N-acetyl- β- D-glucosidase(NAG) Activity Assay Kit
Micro method
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N-acetyl-β-D-glucosidase (NAG) Activity Assay Kit - Micro Method
Product code: 111935
Product Introduction
NAG is an acidic hydrolase found in lysosomes and is widely present in tissues, body fluids, and cells. It is most abundant in the prostate and renal proximal tubular cells. Changes in NAG activity are closely related to certain pathological states.
NAG degrades β-N-acetylaminoglucoside to produce p-nitrophenol, which has a maximum absorption peak at 400 nm. NAG activity is calculated by measuring the increase in absorbance.
Package List
| Size | Code | Component | Quantity |
|---|---|---|---|
| 100T | 111935.1 | Reagent I | 1 bottle |
| 100T | 111935.2 | Reagent II | 1 bottle |
| 100T | 111935.3 | Reagent III | 1 bottle |
| 100T | 111935.4 | Extraction Solution | 1 bottle |
| 100T | 111935.m | Manual | 1 copy |
Quality Standards and Safety Information
| Raw Material or Package Name | Quality Standard | Main Toxicity |
|---|---|---|
| Reagent I | — | — |
| Reagent II | — | — |
| Reagent III | — | — |
| Extraction Solution | — | — |
Transportation and Storage
| Transportation | Transport with ice packs. |
|---|---|
| Storage | Store Reagent I at -20°C. Store all other components at 2–8°C. |
| Shelf Life | 180 days. |
Instructions
1. Preparation of Crude Enzyme Extract
1.1 Bacteria or Cultured Cells
- Collect bacteria or cells into a centrifuge tube, centrifuge, and discard the supernatant.
- Add Extraction Solution according to the ratio of bacteria or cells number (104cells) to Extraction Solution volume (mL) = 500–1000:1. Recommended: add 500 × 104bacteria or cells to 1 mL Extraction Solution.
- Disrupt the bacteria or cells by ultrasonication in an ice bath at 20% power or 200 W: sonicate for 3 s, pause for 10 s, and repeat 30 times.
- Centrifuge at 15000g and 4°C for 10 min.
- Collect the supernatant and keep it on ice for testing.
1.2 Tissue
- Add Extraction Solution according to the ratio of tissue mass (g) to Extraction Solution volume (mL) = 1:5–10. Recommended: weigh approximately 0.1 g tissue and add 1 mL Extraction Solution.
- Homogenize in an ice bath.
- Centrifuge at 15000g and 4°C for 10 min.
- Collect the supernatant and keep it on ice for testing.
2. Reagent Preparation
Before use, add 2.5 mL distilled water to each bottle of Reagent I and dissolve thoroughly. Store unused Reagent I at -20°C.
3. Assay Procedure
- Preheat the spectrophotometer for at least 30 min.
- Set the wavelength to 400 nm and zero with distilled water.
- Prepare the assay and control tubes as shown below.
| Component | Assay Tube | Control Tube |
|---|---|---|
| Reagent I (μL) | 25 | |
| Distilled water (μL) | 25 | |
| Reagent II (μL) | 35 | 35 |
| Sample (μL) | 10 | 10 |
Mix quickly and incubate in a 37°C precision water bath for 30 min.
| Component | Assay Tube | Control Tube |
|---|---|---|
| Reagent III (μL) | 130 | 130 |
Mix thoroughly and measure the absorbance at 400 nm. Calculate ΔA = Ameasured- Acontrol. Each assay tube must have one corresponding control tube.
NAG Activity Calculation
The regression equation measured under standard conditions is y = 0.00543x + 0.0083, where x is the standard concentration (nmol/mL) and y is the absorbance value.
1. Serum or Plasma NAG Activity
Unit definition: the production of 1 nmol p-nitrophenol per minute in each mL of serum or plasma is defined as one unit of enzyme activity.
NAG activity (nmol/min/mL) = [(ΔA - 0.0083) ÷ 0.00543 × Vtotal reaction] ÷ Vsample÷ T = 61.39 × (ΔA - 0.0083)
2. Calculation Based on Sample Protein Concentration
Unit definition: the production of 1 nmol p-nitrophenol per minute in each mg of tissue protein is defined as one enzyme activity unit.
NAG activity (nmol/min/mg protein) = [(ΔA - 0.0083) ÷ 0.00543 × Vtotal reaction] ÷ (Vsample× Cpr) ÷ T = 61.39 × (ΔA - 0.0083) ÷ Cpr
3. Calculation Based on Sample Fresh Weight
Unit definition: the production of 1 nmol p-nitrophenol per minute in each g of tissue is defined as one enzyme activity unit.
NAG activity (nmol/min/g fresh weight) = [(ΔA - 0.0083) ÷ 0.00543 × Vtotal reaction] ÷ (W × Vsample÷ Vtotal sample) ÷ T = 61.39 × (ΔA - 0.0083) ÷ W
4. Calculation Based on Bacterial or Cell Density
Unit definition: the production of 1 nmol p-nitrophenol per minute by each 10,000 bacteria or cells is defined as one enzyme activity unit.
NAG activity (nmol/min/104cells) = [(ΔA - 0.0083) ÷ 0.00543 × Vtotal reaction] ÷ (500 × Vsample÷ Vtotal sample) ÷ T = 0.123 × (ΔA - 0.0083)
Formula Parameters
| Vtotal reaction | Total volume of the reaction system, 0.5 mL |
|---|---|
| Vsample | Sample volume added to the reaction system, 0.05 mL |
| Vtotal sample | Volume of Extraction Solution added, 1 mL |
| Cpr | Sample protein concentration, mg/mL |
| W | Sample mass, g |
| 500 | Total number of cells or bacteria, 500 × 10,000 |
| T | Reaction time, 30 min |
Precautions
The 100T kit can test 48 samples.
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