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View additional product information for Novex™ 10% Zymogram (Gelatin) Protein Gels, 1.0 mm, 10-well - FAQs (EC6175BOX)
35 product FAQs found
There may be too much beta-mercaptoethanol (BME), sample buffer salts, or dithiothreitol (DTT) in your samples. If the proteins are over-reduced, they can be negatively charged and actually repel each other across the lanes causing the bands to get narrower as they progress down the gel.
Find additional tips, troubleshooting help, and resources within our Protein Electrophoresis and Western Blotting Support Center.
Yes, the Colloidal Blue Staining kit works very well with Invitrogen Zymogram gels.
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The Brij 35 detergent concentration for Zymogram Developing buffer should be 0.02% (w/v).
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Here are possible causes and solutions:
- Membrane blotting pads are dirty or contaminated. Soak pads with detergent and rinse thoroughly with purified water before use. Replace pads when they become worn or discolored.
- Blocking was uneven. The incubation dish must be sufficiently big to allow thorough coverage of membrane. Shake or agitate during each step.
Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.
Here are possible causes and solutions:
- Membrane contaminated by fingerprints or keratin proteins: Wear clean gloves at all times and use forceps when handling membranes. Always handle membranes around the edges.
- Concentrated secondary antibody used: Make sure the secondary antibody is diluted as recommended. If the background remains high, but with strong band intensity, decrease the concentration of the secondary antibody.
- Concentrated Primary antibody used: Decrease the concentration of the primary antibody.
- Affinity of the primary antibody for the protein standards: Check with the protein standard manufacturer for homologies with primary antibody.
- Insufficient removal of SDS or weakly bound proteins from membrane after blotting: Follow instructions for membrane preparation before immunodetection.
- Short blocking time or long washing time: Make sure that each step is performed for the specified amount of time.
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Here are possible causes and solutions:
- Insufficient blocking or non-specific binding: We suggest trying our WesternBreeze Blocker/Diluent (Cat. No. WB7050).
- Membrane is contaminated: Use only clean, new membranes. Wear clean gloves at all times and use forceps when handling membranes.
- Higher intrinsic background with PVDF membranes: Switch to nitrocellulose membranes.
- Nitrocellulose membrane not completely wetted: Follow instructions for pre-wetting the membrane.
- Blot is overdeveloped: Follow recommended developing time and remove blot from substrate when signal - to -noise ratio is acceptable.
- Insufficient washing ; Follow recommended number of washes. In some cases, it may be necessary to increase the number or duration of washes.
- Concentrated secondary antibody used: Determine optimal antibody concentration by performing a dot blot and dilute antibody as necessary.
- Concentrated primary antibody used: Determine optimal antibody concentration by performing a dot blot and dilute antibody as necessary.
Find additional tips, troubleshooting help, and resources within our Protein Assays and Analysis Support Center.
Here are possible causes and solutions:
- The primary antibody and secondary antibody are not compatible: Use a secondary antibody that was raised against the species in which the primary antibody was raised.
- The primary antibody is too dilute: 1) Use a more concentrated antibody solution. 2) Incubate longer (e.g., overnight) at 4 degrees C. 3) Use fresh antibody and keep in mind that each time an antibody solution is used, its effective antibody concentration decreases.
- Something in your blocking buffer interferes with binding of the primary and/or secondary antibody: Try an alternate blocking buffer ± a mild surfactant like Tween-20 (0.01-0.05% v/v). There are many blocking buffer recipes available, based on non-fat dry milk, BSA, normal serum, gelatin and mixtures of these and other materials. Note that BSA (1-5%) is considered the best blocker for nitrocellulose membranes. It is easy to check the efficacy of different blocking buffers by performing dot-blots.
- The primary antibody does not recognize the protein in the species being tested: 1) Evaluate primary antibodies by dot-blotting first to how well they react with your protein. 2) Check the immunogen sequence, if provided, and determine if it is found in your protein. 3) If no immunogen sequence is available, perform a PubMed/BLAST alignment to assess the degree of homology between your target protein and the protein against which the antibody was generated. Note that many antibodies against human proteins will also recognize the non-human primate version because there is usually a high degree of amino acid identity. In contrast, many antibodies against human proteins will not recognize the corresponding proteins from rodents (and vice versa). Remember that significant homology between sequences does not guarantee that the antibody will recognize your protein. 4) Always run the recommended positive control, if available.
- Insufficient protein is bound to the membrane or the protein of interest is not abundant enough in the sample: 1) Load at least 20-30 ?g protein per lane on your gels (as a starting point), since proteins representing less than ~0.2% of the total protein are difficult to detect on western blots. 2) Use an enrichment step to increase the concentration of the target protein. For example, prepare two nuclear lysates prior to blotting nuclear proteins or perform an immunoprecipitation (IP) prior to SDS-PAGE. 3) Reduce the volume of cell extraction buffer used to lyse your cells or tissue. 4) Be sure to use freshly prepared protease inhibitors and phosphatase inhibitors, if needed, in your protein extraction buffer. 5) Run the recommended positive control, if available.
- Poor or no transfer of the proteins to the membrane 1) Check the protein transfer efficiency with a reversible protein stain like Invitrogen Reversible Membrane Protein Stain, ponceau S, amido black or use pre-stained molecular weight standards. 2) Verify that the transfer was performed with the correct electrical polarity. 3) Remember that proteins with basic pI values (e.g., histones) and high MW may not transfer well. 4) Remember that if your target protein has a low MW (≤10 kDa), it may transfer more quickly than expected. 5) If you are using PVDF membranes, make sure to pre-soak the membrane in methanol first before soaking it in transfer buffer. Note that methanol in transfer buffer increases protein binding to nitrocellulose, but omitting methanol can increase transfer efficiency of high MW proteins. 6) Low MW proteins may pass through the 0.45 µm pores in nitrocellulose membranes, so switch to NC with 0.2 or 0.1 µm pores instead.
- Excessive washing or blocking of the membrane:- 1) Avoid over-washing the membrane. Extra washing will not allow you to visualize your protein of interest if there are other problems with your blot. 2) Avoid over-blocking by using high concentrations of the blocking buffer components or long incubation times. Too much blocking can prevent your antibodies from binding to your protein. Gelatin, in particular, can mask proteins on the blot, so avoid it, if possible. Milk can also mask proteins, so instead of using 5% milk in your blocking buffer, try using it at 0.5% instead, or remove it altogether. 3) Switch to a different blocking reagent and/or block the blot for less time.
- Using the same solution of diluted primary antibody repeatedly: Use freshly-diluted antibody for each western blot because the effective concentration of a diluted antibody decreases each time it is re-used. Also, remember that dilute solutions of antibodies are less stable and may lose their activity rapidly.
- The enzyme conjugated to your secondary antibody is not working: 1) Make a fresh dilution of your secondary antibody conjugate each time you need it. Enzymes (and antibodies) may lose activity quickly in dilute solutions. 2) Omit sodium azide in buffers if you are using HRP-conjugated antibodies. 3) Avoid high heme concentrations (from blood contamination), which can interfere with HRP-based detection. 4) Avoid using phosphate in buffers with alkaline phosphatase-antibody conjugates because phosphate inhibits enzyme activity.
- Your colorimetric or other detection reagent is old and inactive: 1) Use fresh enzyme substrate for each experiment. 2) Don't use ready-to-use substrate reagents if they have changed color on their own or if they have passed their expiration date. 3) Do not dilute substrate solutions unless instructed to do so in the product manual.
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Here are some suggestions:
- Make sure that the correct amount of protein is loaded per lane; loading too much protein can cause smearing.
- Bands will not be as well resolved in low percentage gels; try using a higher percentage gel.
- This may be due to the antibody being too concentrated. We recommend following the manufacturer's recommended dilution or determining the optimal antibody concentration
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Some small proteases work better if the sample is heated for a short time before loading so the protease is denatured better and it doesn't digest the casein on its way through the gel. This may also help to improve the band sharpness.
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Zymogram gels can be stained using Colloidal Blue stain or SimplyBlue SafeStain. The fixing step is not required. We recommend staining with SimplyBlue SafeStain after renaturing and developing the gel for enzyme activity. If greater contrast is needed for detecting weakly active enzymes, a 0.5% Coomassie R250 stain may be used.
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The casein in the 4-16% Zymogram Blue-Casein gels is covalently bound to a dye. Some enzymes have a harder time digesting the dye-bound casein compared to the unmodified casein and also it takes more activity to clear the higher quantity of casein. Please note, our Zymogram Casein gels have been discontinued. However, we still offer Zymogram Gelatin Plus Gels (Cat. Nos. ZY00100BOX, ZY00102BOX, ZY00105BOX).
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Zymogram gels are essentially Tris-Glycine gels containing the substrate. Protein standards run based solely on the percentage of acrylamide and hence should run the same in both kinds of gels. It is quite possible though that if the standard is pre-stained, the proteins will appear a different color because of the staining (or pre-staining) of the Zymogram gels.
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No, samples should not be heated or reduced so that multiunit proteases migrate as a single unit that can be renatured after electrophoresis. The sample should be one part sample and one part 2X Tris-Glycine SDS Sample buffer. Let the sample stand at room temperature for 10 minutes and then load the sample onto the gel.
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The substrates for the matrix metalloproteases (MMPs) are:
*MMP-1: tissue collagenase: collagen 1, 2, 3, 4, 6, & 10
*MMP-2: gelatinase: gelatins, collagens 4, 5, & 7
*MMP-3: stromleysin-2: casein, fibronectin, laminin, elastin
*MMP-7: matrilysin: casein
*MMP-8: neutrophil collagenase: collagen
*MMP-9: type 4 collagenase: gelatin
*MMP-10: stromelysin-2: casein
*MMP-12: metalloelastase: elastin
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Invitrogen Zymogram gels are an excellent tool for detecting and characterizing proteases that can utilize casein or gelatin as a substrate. Proteases are run on a gel containing one of these substrates under SDS conditions. They can be visualized as clear bands against a dark background following a simple renaturing and staining protocol. These gels are commonly used to detect matrix metalloproteases, a family of enzymes linked to the pathogenesis of cancer and some inflammatory diseases.
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The Zymogram buffers should be stored at 4 degrees C.
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The shelf life of Zymogram gels is 8 weeks when stored at 4 degrees C.
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We recommend storing the Zymogram gels at 4 degrees C.
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Our Zymogram gels do not contain the substrate (gelatin or casein) in the stacking gel although a small amount might mix in during casting of the gel.
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Yes, our Zymogram gels do contain a 4% stacking gel that is ~8 to 9mm long.
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The recommended sample loading volumes and protein loading amounts for the different well formats can be found at:
https://www.thermofisher.com/us/en/home/life-science/protein-biology/protein-gel-electrophoresis/protein-gels/recommended-well-loading-volumes-sample-loads.html.
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The ratio of acrylamide:bisacrylamide in our Zymogram gels is 37.5:1 and percentage of cross-linker is 2.6%.
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Our Zymogram gels do not contain SDS. We recommend using the Invitrogen Tris-Glycine SDS Sample buffer and the Invitrogen Tris-Glycine SDS Running buffer with these gels. Invitrogen Zymogram Renaturing buffer and Invitrogen Zymogram Developing buffer are recommended for enzyme assays.
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The Invitrogen 10% Zymogram Gelatin gels are 10% Tris-Glycine gels with 0.1% Type A gelatin from porcine skin (Sigma Cat. No. G2500), as the substrate.
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This could be due to:
*Debris in the well
*High salt in the sample (make sure that the salt concentration does not exceed 50-100 mM)
*Running buffer issue
*Gel casting error
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This could be due to a gel polymerization issue combined with incorrect sample preparation (final sample dilution less than 1X). Please try a different lot of the same gel and make sure that the sample is correctly prepared.
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Possible cause:
*Excess reducing agent (beta-mercaptoethanol)
*Skin protein contaminants (keratin)
Remedy:
*The addition of iodoacetamide to the equilibration buffer just before applying the sample to the gel has been shown to eliminate these artifact bands.
*Use new electrophoretic solutions and wear gloves when handling and loading the gel. This issue is more common when highly sensitive stains are used.
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Possible cause:
*Carry-over contamination of sample from one well into neighboring wells due to loading error
*Contaminated running buffer
*Gel casting error: malformed wells
Remedy:
*Use a gel loading tip to load wells
*Reduce the sample volume
*Do not delay while loading wells
*Do not delay after the run, as proteins can diffuse horizontally; a full well left next to an empty well would eventually contaminate the empty well over time.
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Possible cause:
*Poor polymerization around sample wells
*High salt concentration in sample
*Uneven gel interface
*Excessive pressure applied to the gel plates when the gel is placed into the clamp assembly
*Uneven heating of the gel
*Insoluble material in the gel or inconsistent pore size throughout the gel
*Air bubble during the run
Remedy:
*Remove excess salt/other material by dialysis, Sephadex G-25 or any other desalting column or using an Amicon concentrator.
*Either use a cooled apparatus or reduce the current at which electrophoresis is performed.
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A portion of the protein sample may have re-oxidized during the run, or may not have been fully reduced prior to the run. We recommend preparing fresh sample solution using fresh beta-mercaptoethanol or dithiothreitol (DTT). For NuPAGE gels, we recommend adding antioxidant to the running buffer.
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Gel lifting off the cassette can be caused by:
*Expired gels that are degrading
*Improper storage of gels
*Too much heat accumulating during the electrophoresis run due to excessive current
*Insufficient polymerization of the polyacrylamide
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Ghost bands are usually attributed to a slight lifting of the gel from the cassette, which results in the trickling down of some sample beyond its normal migration point. It then accumulates and appears as a faint second band.
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"Smiling" bands may be the result of the acrylamide in the gel breaking down, leaving less of a matrix for the proteins to migrate. We recommend checking to ensure that the gels have not been used past their expiration date.
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Barbell shaped bands are a result of loading too large of a sample volume. When a large sample volume is loaded, part of the sample tends to diffuse to the sides of the wells. When the run begins and the sample moves through the stacking portion of the gel, the sample will incompletely stack causing a slight retardation of the portion of the sample that diffused to the sides of the wells. This effect may be intensified for larger proteins, whose migration is more impeded in the low concentration acrylamide of the stacking gel. To alleviate the problem, we recommend concentrating the protein and loading a smaller volume. This gives a "thinner" starting zone.
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Here are possible causes and solutions:
1) Sample overload: Do not overload samples
2) Addition of reducing agent that is not fresh: Reduce samples right before loading and do not use samples that have been stored in reducing agent
3)Re-oxidation of the protein during the run: Add antioxidant to the running buffer if you are running NuPAGE gels
4) Presence of highly hydrophobic regions where the protein can exclude SDS: Load the sample with 2X sample buffer instead of 1X sample buffer
5) Excess salt in the sample: Precipitate and reconstitute in lower salt buffer
6) Not enough SDS in the sample: Add SDS to the upper buffer chamber (try 0.1%, 0.2%, 0.3% and 0.4% SDS)
Find additional tips, troubleshooting help, and resources within our Protein Electrophoresis and Western Blotting Support Center.