1、Agrisera Western Blot recommendations and troubleshootingEach antibody-antigen interaction has unique characteristics. A protocol giving good results for one antibody-antigen pair might found to be unsatisfactory for a second antibody even on the same sample. The interaction of antisera with protein
2、 epitopes in Western blot detection is dependent on a number of factors all contributing to the final signal/noise ratio. Knowledge about and control of those factors allows for modifications and optimization of the procedure. Polyclonal antibodies (serum or IgY-fractions from egg yolk) usually cont
3、ain a number of different antibodies interacting independently with different epitopes on the target used for immunization. This number is limited for peptide-antigens but if recombinant or native proteins have been used for immunization the signal obtained has to be regarded as cumulative (=caused
4、by several different types of antibodies present in the serum/IgY used). To achieve reproducible results the usage of gloves, forceps, clean and detergent-free laboratory materials, non-expired reagents, freshly prepared buffers with controlled pH, as well as keeping protocol volumes, dilutions, and
5、 times is of primary importance in addition to the steps discussed below. In general incubation times should be as short as possible while antibody dilutions should be as high as possible.(1) sample Careful control about the presence of the target protein in the starting material, its preparation an
6、d storage under non-degrading/aggregating conditions is essential. If the target protein is degraded or not present in sufficient amounts in the sample loaded it might be impossible to detect. Epitope abundance can be enhanced under altered growth conditions, by selective tissue preparation, or frac
7、tionations of complex cellular extracts (i.e. organelle preparation). Run sample buffer (+ loading buffer) in one lane of your gel to check for contribution of your sample extraction buffer to the background signal.Alternative preparation methods should be considered if possible.Include positive and
8、 negative controls from the beginning: comparison of samples prepared from material containing no target (e.g. genetic 0-mutants) or higher amounts of the target (e.g. over-expression mutants) as well as cellular fractionation (e.g. organell preparation) will allow to control for specificity of the
9、signals obtained.(2) separationThe size-related identification of a protein-antibody interaction usually requires gel separation under fully denaturing conditions. Complete reduction of intra- and intermolecular S-S bridges ensures the accessibility of the epitope for interaction with antibodies det
10、ecting linear epitopes. In this cases, reducing agents have to be added to sufficient final concentrations to both, sample and running buffer. If antibodies recognize non-linear eptiopes they require conformational integrity of the target best provided in non-denaturating PAGE systems or immuno-hist
11、ochemistry applications. Increasing protein loadings might elevate epitope abundance but most often also promotes non-specific cross-reactions, higher background, and impaired separation.Avoid protein loadings higher that 5-20 g/lane for standard mini-gel systems.Check separation with stained marker
12、 pattern or by Coomassie/Silver-staining of the gel. Mixing a pre-stained marker with a marker reacting with the secondary antibody (e.g. MagicMark, Invitrogen) will be an advantage for size-determination and can serve as a control for the visualization assay.Some highly hydrophobic membrane protein
13、s might require 2-8 M urea in the gels and sample buffer to be kept unfold completely during separation.If DTT is used as reducing agent it should be freshly prepared.(3) transferThe protein transfer on a suitable membrane (blotting) with protein-binding capacity (nitrocellulose, PVDF) is highly dep
14、endent on the biochemical properties of the target protein. Higher molecular targets (apparent molecular masses of 100 kDa) require longer blotting times than smaller proteins. At low field strengths (35 V/cm) proteins might pass through the membrane without binding. The transfer times should be as
15、short as possible to avoid proteins (especially lower molecular weight) from passing through the membrane. This can be monitored by placing 2 membranes on top of each other and comparing signals obtained after incubation with the antibody. In gradient gels the porosity of the gel is matched with the
16、 size of the proteins which can be an advantage for efficient transfer.Check efficiency of a transfer by post-transfer staining of the gel (e.g. Coomassie or Silver) or the filter (Ponceau, reversible).Drying of a membrane (air dry between clean sheets of filter-paper) can improve immobilization of
17、the protein.Blotting equipment should be carefully rinsed with destilled water after each use and be ckept away from contaminating detergents. Foam pads should be cleaned with (suitable) detergents followed by thoroughly washing. Replace foam pads if they start to aquire colours (from plant material
18、) and/or loose tension.Do not reuse transfer buffers.The presence of SDS (0.01 to 0.02 %) in transfer buffer will increase the mobility of proteins (especially large proteins) out of the gel and due to giving a negative charge to the protein will help to maintain it in the soluble state. At the same
19、 time, SDS will reduce protein binding to the membrane (especially nitrocellulose) due to decreased hydrophobicity of the protein.The presence of alcohol in the transfer buffer will decrease protein mobility out of the gel. It will also reduce pore size of the gel, while it will improve binding to n
20、itrocellulose as it remove SDS from proteins and increases their hydrophobicity. Higher molecular weight proteins might not be transferred completely if methanol is present in the transfer buffer. Change membrane to nitrocellulose, omit methanol from transfer buffer, while adding SDS and increasing
21、field strength.The thickness of the gel is affecting protein mobility out of gel. Thicker gels allow higher loading but lower molecular weight proteins might transfer less efficient.(4) blockingTo minimize background staining due to non-specific membrane-binding of the antibody tested the membrane h
22、as to be saturated (“blocked”) with proteins non-reacting with the antibody. Commonly used are low-fat dry milk powder, casein, or BSA, at 2-5% w/v. The shortest possible blocking-time should be determined experimentally for your system. Increasing the blocking-times unnecessarily (e.g. overnight) o
23、r incubation at low temperatures might lead to aggregation of blocking protein on the membrane and by this compromising later antibody-epitope interactions. If low background is obtained after 30-60 min of blocking any longer blocking will not improve your results. It should be determined experiment
24、ally if adding or omitting the blocking reagent in the subsequent antibody incubation steps is improving the results. Usually the buffer and the detergent concentration used should not abolish interaction of the blocking-protein with the membrane. However, removing excess blocking-protein with a sho
25、rt washing (buffer without blocking-protein) prior to incubation with the primary antibody can increase accessibility of the target protein on the filter for the antibody.As some IgY antibodies might recognize milk proteins BSA might give lower background than milk powder in this cases.Do not use BS
26、A as blocking agent if BSA-coupled peptides was used for immunization.As milk contains biotin the use of milk-power for blocking is incompatible with avidin/streptavidin systems.If serum is used for blocking it should be considered if it can be excluded that the animal from which blocking serum has
27、been obtained may have been exposed to and developed antibodies to the antigen in question. If this is the case, they may bind to the antigen and prevent the primary antibody from binding. As a protein-free protein alternative you may block for 1 hr at RT with 0,2-0,5 % Tween-20 in PBS followed by i
28、ncubation with the primary antibodies diluted in 0,25 % Tween-20 in PBS for 1 hr at RT.(5) primary antibodyThe primary antibody is the major determinat of the specificity of the target-recognition. The interaction with the primary epitope should be in favour over any cross-reactivity with other simi
29、lar epitopes present. Common dilutions are between 1:500 to 1:20 000 depending on the reactivity of the antibody used. To check for specificity of the target recognition you can may use (1) another antibody against your target which will bind to other epitopes on a target protein, (2) control sample
30、s free or depleted of target-proteins, or (3) perform a peptide competition assay (for anti-peptide antibody).If available, a second antibody known to react with the sample can be used as a control of subsequent assay steps on a parallel filter in the same experiment.Lyophilized primary antibodies c
31、an be incubated for 2-4 h at 4 C after reconstitution prior to use.To diminish unspecific cross-reactions you may pre-adsorb the primary antibody (overnight, 4C) with tissue extract which lacks your protein of interest (you can use a transferred membrane where the band/area containing your target pr
32、otein has been cut out). In case of increased background signals incubate your membrane before any protein is transferred in saturated PBS-milk followed by protein transfer.Antibodies against carrier protein (KLH, BSA or others) might recognize epitopes of other proteins present in the extract. Thos
33、e anti-carrier antibodies can be removed by (1) incubating serum/IgY sample with a carrier protein in solution (0.1 % (w/v) or spotted on PVDF membrane or (2) passing serum/IgY sample through the column with bound carrier protein (use flow through fraction in further experiments).Storing primary ant
34、ibodies (at 4C or -20C) in solution with blocking reagent for further use might result in decreased primary antibody activity in some cases.(6) secondary antibodyThe secondary antibody has to be reactive against the primary antibody (e.g. use anti-rabbit to detect primary antibodies raised in rabbit
35、) and usually is coupled to an enzyme or dye that allows for subsequent visualization. Thus, any non-target binding of the secondary antibody will result in background (if bound to the membrane due to insufficient blocking) or false-positive recognition of non-target proteins present on the filter (
36、“cross-reactions”). Usually secondary antibodies are used at dilutions of 1:20 000-1:500 000 depending on the sensitivity of the visualization method (e.g. enhanced chemi-luminenscense, ECL or alkaline phosphatase, AP). The optimal dilution of the secondary antibody has to be determined experimental
37、ly for the detection system used. Different secondary antibodies may even result in different recognition patterns when applied to the same sample.To check for contribution of the secondary antibody for the result you may cut a suitable are of your filter and run it as a parallel control where the p
38、rimary antibody is omitted (see example for trouble shooting).If an Ig-reactive marker has been used the signals obtained from the marker can serve as a control of the function of the secondary antibody as well as the subsequent visualization.(7) WashesAfter all steps (4-6) excess off blocking-prote
39、in, primary or secondary antibody has to be diminished by washing. Usually same buffers as used for the preceeding steps are used. In some protocols washing steps include subsequent changes of the washing volumes with omitting the detergent in the last step. For reasons of reproducibility it is reco
40、mmended to keep volumes and times constant. The intensity of washing steps can be elevated by (a) increased times and volumes, (b) additional changes of buffer, (c) higher detergent concentrations, (4) use of stronger detergents (e.g. SDS instead of Tween-20).(8) storage of prepared membranesmembranes (nitrocellulose or PVDF) can be stored after western blot has been completed for up to 6 months in room temperature between sheets of Clinex.
