Sulfametoxydiazine (SMD) ELISA Kit

For reference only. Please follow the manual included in your kit for instructions.

Catalog Number
RDF-E052
RDF-E052
Add to Cart

For more information on our kits, please contact us at info@reddotbiotech.com

Product Description

Circle
The Sulfametoxydiazine (SMD) ELISA Kit (RDF-E052) is an enzyme-linked immunosorbent assay for quantitative detection of SMD in Food samples with a standard range of 0.05-4.05ppb. This kit uses the Traditional ELISA format for colorimetric detection of natural SMD in samples including Muscle,Serum,Urine,Honey,Milk,Egg. The kit is easy to use and comes with a pre-coated microplate and all necessary reagents and buffers. The standard curve generated in the experiment is used to calculate the concentration of SMD in samples. For research use only.

Product Specifications

Circle
Product Name
Sulfametoxydiazine (SMD) ELISA Kit
Catalog Number
RDF-E052
Detection Range
0.05-4.05ppb
Species Reactivity
Food
Species
Food
Assay Length
60 minutes
Experimental Method
Competitive Inhibition
Detection Method
Colorimetric
Sample Type
Muscle,Serum,Urine,Honey,Milk,Egg
Storage
2-8°C,Avoid freeze
Shelf Life
12 monthes

Product Details

Circle

Intended Use

For the quantitative detection of tylosin concentration in muscle, honey, milk, and egg samples.

Assay Principle

This kit uses Competitive-ELISA as the method for the quantitative detection. It can detect Sulfametoxydiazine (SMD) in samples, such as muscle, honey, milk, etc. This kit is composed of ELISA Microtiter plate, HRP conjugate, antibody working solution, standard and other supplementary reagents. The microtiter plate in this kit has been pre-coated with coupled antigen. During the reaction, SMD in the samples or standard competes with coupled antigen on the solid phase supporter for sites of anti-SMD antibody. Then Horseradish Peroxidase (HRP) conjugate is added to each microtiter plate well, and TMB substrate is added to color development. There is a negative correlation between the OD value of samples and the concentration of SMD. The concentration of SMD in the samples can be calculated by comparing the OD of the samples to the standard curve.

Application Data

Circle

Reagents and Materials Provided

Reagent Quantity
ELISA Microtiter plate 96 wells
Standard Liquid 1 mL each (ppb=ng/mL=ng/g) (0 ppb, 0.05 ppb, 0.15 ppb, 0.45 ppb, 1.35 ppb, 4.05 ppb)
HRP Conjugate 5.5 mL
Antibody Working Solution 5.5 mL
Substrate Reagent A 6 mL
Substrate Reagent B 6 mL
Stop Solution 6 mL
20xConcentrated Wash Buffer 40 mL
2xReconstitution Buffer 50 mL
Plate Sealer 3
Sealed Bag 1
Manual 1
Note:

All reagent bottle caps should be tightly closed to prevent evaporation and microbial contamination.

Materials Required but not Supplied

  1. Equipment: Microplate reader, printer, homogenizer, nitrogen evaporators, water bath, vortex mixer, centrifuge, graduated pipette, Balance (sensibility 0.01 g).
  2. Micropipettes: Single channel (20-200 μL, 100-1000 μL), Multichannel (30-300 μL).
  3. Reagents: Na2HPO4·12H2O, NaH2PO4·2H2O, concentrated HCl, NaOH, N-hexane, ethyl acetate, acetonitrile.

Storage

  1. Store the kit at 2-8℃. Do not freeze any kit components.
  2. Return any unused microwells to their original foil bag and reseal them together with the desiccant provided. Continue to store at 2-8℃.
  3. Shelf life is approximately 12 months from date of manufacture. Check packaging for expiry date.

Sample Preparation

  • Muscle (Method 1):
  • Remove fat from sample, homogenize the sample with homogenizer.
  • Add 3±0.05 g of homogeneous muscle sample to a centrifuge tube, then add 3 mL of 0.02 M PB Buffer Solution (Solution 2), vortex and mix thoroughly. Add 4 ml of Ethyl acetate and 2 mL of Acetonitrile, vortex for 10 min, centrifuge at 4000 r/min for 10 min.
  • Take 2 mL of upper liquid, dry at 50-60℃ with nitrogen evaporators or water bath. (Please do it in a ventilated environment.)
  • Dissolve the residual with 1 mL each (ppb=ng/mL=ng/g)of N-hexane, add 1 mL each (ppb=ng/mL=ng/g)of Reconstitution Buffer (Solution 4) and vortex for 1 min. Centrifuge at 4000 r/min for 5 min.
  • Discard the upper n-hexane, take 50 μL of lower liquid for analysis.
Note: Sample dilution factor: 1, detection limit: 0.05 ppb
  • Muscle (Method 2):
  • Remove fat from sample, homogenize the sample with homogenizer.
  • Add 2.0±0.05 g of homogeneous muscle sample to a centrifuge tube, then add 8 mL of 0.02 M PB Buffer Solution (Solution 2), vortex for 2 min, centrifuge at 4000 r/min for 10 min.
  • Take 50 µL of liquid for analysis.
Note: Sample dilution factor: 5, detection limit: 0.25 ppb
  • Serum (swine):
  • Stand blood sample at room temperature for 30 min, centrifuge at 4000 r/min for 10 min, separate the serum.
  • Take 1 mL each (ppb=ng/mL=ng/g)of serum, add 3 mL of 0.02 M PB Buffer Solution (Solution 2), and mix for 30s.
  • Take 50 µL of liquid for analysis.
Note: Sample dilution factor: 4, detection limit: 0.2 ppb
  • Honey:
  • Weigh 1±0.05 g of honey sample into 50 mL a centrifuge tube, add 1 mL each (ppb=ng/mL=ng/g)of 0.5 M HCl Solution (Solution 3), ncubate at 37℃ for 30 min.
  • Add 2.5 mL of 0.2 M NaOH Solution (Solution 1) (adjust the PH value to about 5), then add 4 mL of Ethyl acetate, vortex for 5 min, centrifuge at 4000 r/min at room temperature for 10 min.
  • Take 2 mL of upper liquid, dry at 50-60℃ with nitrogen evaporators or water bath Add 0.5 mL of Reconstitution Buffer (Solution 4) and mix for 30s.
  • Take 50 µL of liquid for analysis.
Note: Sample dilution factor: 1, detection limit: 0.05 ppb
  • Urine (swine):
  • Mix 3 mL of 0.02 M PB Buffer Solution (Solution 2) and 1 mL each (ppb=ng/mL=ng/g)of centrifuged clear urine sample for 30s.
  • Take 50 µL of liquid to analysis.
Note: Sample dilution factor: 4, detection limit: 0.2 ppbMilk:
  • Dilute milk sample with 0.02 M PB Buffer Solution (Solution 2) (for example, 20 µL milk + 380 µL of 0.02 M PB Buffer Solution), mix for 30s.
  • Take 50 µL of liquid to analysis.
Note: Sample dilution factor: 20, detection limit: 1 ppb
  • Egg:
  • Homogenize the sample with homogenizer.
  • Weigh 2±0.05 g of homogenate egg into a 50 mL centrifuge tube, add 8 mL of Acetonitrile. Immediately oscillate for 10 min, centrifuge at 4000 r/min for 5 min at room temperature.
  • Take 2 mL of the supernatant to another 10 mL centrifuge tube (clean and dry), dry at 50-60℃ with nitrogen evaporators or water bath. (Please do it in a ventilated environment.)
  • Dissolve the residue with 1 mL each (ppb=ng/mL=ng/g)of N-hexane and oscillate for 30 s. Add 1 mL each (ppb=ng/mL=ng/g)of Reconstitution Buffer (Solution 4) and oscillate for 1 min. Centrifuge at 4000 r/min for 5 min at room temperature.
  • Discard the N-hexane upper layer, and take 50 μL of the lower layer for analysis.
Note: Sample dilution factor: 2, detection limit: 0.1 ppb

Reagent Preparation

Solution preparation:
Prepare solutions according to the number of samples. Avoid using all components in the kit at once.
Solution 1: 0.2 M NaOH Solution (for honey sample)
Dissolve 0.8 g of NaOH to 100 mL with deionized water.
Solution 2: 0.02 M PB Buffer Solution (for muscle, serum, urine, milk sample)
Dissolve 2.58 g of Na2HPO4·12H2O and 0.44 g of NaH2PO4·2H2O to 500 mL with deionized water.
Solution 3: 0.5 M HCl Solution (for muscle, honey sample)
Add 4.3 mL of Concentrated HCl to 100mL with deionized water and mix thoroughly
Solution 4: Reconstitution Buffer (for muscle, honey sample)
Dilute the 2×Reconstitution Buffer with deionized water. (2×Reconstitution Buffer (V): Deionized water (V) =1:1) .The Reconstitution buffer can be store at 4℃ for a month.
Solution 5: Wash Buffer
Dilute 20×Concentrated Wash Buffer with deionized water. (20×Concentrated Wash Buffer (V): Deionized water (V) = 1:19).
Notes:
  • Bring all reagents and samples to room temperature before use.
  • Turn on the microplate reader 30 min in advance to preheat the instrument and set the testing parameters.
  • All experimental apparatus should be clean, and disposable pipette should be used and changed frequently to avoid cross-contamination during the experiment.

Assay Procedure

Bring all reagents and samples to room temperature (25℃) before use. All reagents should be mixed thoroughly by gently swirling before pipetting. Avoid foaming. Any unused Microtiter plate wells should be resealed as soon as possible and stored at 2-8℃.

  1. Number: number the samples and standards in order (multiple wells), and keep a record of the plate layout. Standards and Samples must be tested in duplicate.
  2. Add Sample: add 50 μL of Standard or Sample to each well, then add 50 μL of HRP Conjugate, then add 50 μL of Antibody Working Solution into each well. Oscillate gently for 5 s to mix thoroughly and cover the plate with a plate sealer, then incubate at 25℃ for 45 min in the dark.
  3. Wash: Carefully remove the plate sealer, then remove the liquid from each well. Immediately add 300 μL of Wash Buffer (Solution 5) to each well and wash. Repeat wash procedure 5 times, 30 s intervals each time. Invert the plate and pat it against a thick sheet of absorbent paper (If there are bubbles in the wells, clean pipette tips can be used to pop them).
  4. Color Development: add 50 μL of Substrate Reagent A to each well, and then add 50 μL of Substrate Reagent B. Gently oscillate for 5 s to mix thoroughly. Incubate at 25℃ for 15 min in the dark (The reaction time can be extended according to the amount of color change).
  5. Stop Reaction: add 50 μL of Stop Solution to each well. Gently oscillate to mix thoroughly.
  6. OD Measurement: determine the optical density (OD value) of each well at 450 nm (reference wavelength 630 nm) with a microplate reader. This step should be performed no later than 10 min after the reaction has been stopped.

Calculation of Results

Absorbance (%) = A/A₀×100%

  • A: Average absorbance of standard or sample
  • A₀: Average absorbance of 0 ppb Standard
  • Drawing and calculation of standard curve
  • Create a standard curve by plotting the absorbance percentage of each standard on the y-axis against the log concentration on the x-axis to draw a semi-logarithmic plot. Add the average absorbance value of each sample to the standard curve to calculate the corresponding concentration. If samples have been diluted, the concentration calculated from the standard curve must be multiplied by the dilution factor.
  • We recommend using professional software for fast and accurate analysis of large numbers of samples.

Product Data

Circle

Reaction conditions (Incubation time and temperature)

25℃, 45 min, 15 min

Detection limit

Muscle (method 1) ---0.05 ppb; Muscle (method 2) ---0.25 ppb; Serum, Urine---0.2 ppb, Honey---0.05 ppb; Milk---1 ppb; Egg---0.1 ppb.

Cross-reactivity

Sample recovery rate

Muscle, Honey---95%±25%; Urine, Milk, Serum ---85%±25%

Your item has been successfully added to your cart .

Item # Price
Proceed to Cart

Never miss an update.

Sign up for our monthly newsletter to hear about exclusive sales and product tips and tricks.