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蛋白质印迹(western blot)缓冲液和储备液的配方

2024-10-25 8:36:30点击:


您的 western blot 实验将需要多种缓冲液和储备液。在可能的情况下,正确地准备这些并提前做好准备,将在此过程中进一步节省您的时间。

Lysis buffers

裂解缓冲液溶解蛋白质的能力不同。含有十二烷基硫酸钠 (SDS) 和其他离子去污剂的缓冲液是以高产率从脂质双层中提取膜蛋白的最有效方法。

选择裂解缓冲液时,主要考虑的是所选抗体是否能识别变性样品。如果不是这种情况,将在抗体数据表上注明,并且应使用不含去污剂或含有相对温和的非离子去污剂(NP-40、Triton X-100)的缓冲液。

Protein location and lysis buffer choice

Protein location

Buffer recommended

Whole cell

NP-40

Cytoplasmic (soluble)

Tris-HCl

Cytoplasmic (cytoskeletal bound)

Tris-Triton

Membrane bound

NP-40 or RIPA

Nuclear

RIPA or use nuclear fraction protocol*

Mitochondria

RIPA or use mitochondrial fraction protocol*

*仅或主要存在于亚细胞位置的蛋白质在亚细胞组分裂解物中的富集程度高于全细胞或组织裂解物。这在获得弱表达蛋白质的信号时非常有用。请查阅我们单独的亚细胞组分分离方案。

以下四种缓冲液均可在 4°C 下保存数周,如果分成等分试样并储存在 -20°C 下,则可保存长达一年。

NP-40 buffer

NP-40 is a popular buffer for studying cytoplasmic and membrane-bound proteins and for whole-cell extracts. Suppose you are concerned that the protein of interest is not being completely extracted from insoluble material or aggregates. In that case, RIPA buffer may be more suitable as it contains ionic detergents that will solubilize proteins more efficiently.

  • 150 mM NaCl
  • 1.0% NP-40 (possible to substitute with 0.1% Triton X-100)
  • 50 mM Tris-HCl, pH 8.0
  • Protease inhibitors

RIPA buffer (radioimmunoprecipitation assay buffer)

RIPA buffer contains the ionic detergent sodium deoxycholate as an active constituent and is useful for lysis of whole-cell extracts and membrane-bound proteins. Also, RIPA buffer may be preferable to NP-40 or Triton X-100-only buffers for extracting nuclear proteins.

A RIPA buffer will disrupt protein-protein interactions and may, therefore, be problematic for immunoprecipitation (IP) and pull-down assays prior to western blot. When it’s crucial to preserve protein-protein interactions or to minimize denaturation, you should use a buffer without ionic detergents (eg SDS) and ideally without non-ionic detergents (eg Triton X-100).

Cell lysis with detergent-free buffer is achieved by mechanical shearing, often with a Dounce homogenizer or by passing cells through a syringe needle. In these cases, a simple Tris buffer will suffice, but as noted above, buffers with detergents are required to release membrane- or cytoskeleton-bound proteins.

  • 50 mM Tris-HCl, pH 8.0
  • 150 mM NaCl
  • 1% NP-40
  • 0.5% sodium deoxycholate - can be prepared as a 10% sodium deoxycholate stock solution (5 g into 50 mL), which must be protected from light.
  • 0.1% SDS (sodium dodecyl sulfate)
  • Protease inhibitors
  • Phosphatase inhibitors – if the samples will be used for IP before proceeding with western blot. Note that using phosphatase inhibitors will interfere with phosphatase treatment if this is required before WB.
  • 1mM EDTA – optional*

*Some RIPA buffer recipes include 1mM EDTA – a chelator of divalent cations (an important cofactor of many enzymes, such as DNases and proteases) – to inhibit proteases, help dissociate ribosomal subunits and protein-RNA complexes, etc.

Tris-HCI

  • 20 mM Tris-HCl, pH 7.5
  • Protease inhibitors

Tris-Triton buffer (for cytoskeletal-bound proteins extraction)

  • 10 mM Tris, pH 7.4
  • 100 mM NaCl
  • 1 mM EDTA
  • 1 mM EGTA
  • 1 mM NaF
  • 20 mM Na4P2O7
  • 2 mM Na3VO4
  • 1% Triton X-100
  • 10% glycerol
  • 0.1% SDS
  • 0.5% deoxycholate

Protease and phosphatase inhibitors

As soon as lysis occurs, proteolysis, dephosphorylation, and denaturation begin. These events can be slowed down significantly if samples are kept on ice or at 4°C at all times, and appropriate inhibitors are added fresh to the lysis buffer.

Ready-to-use cocktails of inhibitors are available from various suppliers, but you can prepare your own inhibitor cocktail.

Inhibitor

Protease/phosphatase 
inhibited

Final concentration in lysis buffer

Stock (store at -20°C)

Aprotinin

Trypsin, chymotrypsin, plasmin

2 µg/mL

Dilute in water, 10 mg/mL. Do not reuse thawed aliquots.

Leupeptin

Lysosomal

5–10 µg/mL

Dilute in water. Do not reuse thawed aliquots.

Pepstatin A

Aspartic proteases

1 µg/mL

Dilute in methanol, 1 mM.

PMSF

Serine, cysteine proteases

1 mM

Dilute in ethanol. You can reuse the same aliquot.

EDTA

Metalloproteases that require Mg2+ and Mn2+

5 mM

Dilute in dH20, 0.5 M. Adjust pH to 8.0.

EGTA

Metalloproteases that require Ca2+

1 mM

Dilute in dH20, 0.5 M. Adjust pH to 8.0

Sodium fluoride Serine/threonine phosphatases 5–10 mM Dilute in water. Do not reuse once defrosted.

Sodium orthovanadate

Tyrosine phosphatases

1 mM

Dilute in water. Do not reuse once defrosted.
Sodium pyrophosphate Serine/threonine phosphatase inhibitor 20 mM Dilute in water

Sodium orthovanadate preparation

Perform all the steps under the fume hood.

  1. Prepare a 100 mM sodium orthovanadate solution with double distilled water.
  2. Set pH to 9.0 with HCl.
  3. Boil until colorless*.
  4. Cool to room temperature. Minimize volume change due to evaporation by covering loosely.
  5. Set pH to 9.0 again.
  6. Boil again until colorless*.
  7. Repeat this cycle until the solution remains at pH 9.0 after boiling and cooling*.
  8. Bring up to the initial volume with water.
  9. Store in aliquots at -20°C.
  10. Discard if the samples turn yellow.

*Avoid large changes in volume during boiling; put a loose lid on the container to protect it from evaporation.

Soluble protein buffer

  • 20 mM Tris-HCI, pH 7.5
  • 1 mM EGTA (Ca2+ chelator)

Loading, running, transfer, and blocking buffers

Loading buffer/Laemmli 2X buffer

  • 4% SDS
  • 10% 2-mercaptoethanol
  • 20% glycerol
  • 0.004% bromophenol blue
  • 0.125 M Tris-HCl
  • Check the pH and adjust it to 6.8

Running buffer (Tris-Glycine/SDS)

  • 25 mM Tris base
  • 190 mM glycine
  •  0.1% SDS
  • Check the pH and adjust to 8.3

Transfer buffer (wet)

  • 25 mM Tris base
  • 190 mM glycine
  •  20% methanol
  • Check the pH and adjust to 8.3
  • For proteins >80 kDa, we recommend including SDS at a final concentration of 0.1%.

Transfer buffer (semi-dry)

  • 48 mM Tris
  • 39 mM glycine
  • 20% methanol
  • 0.04% SDS

Blocking buffer

  • 3–5% milk or BSA (bovine serum albumin)
  • Add BSA to Tris-buffered saline (TBS) or TBST (TBS containing  0.1% Tween 20). 
  • Mix well and filter. Failure to filter can lead to spotting, with tiny dark dots contaminating the blot during signal development and interfering with protein band visualization. 

Tris-buffered saline (TBS) recipes

10X TBS (concentrated Tris-buffered saline)

This 10X TBS stock solution contains 200 mM Tris and 1500 mM NaCl.

For 1 L:

  • 24 g Tris base (formula weight: 121.1 g)
  • 88 g NaCl (formula weight: 58.4 g)
  • Dissolve in 900 mL of distilled water
  • pH to 7.6 with 12 N HCl
  • Add distilled water to a final volume of 1 L

For a 1x solution, mix 1 part of the 10x solution with 9 parts distilled water and adjust pH to 7.6 again. The final molar concentrations of the 1x solution are 20 mM Tris and 150 mM NaCl. 

An alternative recipe for Tris buffer combines Tris base and Tris-HCl. This avoids the large volume of potentially hazardous hydrochloric acid needed to neutralize a Tris base solution alone.

10X TBS alternative recipe

For 1 L:

  • 24 g Tris-HCl (formula weight: 157.6 g)
  • 5.6 g Tris base (formula weight: 121.1 g)
  • 88 g NaCl (formula weight: 58.4 g)
  • Dissolve in 900 mL of distilled water
  1. The pH of the solution should be about 7.6 at room temperature. If too basic, adjust to pH 7.6 with concentrated HCl; if too acidic, adjust with concentrated NaOH.
  2. Add distilled water to a final volume of 1 L.
  3. For a 1x solution, mix 1 part 10x with 9 parts distilled water and pH to 7.6 again.

The final molar concentrations of the 1x solution are 20 mM Tris and 150 mM NaCl.

TBST (Tris-buffered saline, 0.1% Tween 20)

For 1 L:

  • 100 mL of TBS 10x
  • 900 mL distilled water
  • 1 mL Tween 20*

*Tween 20 is very viscous and will stick to the tip of your measuring pipettes. Be sure you add the right amount of the detergent to the Tris buffer. A 10% solution is easier to dispense than undiluted Tween 20. 

Stripping buffers

Medium stripping buffer

  • 15 g glycine
  • 1 g SDS
  • 10 mL Tween 20
  1. Adjust the volume to 800 mL with distilled water.
  2. Adjust pH to 2.2.
  3. Bring volume up to 1 L with distilled water.

Harsh stripping buffer

Prepare buffer and strip membranes under a fume hood.

For 100 mL:

  • 20 mL SDS 10%
  • 12.5 mL Tris HCl, pH 6.8, 0.5 M
  • 67.5 mL distilled water
  • Add 0.8 mL β-mercaptoethanol under the fume hood

Nuclear fractionation buffers

The following nuclear fractionation buffers are used for extracting and fractionating the nuclear fraction of cells. The main difference between the buffer recipes below is that buffer A contains a detergent, NP-40.

Nuclear fractionation protocol reagents buffer A

  • 10 mM HEPES
  • 1.5 mM MgCl2
  • 10 mM KCl
  • 0.5 DTT
  • 0.05% NP-40 (or 0.05% Igepal or Tergitol) pH 7.9

To prepare 250 mL stock of buffer A:

  • HEPES: 1 M = 238.3 g/L, therefore 10 mM = 0.59 g/250 mL
  • MgCl2: 1 M = 203.3 g/L, therefore 1.5 mM = 0.076 g/250 mL
  • KCl: 1 M = 74.5 g/L, therefore 10 mM = 0.187 g/250 mL
  • DTT: 1 M = 154.2 g/L, therefore 0.5 mM = 0.019 g/250 mL
  • NP-40: 0.05%

Nuclear fractionation protocol reagents buffer B

  • 5 mM HEPES
  • 1.5 mM MgCl2
  • 0.2 mM EDTA
  • 0.5 mM DTT
  • 26% glycerol (v/v) pH 7.9

To prepare 250 mL stock of buffer B:

  • HEPES: 1 M = 238.3 g/L, therefore 5 mM = 0.295 g/250 mL
  • MgCl2: 1 M = 203.3 g/L, therefore 1.5 mM = 0.076 g/250 mL
  • EDTA: 1 M = 372.2 g/L, therefore 0.2 mM = 0.0186 g/250 mL
  • DTT: 1 M = 154.2 g/L, therefore 0.5 mM = 0.019 g/250 mL
  • 26% glycerol (v/v) = 65 mL

Primary antibody solution in 1% BSA/TBS

Example of 10 mL primary antibody solution containing any primary antibody at 1:1000 dilution:

  • 10 µL primary antibody
  • 0.1 g BSA
  • 9.90 mL 1X TBS, pH 7.6–7.8

ABC (avidin-biotin complex) in TBS

An example of ABC solution, with each part used at a dilution of 1:100.

For 1 mL:

  • 10 µL Streptavidin
  • 10 µL HRP (or AP)-biotin
  • 980 µL 1X TBS pH 7.6–7.8

Bicarbonate/carbonate coating buffer (100 mM)

  • 3.03 g Na2CO3
  • 6.0 g NaHCO3 (1 L distilled water) pH 9.6