EnzyChrom™ Glucose Assay Kit

SKU:BHT15600126
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BioAssay Systems
BioAssay Systems
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Overview
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EnzyChrom Glucose Assay Kit is designed for quantitative determination of glucose and evaluation of drug effects on glucose metabolism. It uses OD570 nm, or FL530/585 nm readout; suited to serum, plasma, urine; typical assay time 40 min; detection limit 5 µM.
Detection method Colorimetric (OD 570 nm) or Fluorescent (FL 530/585 nm)
Sample type Serum, plasma, urine, saliva, milk, culture medium, food, ag
Species All species
Procedure 40 min
Detection limit 5 µM
Options selector
Catalog no. Size
EBGL-100 100 Tests
Available Options

Select the variant that best fits your experiment. Availability and lead time may vary by option.

  • Options: Size: 100 Tests
  • Lead time: varies by selected option; please contact us for current fulfillment timing.
  • Storage: -20°C — Store at -20°C (freezer). Avoid repeated freeze-thaw cycles.
  • Shipping: cold-chain shipment (typically with ice packs).
  • Upon receipt: store at the recommended temperature as soon as possible.
  • Sales terms and conditions: Please review prior to ordering.
Field Specification
Mfr No EBGL-100
Assay Time
  • 40 min
Detection Method
  • Colorimetric (OD 570 nm) or Fluorescent (FL 530/585 nm)
Product Type
  • Assay Kits
  • Carbohydrate & Energy Metabolism
Sample Type(s) Serum, plasma, urine, saliva, milk, culture medium, food, agriculture etc
Shipping Cold pack (ICE) — Ships on ice (cold pack included). Store immediately upon receipt.
Species All
Storage -20°C — Store at -20°C (freezer). Avoid repeated freeze-thaw cycles.

Overview

For quantitative determination of glucose and evaluation of drug effects on glucose metabolism. The assay uses OD570nm, or FL530/585nm for signal readout. Compatible sample input includes Serum, plasma, urine, saliva, milk, culture medium, food, agriculture etc. Typical stated assay timing is 40 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 Serum, plasma, urine, saliva, milk, culture medium, food, agriculture 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 5 µM for interpreting low-signal samples.
  • Feature emphasis: Sensitive and accurate. Use as little as 20 µL samples. Linear detection range in 96-well plate: 5 to 300 µM (90 µg/dL to 5.4 mg/dL) glucose for colorimetric assays and 1 to 30 µM for fluorimetric assays.

Additional feature notes highlight Simple and high-throughput. The procedure involves addition of a single working reagent and incubation for 30 min at room temperature. Available format information for this listing includes 100 Tests.

Biological background

This product is centered on measurement of glucose 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

Glucose (C6H12O6) is a key diagnostic parameter for many metabolic disorders. Increased glucose levels have been associated with diabetes mellitus, hyperactivity of thyroid, pituitary and adrenal glands. Decreased levels are found in insulin secreting tumors, myxedema, hypopituitarism and hypoadrenalism. Simple, direct and high-throughput assays for measuring glucose concentrations find wide applications in research and drug discovery. BioAssay Systems glucose assay kit uses a single Working Reagent that combines the glucose oxidase reaction and color reaction in one step. The color intensity of the reaction product at 570nm or fluorescence intensity at λex/em = 530/585nm is directly proportional to glucose concentration in the sample.

Detection method

Colorimetric (OD 570 nm) or Fluorescent (FL 530/585 nm).

Detection limit and analytical sensitivity

Reported detection limit: 5 µM.

Procedures and timing

Stated procedure or timing information: 40 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 glucose in serum, plasma, urine by OD570 nm, or FL530/585 nm readout.
  • Compare treatment or phenotype groups using matched serum, plasma, urine handling.
  • Monitor time-course or pre/post changes in serum, plasma, urine 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.
What are the differences between the three EnzyChrom Glucose assay kits?

EBGL – best at detecting low levels of glucose (as low as 5 µM)
EGL2 – best at measuring high levels of glucose using a low wavelength filter (340 nm)
EGL3 – best at measuring high levels of glucose using a high wavelength filter (565 nm)

Which of the three EnzyChrom Glucose assay kits can be used with urine, saliva, or serum samples?

EBGL – Not recommended for urine, saliva, or serum samples
EGL2 – Compatible with urine and serum samples, not recommended for saliva samples
EGL3 – Recommended for urine, saliva, and serum samples
*Sample blanks are to be used when testing urine samples with EGL2 or EGL3

*Sample blanks are to be used when testing urine samples with EGL2 or EGL3

How specific is this assay (EBGL)?

Glucose oxidase is fairly specific for D-glucose and does not react with fructose, galactose, or xylose. It does react with the following sugars: 2-deoxy-D-glucose (11% relative activity compared to D-glucose), 4-o-methyl-D-glucose (7%) and mannose (3%).

Can this kit be used to measure glucose concentrations in cells?

Glucose is converted into glucose-6-phosphate within the cell, which may not react with our assay. We have not tested it, but if the concentration of free glucose in the cell is within the detection range (1 to 30 μM for fluorimetric assays) of the assay it could still work.

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.

Grape polyphenols and exercise training have distinct molecular effects on cardiac hypertrophy in a model of obese insulin-resistant rats

Lambert, K., et al (2021). Grape polyphenols and exercise training have distinct molecular effects on cardiac hypertrophy in a model of obese insulin-resistant rats. The Journal of Nutritional Biochemistry, 87, 108522. Assay: Glucose in rat blood.

Metabolic and performance responses to the replacement of lactose by fat in milk replacer formulations for dairy calves

Yohe, T. T., et al (2020). Metabolic and performance responses to the replacement of lactose by fat in milk replacer formulations for dairy calves. Animal: An International Journal of Animal Bioscience, 15(1), 100031. Assay: Glucose in cow serum.

Increasing preweaning milk replacer supply affects postweaning energy metabolism of Holstein male calves

de Carvalho, I. P. C., et al (2021). Increasing preweaning milk replacer supply affects postweaning energy metabolism of Holstein male calves. Animal: An International Journal of Animal Bioscience, 100170. Assay: Glucose in cow serum.

High fructose drives the serine synthesis pathway in acute myeloid leukemic cells

Jeong, S., et al (2021). High fructose drives the serine synthesis pathway in acute myeloid leukemic cells. Cell Metabolism, 33(1), 145-159.e6. Assay: Glucose in mouse cells.

Encapsulation enhances protoplast fusant stability

Gulli, J., Kroll, E., & Rosenzweig, F. (2020). Encapsulation enhances protoplast fusant stability. Biotechnology and Bioengineering, 117(6), 1696-1709. Assay: Glucose in yeast media.

Advanced glycation end products and glycosaminoglycans in patients with diabetic ketoacidosis

Edriss, H., et al (2020). Advanced glycation end products and glycosaminoglycans in patients with diabetic ketoacidosis. Journal of Investigative Medicine: The Official Publication of the American Federation for Clinical Research, 68(3), 738-742. Assay: Glucose in human serum.

Inducible knockdown of endothelial protein tyrosine phosphatase-1B promotes neointima formation in obese mice by enhancing endothelial senescence

Jager, Marianne, et al (2018). Inducible knockdown of endothelial protein tyrosine phosphatase-1B promotes neointima formation in obese mice by enhancing endothelial senescence. Antioxidants & redox signaling 30.7: 927-944. Assay: Glucose in mice serum.

Multiplexed and fully automated detection of metabolic biomarkers using microdialysis probe

Das, Champak, et al (2017). Multiplexed and fully automated detection of metabolic biomarkers using microdialysis probe. Sensors and Actuators B: Chemical 238: 633-640. Assay: Glucose in glucose.

Potential biomarker of metformin action

He L et al (2014). Potential biomarker of metformin action. J Endocrinol. JOE-14-0084. Assay: Glucose in mice white bloold cell.

Methyljasmonate displays in vitro and in vivo activity against multiple myeloma cells

Klippel, S et al (2012). Methyljasmonate displays in vitro and in vivo activity against multiple myeloma cells. British Journal of Haematology, 159: 340-351. Assay: Glucose in cell line.

Reconstituted high-density lipoprotein infusion modulates fatty acid metabolism in patients with type 2 diabetes mellitus

Drew BG, 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: Glucose in human plasma.

Alagebrium attenuates acute methylglyoxal-induced glucose intolerance in Sprague-Dawley rats

Dhar A, et al (2010). Alagebrium attenuates acute methylglyoxal-induced glucose intolerance in Sprague-Dawley rats. Br J Pharmacol.159(1):166-75. Assay: Glucose in human plasma.

Differential effects of central fructose and glucose on hypothalamic malonyl-CoA and food intake

Cha SH et al (2008). Differential effects of central fructose and glucose on hypothalamic malonyl-CoA and food intake. PNAS 105(44):16871-5. Assay: Glucose in mouse blood.

Regulation of hypothalamic malonyl-CoA by central glucose and leptin

Wolfgang MJ et al (2007). Regulation of hypothalamic malonyl-CoA by central glucose and leptin. PNAS 104(49):19285-90. Assay: Glucose in mouse blood.

The brain-specific carnitine palmitoyltransferase-1c regulates energy homeostasis

Wolfgang MJ et al (2006). The brain-specific carnitine palmitoyltransferase-1c regulates energy homeostasis. PNAS 103(19):7282-7. Assay: Glucose in mouse plasma.

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