The following guide serves as a checklist for the possible causes and solutions with respect to some of the most commonly encountered problems from the sandwich ELISA with streptavidin-biotin detection assays. Protocol of Sandwich ELISA with Streptavidin-biotin Detection is available for you.
Contents
Poor Standard Curve
Cause | Solution |
Improper curve fitting | Try plotting using different scales such as log-log, 5 parameter logistic curve fit. |
Pipetting error | Use calibrated pipettes and proper pipetting technique. |
Poorly mixed reagents | Thoroughly mix reagents. |
Poor/variable adsorption of reagents to plate |
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The standard stock solution has been improperly prepared | Dilute the lyophilized standard with the suggested diluent buffer as is suggested. |
The standard stock solution has been improperly diluted | Check your calculation for the dilution. |
Freezing/thawing of the standard | Use fresh standard. |
The reagents are used beyond expiration date | use fresh reagents. |
Use of non-calibrated external recombinant protein preparation as standard | Calibrate against reference preparation standard. |
Positive Results in Negative Control
Cause | Solution |
The reagents are contaminated | Use fresh reagents and pipette carefully. |
Sandwich ELISA – The detection antibody is detecting the capture antibody | Check if the correct capture antibody and detection antibody have been used and that they will not detect each other. |
Insufficient washing of plates | Ensure that wells are washed adequately by filling the wells with wash buffer. Make sure that all residual antibody solutions are removed before washing. |
Too much antibody used leading to non-specific binding | Check the amount of antibody suggested. Try using less antibody. |
Weak or No Signal
Cause | Solution |
Incubation time is too short | Incubate samples overnight at 4°C or strictly follow the manufacturer guidelines. |
Target present below detection limits of assay | Decrease dilution factor or concentrate samples. |
Assay set up incorrectly or used incorrect reagents | Review protocol and repeat assay using a positive control. |
Antibody not coated properly | Longer coating times, different coating buffers, higher coating concentration. |
Poor antibody labeling efficiency | Strictly follow the biotin labeling instructions. |
Assay buffer compatibility | Ensure assay buffer is compatible with target of interest. |
Not enough detection reagent |
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Sample prepared incorrectly | Ensure proper sample preparation and dilution. |
Incubation temperature too low |
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Incorrect wavelength | Verify the wavelength and read plate again. |
Plate washings too vigorous |
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Wells dried out |
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Slow color development |
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Antibody quality | Use a fresh aliquot of antibody that has been stored at -20°C or below. |
Enzyme inhibitor present |
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Too Much Signal
Cause | Solution |
Insufficient washing |
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High antigen concentration | Use higher antigen dilutions. |
Plate sealers not used or reused |
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Incorrect dilutions prepared | Check pipetting technique and double-check calculations. |
Longer incubation times than recommended | Manufactured guide has optimized protocols. Make sure to follow recommended incubation times. |
Excess time before plate reading | Read your plate within 30 minutes after adding the substrate. If the reading is not performed within this time frame, add a stopping solution after sufficient color is developed in the plate. |
High Background
Cause | Solution |
Insufficient washing | Wash wells as recommendations. |
Contaminated wash buffer | Prepare fresh water buffer. |
Suboptimal salt concentration in washing buffer | Optimize salt concentration as high concentration can reduce non-specific and/or weak off-target interaction |
Too much detection reagent | Ensure the reagent has been diluted properly or decrease the recommended concentration of detection reagent. |
Blocking buffer ineffective | Try different blocking reagent and/or add blocking reagent to wash buffer. |
Plate left too long before reading | Read plate immediately after adding stop solution. |
Non-specific binding of antibody |
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Substrate incubation carried out in light | Substrate incubations should be carried out in the dark or as recommended by manufacturer. |
Precipitate formed in wells upon substrate addition | Increase dilution factor of sample or decrease concentration of substrate. |
Dirty plate | Clean the plate bottom. |
Pipetting errors | Calibrate pipets so that they dispense the correct volumes. |
Reagents were not mixed properly | Thoroughly mix all reagents and samples before pipetting solutions into wells. |
Excess time before plate reading | Read your plate within 30 minutes after adding the substrate. If the reading is not performed within this time frame, add a stopping solution after sufficient color is developed in the plate. |
Low Sensitivity
Cause | Solution |
Inactive detection reagent | Ensure reporter enzyme/fluorescent has the expected activity. |
Plate reader settings incorrect | Ensure plate reader is set to read the correct absorbance wavelength or excitation/emission wavelengths for fluorescent detection. |
Assay format not sensitive enough |
|
Poor capture antibody adsorption to wells | Covalently link target to microtiter plate. |
Not enough substrate | Add more substrate. |
Interfering buffers or sample ingredients | Check reagents for any interfering chemicals. For example, sodium azide in antibodies inhibit HRP enzyme and EDTA used as anticoagulant for plasma collection inhibits enzymatic reactions. |
Mixing or substituting reagents from different batches | Avoid mixing components from different batches. |
Edge and Drift effects
Cause | Solution |
Uneven temperature |
|
Solutions not at room temperature | Ensure that all solutions are at room temperature before pipetting into the wells. |
Evaporation | Seal the plate completely with a plate sealer during incubations. |
Stacked plates | Avoid stacking plates during incubation. |
Considerable interval of time elapsed during the addition of a solution |
|
Matrix Effect
ELISA quantification of plasma and serum occasionally encounters problems which are caused by the matrix effect. The matrix effect can arise from a number of matrix components including, but not limited to: interaction between endogenous biological components such as phospholipids, carbohydrates and endogenous metabolites or an interaction between the analyte of interest and the matrix, for instance covalent binding to plasma proteins. This results in erroneous sample readings.
Simply diluting the samples by 2 or 5 folds reduces the matrix effect, when diluting the samples remember to use the same diluent as used for standard curve.
Poor Replicate Data
Cause | Solution |
Insufficient washing of wells |
|
Bubble in wells | Ensure no bubbles are present prior to reading plate. |
Incomplete reagent mixing | Ensure all reagents are mixed thoroughly. |
Inconsistent pipetting | Use calibrated pipettes and proper pipetting techniques. If a multi-channel pipette is used, ensure that all channels deliver the same volume. |
Inconsistent sample preparation or storage | Ensure consistent sample prep and optimal sample storage conditions. |
Cross-well contamination | Ensure plate sealers and pipette tips are not contaminated with reagents. |
Plate sealers not used or reused |
|
Large Coefficient of Variation (CV)
Cause | Solution |
Bubbles in wells | Ensure no bubbles are present prior to reading plate. |
Wells not washed equally/thoroughly | Check that all ports of the plate washer are unobstructed. |
Incomplete reagent mixing | Ensure all reagents are mixed thoroughly. |
Inconsistent pipetting | Use calibrated pipettes and proper technique to ensure accurate pipetting. |
Edge effects | Ensure the plate and all reagents are at room temperature. |
Inconsistent sample preparation or storage | Ensure consistent sample preparation and optimal sample storage conditions (e.g. minimize freeze/thaw cycles). |
Inconsistent Results Assay-to-assay in ELISA
Cause | Solution |
Insufficient washing |
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Inconsistent incubation temperature |
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Contaminated buffer or pipette tips |
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Plate contains bubbles, affecting optical reading | Centrifuge plate prior to reading. |
Cause | Solution |
Solutions may be old |
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Biologicals samples are not prepared the same |
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Variations in incubation temperature and/or time |
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Poor Dynamic Range between Signal and Background
Cause | Solution |
Concentration of streptavidin-HRP is too low | Check dilution, titrate if necessary. |
Reading plate using incorrect wavelength | Check filters/reader. Use the wavelengths provided in the protocol. |
Insufficient development times | Increase substrate solution incubation time. |
Improper dilution of standard curve | Check calculations, create a new standard curve. |
Detection antibody is too dilute | Check dilution, titrate if necessary. |
Tips
1. Use the correct pipette.
2. Confirm tip is firmly seated on the pipette.
3. Confirm there are no air bubbles while pipetting.
4. Change tips between each standard, sample, or reagent.
5. Use different reservoirs for each reagent.
6. Pipette sample into the side of wells to avoid splashing.
7. Always run samples/standards in replicate.
1. Completely aspirate liquid from all wells by gently lowering an aspiration tip into the bottom of each well.
Note: Take care not to scratch the inside of the well.
2. Fill the wells with at least 400 µL of diluted wash buffer.
3. Let soak for 15 to 30 seconds.
4. Aspirate wash buffer from wells.
5. Repeat as directed in protocol (usually 3-4 times).
6. After washing is complete, invert plate and tap (forcefully, if necessary) dry on absorbent tissue. Be sure to remove any residual liquid.
7. Alternatively, an automated plate washer may be used.
Although each of the common cause and corresponding solutions are listed above, several problems may occur simultaneously in the actual process. Thus, solutions need to be addressed from multiple perspectives based on the actual situation. For further help and expert advice, contact our scientist staffed technical support department.