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Cited in 0 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.
Animal liver and kidneys are the primary organs for amino acid metabolism; therefore, changes in urinary amino acids most accurately reflect the physiological state of the liver and kidneys. Additionally, amino acid levels can indicate conditions such as burns and typhoid fever. In plants, the amino acid content is significant for studying nitrogen metabolism changes under different conditions and at various growth stages, as well as for understanding nitrogen absorption, transport, assimilation, and nutritional status.
Detection Principle
The α-amino group of amino acids reacts with ninhydrin to produce a blue-purple compound with a characteristic absorption peak at 570 nm. The amino acid content is calculated by measuring the absorbance at 570 nm.
Applicable Samples: Serum (plasma), animal and plant tissues, cells, cell supernatants, bacteria, urine.
Note:
Please check the volume of each component before starting the experiment.
Each component provides an additional 10% beyond the specified amount for standard curve preparation or pilot experiments.
Reagents, consumables and Equipments not provided
Assay Procedure (For Reference Only)
1. Reagent Preparation
| Reagent Name | Preparation Procedure | Notes |
| Extraction Buffer | Ready to use; equilibrate to room temperature before use. | Store at 4°C. |
| Assay Buffer | Ready to use; equilibrate to room temperature before use. | Store at 4°C. |
| Working Substrate Cofactor | Prepare immediately before use. Add 2.5 mL of Assay Buffer to one vial of Substrate Cofactor and dissolve completely. | Use immediately. Toxic and irritant; recommended to wear personal protective equipment during use. |
| Working Substrate | Prepare immediately before use. For 48T, add 2 mL of 95% ethanol to dissolve completely. For 96T, add 4 mL of 95% ethanol to dissolve completely. | Unused portion can be stored at 4°C protected from light for up to 1 week. Toxic and irritant; recommended to wear personal protective equipment during use. |
| 100 µmol/mL Standard | Prepare immediately before use. Add 1.332 mL of deionized water to dissolve completely to obtain a 100 µmol/mL Glycine Standard. | Unused portion can be stored at 4°C protected from light for up to 1 month. |
2. Preparation of Standards
Use the 100 µmol/mL Standard and dilute further according to the table below. Prepare a standard curve for each experiment. Diluted standard solutions are unstable and must be used within 4 hours.
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3. Sample Preparation
Note: Fresh samples are recommended. If not used immediately, samples can be stored at -80°C for up to 1 month.
3.1 Animal Tissues
Weigh approximately 0.1 g of animal tissue. Add 1 mL of Extraction Buffer and homogenize thoroughly at room temperature.
Transfer to a 1.5 mL screw-cap microcentrifuge tube. Cap tightly (to prevent evaporation) and place in a boiling water bath for 15 min.
Cool under running tap water. Centrifuge at 10,000 g for 10 min at room temperature. Collect the supernatant for analysis.
3.2 Plant Tissues
Weigh approximately 0.1 g of plant tissue. Add 1 mL of Extraction Buffer and macerate.
Sonicate at room temperature for 5 min (power 20% or 200W, 3s pulse on, 7s pulse off, 30 cycles). Transfer to a 1.5 mL screw-cap microcentrifuge tube.
Cap tightly and place in a boiling water bath for 15 min.
Cool under running tap water. Centrifuge at 10,000 g for 10 min at room temperature. Collect the supernatant for analysis.
3.3 Bacteria or Cells
Collect 5×10⁶ bacteria or cells. Wash with cold PBS, centrifuge at 800 g for 2 min, and discard the supernatant.
Add 1 mL of Extraction Buffer. Sonicate at room temperature for 5 min (power 20% or 200W, 3s pulse on, 7s pulse off, 30 cycles). Transfer to a 1.5 mL screw-cap microcentrifuge tube.
Cap tightly and place in a boiling water bath for 15 min.
Cool under running tap water. Centrifuge at 10,000 g for 10 min at room temperature. Collect the supernatant for analysis.
3.4 Liquid Samples (Serum/Plasma, Cell Supernatant, Urine)
Pipette 0.5 mL of the liquid sample into a 1.5 mL screw-cap microcentrifuge tube. Add 0.5 mL of Extraction Buffer.
Cap tightly and place in a boiling water bath for 15 min.
Cool under running tap water. Centrifuge at 10,000 g for 10 min at room temperature. Collect the supernatant for analysis.
4. Assay Procedure
4.1 Microplate Reader Preparation
Pre-heat the microplate reader for at least 30 min and set the wavelength to 570 nm.
4.2 Reaction Setup
Prepare the reactions in 1.5 mL screw-cap microcentrifuge tubes as follows:
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4.3 Incubation and Transfer
Mix well. Cap the tubes tightly (to prevent evaporation). Place in a boiling water bath for 5 min.
Cool in an ice bath for 30 s. Add 120 µL of 60% ethanol. Invert the tubes several times to mix.
Transfer 150 µL from each tube into a well of a 96-well microplate.
4.4 Absorbance Measurement
Measure the absorbance at 570 nm. Record the values as ABlank, AStandard, and ATest. The measurement must be completed within 30 min after color development.
5. Result Calculation
5.1 Data Processing
Calculate ΔATest = ATest - ABlank
Calculate ΔAStandard = AStandard - ABlank
5.2 Standard Curve
Plot the standard concentration (y-axis, µmol/mL) against the corresponding ΔAStandard (x-axis) to generate a standard curve. Obtain the linear equation y = ax + b. Substitute the ΔATest value into the equation to obtain the concentration y (µmol/mL) for the sample.
5.3 Calculation of Sample Amino Acid Content
(1) By Sample Mass (Tissue):
Amino Acid Content (µmol/g) = y ÷ (W ÷ Vextraction) × n = y ÷ W × n
(2) By Cell/Bacteria Count:
Amino Acid Content (µmol/10⁴ cells) = y ÷ (N ÷ Vextraction) × n = y ÷ N × n
(3) By Liquid Volume (Serum, Urine, etc.):
Amino Acid Content (µmol/mL) = y × 2 × n
(4) By Protein Concentration:
Amino Acid Content (µmol/mg prot) = y ÷ Cpr × n
Parameter Explanation:
y: Amino acid concentration from standard curve (µmol/mL).
W: Sample mass (g).
Vextraction: Volume of Extraction Buffer used for extraction (here, 1 mL).
n: Dilution factor of the sample before addition to the reaction.
N: Number of bacteria or cells, in units of 10⁴ (e.g., for 5×10⁶ cells, N = 500).
2: Dilution factor for liquid samples: (0.5 mL sample + 0.5 mL buffer) / 0.5 mL sample = 2.
Cpr: Protein concentration of the sample supernatant (mg/mL).
Notes
Pilot Experiment: Before the formal assay, it is recommended to perform a pilot experiment using 2-3 samples with expected significant differences.
Normalization: For tissue and cell samples, results can be normalized by measuring the protein concentration. BCA Protein Assay Kits are recommended.
Assay Specificity: Proline and hydroxyproline do not produce an absorption peak at 570 nm when reacting with ninhydrin. Therefore, the results measured at 570 nm do not include these two amino acids.
Standard Curve: It is recommended to establish your own standard curve for the most accurate results. If not, the typical standard curve equation provided in the results section can be used as a reference.
Safety: Biochemical detection reagents are generally irritants and have biological toxicity. For your safety and health, please wear appropriate personal protective equipment (lab coat, mask, gloves, head cover) and perform experiments in a fume hood or biosafety cabinet throughout the process.
Intended Use: This product is for scientific research only and is not intended for clinical diagnosis.
Results Display
Typical Standard Curve: y = 2.8806x - 0.0054, R² = 0.9998

Example:
0.1 g of Epipremnum aureum leaf was processed according to the procedure and measured in a 96-well plate.
ΔATest = ATest - ABlank = 0.295 - 0.065 = 0.23.
Substituting into the standard curve: y = (2.8806 * 0.23) - 0.0054 = 0.657.
Calculated by sample mass: Amino Acid Content (µmol/g) = y ÷ (W ÷ Vextraction) × n = y ÷ W × n = 0.657 ÷ 0.1 × 1 = 6.57 µmol/g.
Frequently Asked Questions (FAQ)
Q: What should I do if the measured ATest is too high or too low?
A:
If ATest is higher than the ΔAStandard of the 2.5 µmol/mL standard (> approx. 2.5 µmol/mL equivalent), dilute the sample further with deionized water, multiply the result by the dilution factor, or reduce the amount of sample used for extraction.
If ATest is < 0.01, consider increasing the sample volume appropriately.
| Product number | Component | 48T | 96T | Storage |
| A1519780A | Extraction Buffer | 70 mL | 70 mL×2 | 2-8℃. |
| A1519780B | Assay Buffer | 7.5 mL | 15 mL | 2-8℃. |
| A1519780C | Substrate Cofactor | 2 EA | 4 EA | 2-8℃. |
| A1519780D | Substrate | 1 EA | 1 EA | 2-8℃. Store in the dark. |
| A1519780E | Standard | 1 EA | 1 EA | 2-8℃. Store in the dark. |
Comprehensive hazard, handling, storage, and regulatory compliance document.
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| Lot Number | Certificate Type | Date | Item |
|---|---|---|---|
| Certificate of Analysis | May 14, 2026 | A1519780 | |
| Certificate of Analysis | May 13, 2026 | A1519780 |
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