|---|
| Mfr No | |
| Assay Time | |
| Detection Method | |
| Product Type | |
| Sample Type(s) | Biological, food, beverage, etc |
| Shipping | |
| Species | |
| Storage |
Overview
For quantitative determination of glycerol and evaluation of drug effects on glycerol metabolism. The assay uses OD570nm, or FL530/585nm for signal readout. Compatible sample input includes Biological, food, beverage, etc. Typical stated assay timing is 20 min.
Key elements and design rationale
- Readout format: OD570nm, or FL530/585nm supports plate-based signal acquisition and consistent comparison across matched samples.
- Sample compatibility: The stated sample scope includes Biological, food, beverage, etc, which is useful when aligning matrix type with calibration and control design.
- Analytical range context: The supplied specifications include a stated detection limit of 2 µM for interpreting low-signal samples.
- Feature emphasis: Sensitive and accurate. Use as little as 10 µL samples. Linear detection range in 96-well plate: 10 to 1000 µM (92 µg/dL to 9.2 mg/dL) glycerol for colorimetric assays and 2 to 50 µM for fluorimetric assays.
Additional feature notes highlight Simple and convenient. The procedure involves the addition of a single working reagent and incubation for 20 min at room temperature, compatible with HTS assays; Improved reagent stability. The optimized formulation has greatly enhanced the reagent and signal stability. Available format information for this listing includes 200 Tests.
Biological background
This product is centered on measurement of glycerol within the matrices described for the assay. In practice, datasets from this type of format are typically interpreted by comparing relative signal, activity, or abundance across matched control and experimental groups rather than relying on a single value in isolation. Careful alignment of sample matrix, incubation window, and calibration strategy is important when comparing results across plates, operators, or study days.
More details
Glycerol [Glycerin or Glycerine, C3H5(OH)3] is widely used in foods, beverages, and pharmaceutical formulations. It is also a main by-product of biodiesel production. Simple, direct, and automation-ready procedures for measuring glycerol concentrations find wide applications. BioAssay Systems glycerol assay uses a single Working Reagent that combines glycerol kinase, glycerol phosphate oxidase, and color reactions in one step. The color intensity of the reaction product at 570nm or fluorescence intensity at λex/em = 530/585nm is directly proportional to glycerol concentration in the sample.
Detection method
Colorimetric (OD 570 nm) or Fluorescent (FL 530/585 nm).
Detection limit and analytical sensitivity
Reported detection limit: 2 µM.
Procedures and timing
Stated procedure or timing information: 20 min.
Research relevance and current trends
- Plate-based quantification and side-by-side group comparison remain central use cases for this assay format.
- The product notes emphasize multi-sample throughput, making it relevant for screening-oriented and larger batch comparison studies.
- The description supports intervention-focused study designs in which researchers compare baseline and perturbed conditions.
Common research applications
- Quantify glycerol in biological, food, beverage by OD570 nm, or FL530/585 nm readout.
- Compare treatment or phenotype groups using matched biological, food, beverage handling.
- Monitor time-course or pre/post changes in biological, food, beverage across study conditions.
Interpretation is usually strongest when signal changes are assessed alongside matrix-matched controls, replicate agreement, and the assay's stated analytical window.
Notes for experimental interpretation
- Matrix composition, background signal, and sample handling can influence apparent response; compare like-with-like whenever possible.
- Use appropriate blanks, controls, and replicate wells to distinguish biological differences from plate, reagent, or handling variability.
For laboratories requiring additional technical capacity, we provide scientific support services including assay execution, method guidance, product sourcing, and customization to align the assay with specific experimental objectives. If you need assistance selecting the appropriate kit configuration, adapting the workflow to your application, or identifying related research services, please click Talk to a Scientist, email support@biohippo.com, or review our Research Services; a member of our scientific team will follow up with recommendations tailored to your study.
Matrix Gla protein regulates adipogenesis and is serum marker of visceral adiposity
Li, C et al (2020). Matrix Gla protein regulates adipogenesis and is serum marker of visceral adiposity. Adipocyte, 9(1), 68-76. Assay: Glycerol in mouse cells.
Characterization of high fludioxonil resistance in botrytis cinerea isolates from calibrachoa flowers
Dowling, M et al (2020). Characterization of high fludioxonil resistance in botrytis cinerea isolates from calibrachoa flowers. Phytopathology, PHYTO-07-20-0268-R. Assay: Glycerol in botrytis cinerea.
Acute effect of post-resistance exercise milk-based supplement on substrate oxidation and fat mobilization in older men: A pilot study
Fontvieille, A et al (2019). Acute effect of post-resistance exercise milk-based supplement on substrate oxidation and fat mobilization in older men: A pilot study. Advances in Geriatric Medicine and Research, 1(2). Assay: Glycerol in human plasma.
Critical role of matrix metalloproteinase 14 in adipose tissue remodeling during obesity
Li, X et al (2020). Critical role of matrix metalloproteinase 14 in adipose tissue remodeling during obesity. Molecular and Cellular Biology, 40(8). Assay: Glycerol in mouse plasma.
Effects of Phaseolus vulgaris Extract on Lipolytic Activity and Differentiation of 3T3-L1 Preadipocytes into Mature Adipocytes: A Strategy to Prevent Obesity
Castillo, F., Gonzalez, D. R., & Moore-Carrasco, R. (2019). Effects of Phaseolus vulgaris Extract on Lipolytic Activity and Differentiation of 3T3-L1 Preadipocytes into Mature Adipocytes: A Strategy to Prevent Obesity. Journal of Nutrition and Metabolism, 2019. Assay: Glycerol in mouse cells.
Salvianolic acid B improves mitochondrial function in 3T3-L1 adipocytes through a pathway involving PPARgamma coactivator-1alpha (PGC-1alpha)
Pan, Y., Zhao, W., Zhao, D., Wang, C., Yu, N., An, T. & Gu, Y. (2018). Salvianolic acid B improves mitochondrial function in 3T3-L1 adipocytes through a pathway involving PPARgamma coactivator-1alpha (PGC-1alpha). Frontiers in pharmacology, 9:671. Assay: Glycerol in mouse cells.
Mannose Alters Gut Microbiome, Prevents Diet-Induced Obesity, and Improves Host Metabolism
Sharma, V., Smolin, J., Nayak, J., Ayala, J. E., Scott, D. A., Peterson, S. N., & Freeze, H. H. (2018). Mannose Alters Gut Microbiome, Prevents Diet-Induced Obesity, and Improves Host Metabolism. Cell reports, 24(12), 3087-3098. Assay: Glycerol in mice serum.
Transient overexpression of VEGF-A in adipose tissue promotes energy expenditure via activation of the sympathetic nervous system
Zhao, Y., Li, X., Yang, L., Eckel-Mahan, K., Tong, Q., Gu, X. & Sun, K. (2018). Transient overexpression of VEGF-A in adipose tissue promotes energy expenditure via activation of the sympathetic nervous system. Molecular and cellular biology, MCB-00242. Assay: Glycerol in mice tissues.
The symbiotic bacterium fuels the energy metabolism of the host trypanosomatid Strigomonas culicis
Loyola-Machado, A. C., Azevedo-Martins, A. C., Catta-Preta, C. M. C., de Souza, W., Galina, A., & Motta, M. C. M. (2017). The symbiotic bacterium fuels the energy metabolism of the host trypanosomatid Strigomonas culicis. Protist, 168(2), 253-269. Assay: Glycerol in bacteria (S. culicis) cells.
The effect of consuming Palmaria palmata-enriched bread on inflammatory markers, antioxidant status, lipid profile and thyroid function in a randomised placebo-controlled intervention trial in healthy adults
Allsopp, P., Crowe, W., Bahar, B., Harnedy, P. A., Brown, E. S., Taylor, S. S. & Strain, C. R. (2016). The effect of consuming Palmaria palmata-enriched bread on inflammatory markers, antioxidant status, lipid profile and thyroid function in a randomised placebo-controlled intervention trial in healthy adults. European journal of nutrition, 55(5), 1951-1962. Assay: Glycerol in mouse cells.
The Compatible Solute Glycerol as a Photosynthetic Sink and Energy Carrier in Freshwater and Marine Chlamydomonas
Burch, T. A. (2016). The Compatible Solute Glycerol as a Photosynthetic Sink and Energy Carrier in Freshwater and Marine Chlamydomonas. Assay: Glycerol in Algae cells.
Elevated osmolytes in rainbow smelt: the effects of urea, glycerol and trimethylamine oxide on muscle contractile properties
Coughlin, David J., et al (2016). Elevated osmolytes in rainbow smelt: the effects of urea, glycerol and trimethylamine oxide on muscle contractile properties. Journal of Experimental Biology 219.7: 1014-1021. Assay: Glycerol in fish tissues.
Body fat mobilization during lactation in high-producing sows fed varied omega-6 to omega-3 fatty acid ratios
Eastwood, L., Leterme, P., & Beaulieu, A. D. (2016). Body fat mobilization during lactation in high-producing sows fed varied omega-6 to omega-3 fatty acid ratios. Canadian Journal of Animal Science, 96(1), 69-78. Assay: Glycerol in sow serum.
An Analytical Comparison of Ethanolysis and Methanolysis Kinetics and the Refined Biodiesel Product
Gallagher, H. L., Boule, M. A., & Zonfrelli, T. A. (2016). An Analytical Comparison of Ethanolysis and Methanolysis Kinetics and the Refined Biodiesel Product. Assay: Glycerol in alcohol and canola oil mixture.
PiHOG1, a stress regulator MAP kinase from the root endophyte fungus Piriformospora indica, confers salinity stress tolerance in rice plants
Vadassery, J., Oelmuller, R., Dua, M., Johri, A. K., Nevo, E., Jogawat, A., & Verma, N. (2016). PiHOG1, a stress regulator MAP kinase from the root endophyte fungus Piriformospora indica, confers salinity stress tolerance in rice plants. Sci Rep. 6:36765. Assay: Glycerol in yeast cells.
Divergent functions of endotrophin on different cell populations in adipose tissue
Zhao, Y., Gu, X., Zhang, N., Kolonin, M. G., An, Z., & Sun, K. (2016). Divergent functions of endotrophin on different cell populations in adipose tissue. American Journal of Physiology-Endocrinology and Metabolism, 311(6), E952-E963. Assay: Glycerol in mouse cells.
Biophysical assessment of aquaporin-9 as principal facilitative pathway in mouse liver import of glucogenetic glycerol
Calamita G et al (2012). Biophysical assessment of aquaporin-9 as principal facilitative pathway in mouse liver import of glucogenetic glycerol. Biol Cell 104(6):342-51. Assay: Glycerol in mouse plasma.
A potential role of IL-6 in the chito-oligosaccharide-mediated inhibition of adipogenesis
Bahar, B., et al. (2011). A potential role of IL-6 in the chito-oligosaccharide-mediated inhibition of adipogenesis. Br J Nutr. 106(8): 1142-53. Assay: Glycerol in mouse 3T3-L1 cells.
Reconstituted high-density lipoprotein infusion modulates fatty acid metabolism in patients with type 2 diabetes mellitus
Drew, B.G., et al. (2011). Reconstituted high-density lipoprotein infusion modulates fatty acid metabolism in patients with type 2 diabetes mellitus. J Lipid Res 52(3):572-81. Assay: Glycerol in human plasma.
Mild experimental ketosis increases brain uptake of 11C-acetoacetate and 18F-fluorodeoxyglucose: a dual-tracer PET imaging study in rats
Pifferi, F., et al. (2011). Mild experimental ketosis increases brain uptake of 11C-acetoacetate and 18F-fluorodeoxyglucose: a dual-tracer PET imaging study in rats. Nutr Neurosci 14(2):51-8. Assay: Glycerol in rat plasma.
From attachment to damage: defined genes of Candida albicans mediate adhesion, invasion and damage during interaction with oral epithelial cells
Wachtler, B., et al. (2011). From attachment to damage: defined genes of Candida albicans mediate adhesion, invasion and damage during interaction with oral epithelial cells. PLoS One 6(2):e17046. Assay: Glycerol in Candida albicans fungus.
Diacylglycerol kinase epsilon is selective for both acyl chains of phosphatidic acid or diacylglycerol
Lung, M., et al. (2009). Diacylglycerol kinase epsilon is selective for both acyl chains of phosphatidic acid or diacylglycerol. J Biol Chem 284(45):31062-73. Assay: Glycerol in diacylglycerol.