- D-葡萄糖[HK法]检测试剂盒
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英文名:D-Glucose HK Assay Kit
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货号:K-GLUHK-110A
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规格:110 assays (manual) / 1100 (microplate) / 1000 (auto-analyser)
- Very competitive price (cost per test)
- All reagents stable for > 2 years after preparation
- Rapid reaction
- Mega-Calc™ software tool is available from our website for hassle-free raw data processing
- Standard included
- Extended cofactors stability
- Suitable for manual, microplate and auto-analyser formats
- Ensure that you have tested the standard sample that is supplied with the Megazyme test kit.
- Send the results of the kit standard, blank samples and the results obtained for your sample, in the relevant MegaCalc spreadsheet (if available) to Megazyme (cs@megazyme.com). Where available the relevant MegaCalc spreadsheet can be downloaded from where the product appears on the Megazyme website.
- State the kit lot number being used (this is found on the outside of the kit box).
- State which assay format was used (refer to the relevant page in the kit booklet if necessary).
- State exact details of any modifications to the standard procedure that is provided by Megazyme.
- State the sample type and describe the sample preparation steps if applicable.
市场价: 2700元
分析物意义:常见食品组分,在某些情况下非常重要,如糖尿病产品
Megazyme检测试剂盒优点:选择简单可用的方法,葡萄糖氧化酶/过氧化酶 /己糖激酶/6-磷酸葡萄糖脱氢酶。试剂稳定
High purity reagents for the assay of D-glucose in plant and food products. Can be used in combination with other Megazyme products that require glucose determination. Content:110 assays per kit
UV-method for the determination of D-Glucose in foodstuffs,
beverages and other materials
Principle:
(hexokinase)
(1) D-Glucose + ATP → G-6-P + ADP
(glucose-6-phosphate dehydrogenase)
(2) G-6-P + NADP+ → gluconate-6-phosphate + NADPH + H+
Kit size: (K-GLUHKR)
110 assays (manual) / 1100 (microplate)
/ 1000 (auto-analyser) or
(K-GLUHKL)
220 assays (manual) / 2200 (microplate)
/ 2000 (auto-analyser)
Method: Spectrophotometric at 340 nm
Reaction time: ~ 5 min
Detection limit: 0.66 mg/L
Application examples:
Wine, beer, fruit juices, soft drinks, milk, jam, dietetic foods, bakery
products, candies, fruit and vegetables, tobacco, cosmetics, pharmaceuticals
(e.g. infusions), feed, paper (and cardboard) and other materials (e.g.
biological cultures, samples, etc.)
Method recognition:
Methods based on this principle have been accepted by AOAC, EN,
NEN, NF, DIN, GOST, OIV, IFU, AIJN and MEBAK
Advantages
Q1. Should the pH of the sample be adjusted even for samples in acidic media?
The pH of the assay solution after the sample is added should be the same as that of the assay buffer that is supplied with the kit.
Low sample volumes (e.g. 0.1 mL) are not likely to affect the pH of the assay solution and therefore may not require pH adjustment.
Samples above 0.1 mL are more likely to affect the pH of the assay solution and therefore the pH of these samples should be adjusted as described in the data booklet, prior to addition to the assay.
Q2. Sometimes a negative absorbance change is obtained for the blank samples, is this normal? Should the real value (negative absorbance change) or “0” be used in the calculation of results?
Sometimes the addition of the last assay component can cause a small negative absorbance change in the blank samples due to a dilution effect and in such cases it is recommended that the real absorbance values be used in the calculation of results.
Q3. There is an issue with the performance of the kit; the results are not as expected.
If you suspect that the Megazyme test kit is not performing as expected such that expected results are not obtained please do the following:
Q4. Is it possible to detect glucose when it is bound via a glycosidic linkage?
No. The K-GLUHKL test kit is specific for the measurement of “free” D-glucose. It will not detect glucose that is bound by a glycosidic linkage to another sugar molecule.
Q5. Can K-GLUHKL be used to measure glucose in biological samples?
Yes. It is possible that biological samples may be used directly after appropriate sample dilution in distilled water, however some biological samples may require deproteinisation with perchloric acid prior to addition to the assay. The deproteinisation method can be found at the following link on the Megazyme website: Deproteinisation Method
Dilution during sample preparation must be taken into account in the final calculation.
Q6. Can K-GLUHKL be used to measure glucose as a component of polysaccharides in plant material?
Yes. Determination of D-glucose in polysaccharides and fibrous plant material:
Mill plant material or polysaccharide to pass a 0.5 mm screen using a Retsch centrifugal mill, or similar. Accurately weigh approx. 100 mg of material into a Corning screw-cap culture tube (16 x 125 mm). Add 5 mL of 1.3 M HCl to each tube and cap the tubes. Incubate the tubes at 100˚C for 1 h. Stir the tubes intermittently during the incubation. Cool the tubes to room temperature, carefully loosen the caps and add 5 mL of 1.3 M NaOH. Quantitatively transfer the contents of the tube to a 100 mL volumetric flask using distilled water and adjust the volume to 100 mL with distilled water. Mix thoroughly by inversion and filter an aliquot of the solution through Whatman No. 1 filter paper or centrifuge at 1,500 g for 10 min. Typically, no further dilution is required and a sample volume of 0.1 mL is satisfactory.
Q7. Can oligosaccharides or polysaccharides be measured using the kit assay?
The kit assay will only measure the non-covalently linked monosaccharide.
Oligosaccharides or polysaccharides can be measured after hydrolysis to the monosaccharide. Generally acid hydrolysis can be achieved by boiling the oligo/polysaccharide in 1.3 M HCl for 1 h. It is recommended that scientific literature is consulted for information on hydrolysis conditions for the particular oligo/polysaccharide that is being measured.
Q8. Is it possible to add a larger volume then 2 μL of enzyme to the microplate assay? In some instances 2 μL can be difficult to pipette manually.
Yes, instead of adding 2 μL of enzyme suspension an alternative is to dilute the enzyme and add a larger volume to the microplate assay.
Dilute the assay buffer 10-fold with distilled water and use this as the diluent to dilute an aliquot of the enzyme suspension also by 10-fold. Instead of 2 μL, use 20 μL of the diluted enzyme in the microplate assay.