Product Specification| Operating Instructions | Plant tissue | | Usage | Self-supplied consumables:
Microplate reader or visible spectrophotometer (can measure the absorbance at 620 nm)
96-well plate or micro-glass cuvette, adjustable pipeting gun and gun head
thermostatic box, water bath, centrifuge
deionized water, concentrated sulfuric acid
mortar, sealing membrane
reagent preparation:
Extraction Buffer: read-to-use type; Before use, equilibrate to room temperature; Store at 4 ° C.
Reagent I: ready-to-use; Before use, equilibrate to room temperature; Store at 4 ° C.
Reagent II: prepared before use; After adding 3.75 mL distilled water, slowly add 21.25 mL concentrated sulfuric acid, stirring constantly, fully dissolved until used; It can be stored at 4 ° C in the dark for a week.
Standard: prepared before use; Add 1 mL deionized water to dissolve it, that is, 10 mg/mL glucose standard solution, which can be stored for a week at 4 ° C.
standard preparation: using 10 mg/mL standard solution, as shown in the table below, further diluted into standards: | NO. | Standard volume | Deionized water(µL) | Concentration(mg/mL) | | Std.1 | 200 µL 10 mg/mL Standard | 1800 | 1 | | Std.2 | 400 µL of Std.1 (1 mg/mL) | 600 | 0.4 | | Std.3 | 200 µL of Std.1 (1 mg/mL) | 800 | 0.2 | | Std.4 | 100 µL of Std.1 (1 mg/mL) | 900 | 0.1 | | Std.5 | 50 µL of Std.1 (1 mg/mL) | 950 | 0.05 | | Std.6 | 40 µL of Std.1 (1 mg/mL) | 960 | 0.04 | | Std.7 | 30 µL of Std.1 (1 mg/mL) | 970 | 0.03 | | Std.8 | 20 µL of Std.1 (1 mg/mL) | 980 | 0.02 | | Blank | 0 | 1000 | 0 |
Sample preparation:
Note: 1, it is recommended to use fresh samples, if not immediately to experiment, the sample can be preserved in - 80 ℃ for a month. When measuring, the temperature and time of thawing should be controlled. When thawing at room temperature, the sample should be thawed within 4 hours. 2, some reagents have strong corrosion, operation must be protected.
1. After the plant tissue was dried at 37℃ or air-dried, about 0.03 g of the sample was weighed and thoroughly ground in a mortar, and 1 mL Extraction Buffer was added. After rapid homogenization, the sample was transferred to a 2 mL EP tube (covered tightly and wrapped around the tube mouth with the sealing film) and extracted for 30 min in a water bath at 80℃. 3000 g, 25 ℃ for 5 min, supernatant, precipitation.
2. Add 0.5 mL deionized water to the precipitate, put it into 95℃ water bath and gelatinize for 15 min (cover tightly and use the sealing film to wrap the tube mouth).
3, after cooling, by adding 0.35 mL Reagent (I), in 95 ℃ water bath extraction 15 min (cover tightly and use the sealing film winding pipe), during the period of oscillation of 3-5 times.
4. After cooling, 0.85 mL deionized water was added, mixed, centrifuged at 3,000 g at 25 ° C for 10 min, and the supernatant was taken for measurement.
The experimental steps:
1. Preheat the microplate reader or visible spectrophotometer for 30 min and adjust the wavelength to 620 nm. Visible spectrophotometer with deionized water to zero.
2. Operation table (The following operations are carried out in 1.5 mL EP tube)
| Reagent | Detector tube(μL) | Standard tube(μL) | Blank tube(μL) | | Sample on clear | 50 | 0 | 0 | | Standard | 0 | 50 | 0 | | Deionized water | 0 | 0 | 50 | | Reagent II | 250 | 250 | 250 |
3, After mixing, put into 95℃ water bath for 15 minutes (cover tightly and use the sealing film to wrap the tube mouth), cool to room temperature, thoroughly mix, take 200 μL to A microglass cuvette or 96 well plate, measure the absorbance at 620 nm, recorded as A determination, A standard, A blank, respectively. ΔA assay =A assay -A blank and ΔA standard =A standard -A blank were calculated.
Note: Standard curves and blank tubes only need to be done 1-2 times. Before the experiment, it is recommended to select 2-3 samples with large expected differences for pre-experiment. If the determination of A is greater than 1.0, the sample supernatant can be used to extract (according to 0.35 mL Reagent I: 1.35 mL of deionized water, prepared as needed) were further diluted, and the calculated results were multiplied by the dilution factor. If A was less than A blank, the sample size could be increased appropriately.
Results of calculation:
Note: we provide you with the formula, including the formula derivation and concise calculation formula. The two are exactly the same. Recommendations to the bold simple calculation formulas for calculating formula for the final.
1, draw the standard curve of the concentration of standard solution as the x axis, Δ A standard for the y axis, draw the standard curve, get the standard equation y = kx + b, will get x Δ A determination to the equation (mg/mL).
2, the calculation of starch content
Starch content (mg/g dry weight) = x x V kind present sample (W * V present V sample total) present (N = 1.11 x 1.53 x present W * N
V-like: sample volume added to the reaction system, 0.05 mL; V sample total: add Extraction Buffer volume, 1.7 mL; W: sample quality, g; 1.11: is the constant that the glucose content measured by this method is converted to the starch content, that is, the color of 111 μg glucose with anthrone reagent is equivalent to that of 100 μg starch with anthrone reagent; N: sample dilution. | | Theory | Starch is the main storage form of sugar in plants. The determination of starch content is of great significance for evaluating the nutritional value of food and investigating the glucose metabolism in plants. The soluble sugar in the sample could be separated from the starch by 80% ethanol, and the starch was further decomposed into glucose by acid hydrolysis. The starch content could be calculated by measuring the glucose content by anthrone colorimetry. | | Synonym | Micro Starch Assay Kit | | Composition | | Name | Size(96T) | Storage | | Extraction Buffer | 100mL | 4℃ | | Reagent I | 70mL | 4℃ | | Reagent II | 1 | Avoid light at 4 ° C |
| | Background | Starch is the main storage form of sugar in plants. The determination of starch content is of great significance for evaluating the nutritional value of food and investigating the glucose metabolism in plants. 80% ethanol can be used to separate the soluble sugar and starch in the sample, and further the hydrolysis of starch to glucose by acid hydrolysis method, the glucose content is determined by anthrone colorimetry, can calculate starch content. | | General Notes | 1, quickly add the working reagent should be very quick, mixed thoroughly.
2, the following substances will interfere and sample preparation should be avoided. EDTA (>0.5mM), ascorbic acid, SDS (>0.2%), sodium azide, NP-40 (>1%) and Tween-20 (>1%). | | Storage Temp. | Stored in the dark at 4 ° C, valid for 6 months. |
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