Megazyme淀粉损失检测试剂盒

Megazyme淀粉损失检测试剂盒
上海金畔生物科技有限公司
品牌:Megazyme

英文名:Starch Damage Assay Kit

货号:K-SDAM

规格:200 assays per kit

The Starch Damage test kit is suitable for the measurement and analysis of starch damage in cereal flours.

Colourimetric method for the determination of Starch Damage
in cereal flours

Principle:
(fungal α-amylase)
(1) Damaged (or gelatinised) starch + H2O → maltodextrins

(amyloglucosidase)
(2) Maltodextrins + H2O → D-glucose

(glucose oxidase)
(3) D-Glucose + H2O + O2 → D-gluconate + H2O2

(peroxidase)
(4) 2H2O2 + p-hydroxybenzoic acid + 4-aminoantipyrine →
quinoneimine + 4H2O

Kit size: 200 assays
Method: Spectrophotometric at 510 nm
Total assay time: ~ 40 min
Detection limit: 0.5-100% of sample weight
Application examples:
Cereal flours and other materials
Method recognition:
AACC (Method 76-31.01), ICC (Standard No. 164), and RACI (Standard
Method)

Advantages

  • Very cost effective
  • All reagents stable for > 2 years after preparation
  • Only enzymatic kit available
  • Very specific
  • Simple format
  • Mega-Calc™ software tool is available from our website for hassle-free raw data processing
  • Standard included

 Q1. What should be the probable cause of determining below specification Starch Damage levels for the control flour?

The flour must be stored at room temperature.  Storage in a refrigerator, or particularly in a freezer, will affect the nature of the water in the sample and can lead to starch retrogradation and thus lowered starch damage values.

Q2. Can the starch damage method be used to analyse pasta?

The procedure was developed for wheat flour.  You will have to define your own parameters for pasta.  We would suggest that the pasta is milled to pass a 0.5 mm screen and then you run the standard assay for flour.  You will need to dilute with a larger volume of sulphuric acid to get values on scale.

Q3. Is there any particular step or enzyme in the Starch Damage method which may cause reproducibility problems?

If the fungal alpha-amylase is not properly suspended before taking aliquot for dilution, there will be problems.  It is essential that the vial of fungal alpha-amylase is mixed (hand swirl) before an aliquot of the solution is removed.  The enzyme is a colloidal suspension.

Q4. Is the Starch Damage method suitable for measuring a degree of starch gelatinisation?

We do not have a specific method for starch gelatinisation measurement, however our starch damage method works on this type of principle.  The damaged starch granules hydrate and swell and are susceptible to hydrolysis by fungal alpha-amylase.

Q5. What is the stability of the enzymes and buffers supplied?

All kit components are stable for 2-3 years if stored as supplied at 2-8˚C.  Diluted enzymes should be frozen in polypropylene tubes.  In this form they are stable for 2-3 years.  Enzymes can be freeze/thawed 2-3 times with no loss of activity.

Q6. What is the standard deviation from tests performed in your lab on samples run in duplicates within a run, and run on separate days?

The standard deviation within a run is 3% and from day to day is 3-5%.

Q7. What modifications are required for the starch damage method to measure levels of 12-15% starch damage?

With higher levels, one of two things could be limiting:
1) The level of fungal alpha-amylase or
2) The Glucose Determination Reagent.  
Could we suggest the following: first terminate the fungal alpha-amylase reaction with 5 mL of acid as per method; then dilute an aliquot four fold in 0.2% sulphuric acid; then analyse this and allow for dilution in calculation.  If the absorbance is above 1.20, the solution, after alpha-amylase treatment should be diluted 2-fold and the AMG step repeated.  If a dilution of much more than 2 fold is required, then you should use less starch in the initial step (say 50 mg).

Q8. What are the expected absorbance values for the glucose standard and the starch control sample?

The absorbance value for the glucose standard should be 1.10 to 1.20.  The enclosed starch control will give a value of about 0.90.

Q9. What is the expected analytical variation for the Reference Starch that is provided in the test kit?

We would expect the value obtained to vary by no more than 0.2 for the sample supplied.  We have noticed that over a period of years, the measured level of starch damage actually falls slightly (e.g. by 0.2% for a flour with 6.2% starch damage, over a period of 4 years).  I believe that this is possibly due to water movement in the sample.

Q10. What is the flour particle size of the wheat flour control sample with the Megazyme starch damage assay kit?

The flour supplied is a standard bread making flour from a commercial mill.  We assume the particle size is less than 0.5 mm.  It is hard to give the exact size.  The finer the material is milled the higher the starch damage. 

Q11. 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.

Q12. 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:

  1. Ensure that you have tested the standard sample that is supplied with the Megazyme test kit.
  2. 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.
  3. State the kit lot number being used (this is found on the outside of the kit box).
  4. State which assay format was used (refer to the relevant page in the kit booklet if necessary).
  5. State exact details of any modifications to the standard procedure that is provided by Megazyme.
  6. State the sample type and describe the sample preparation steps if applicable.

Q13. What modifications are required when measuring Starch Damage in parboiled rice flour which contains close to fully gelatinised starch?

You may need to reduce the sample size to 50 mg and dilute up to 5 fold, i.e. 1 part filtrate plus 4 parts water.  The colours obtained for the samples should be less than that for the glucose control.

Q14. Is there any limitation to the type of sample or the degree of Starch Damage which can be measured using the kit?

The Starch Damage method can be used to measure the degree of starch damage in any material, so it is applicable to all samples.  The only likely complication occurs when the degree of damage is more than 10%.  In this case, the solution after addition of sulphuric acid must be further diluted before treatment with amyloglucosidase.

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Megazyme产品所有分类:
生物及食品酶法试剂盒(Assay Kits)
膳食纤维/淀粉(Dietary Fiber/Starch) 单/双糖(Mono/Disaccharides) 多糖(Polysaccharides) 醇类(Alcohols) 有机酸(Organic Acids) 亚硫酸盐/氮(Sulfite/Nitrogen) 活性酶(Enzyme Activity) 试剂混合物(Reagent Mixtures) 其它(Other)
酶(Enzymes)
活性酶(Carbohydrate Active enZYmes )
淀粉酶(Amylases )
阿拉伯树胶酸(Arabinanases)
阿拉伯呋喃(Arabinofuranosidases)
纤维二糖水解(Cellobiohydrolases)
纤维素酶(Cellulases)
酯酶(Esterases)
果糖酶&果糖苷酶(Fructanases & Fructosidases)
岩藻糖苷酶(Fucosidases)
半乳聚糖酶(Galactanases)
半乳糖苷酶(Galactosidases)
葡聚糖酶(Glucanases)
葡萄糖苷酶(Glucosidases)
葡糖醛酸糖苷(Glucuronidases)
已糖胺酶类(Hexosaminidiases)
裂解酶(Lyases)
甘露聚糖酶(Mannanases)
甘露糖苷酶(Mannosidases)
支链淀粉酶(Pullulanases)
唾液酸酶(Sialidases)
木聚糖酶(Xylanases)
糖苷酶(Xylosidases)
木葡聚糖酶(Xyloglucanases)
多聚半乳糖醛酸(内切)酶(Polygalacturonases)
其它酶(Other Activities)
分析酶(Analytical Enzymes)
脱氢酶(Dehydrogenases)
异构酶(Isomerases)
激酶(Kinases)
磷酸酶(Phosphatases)
蛋白酶(Proteases)
其他活性酶(Other Activities)
糖类活性酶(Glycobiology Enzymes)
酶底物( Chromogenic Substra