SDD-AGE is a useful technique for the detection and characterization of amyloid-like polymers in cells. Here we demonstrate an adaptation that makes this technique amenable to large-scale applications.
Part 1: Preparing the gel
Part 2: Preparing samples
Part 3: Transfer
Spheroplasting Solution
1.2 M D-sorbitol
0.5 mM MgCl2
20 mM Tris, pH 7.5
50 mM BME (add fresh)
0.5 mg/ml Zymolyase 100T (add fresh)
Lysis Buffer
100 mM Tris 7.5
50 mM NaCl
10 mM BME (add fresh)
protease inhibitors (add fresh)
4X Sample Buffer
2X TAE
20% glycerol
8% SDS
bromophenol blue to preference
SDD-AGE was first reported by Kryndushkin et al.1, to study SDS-resistant complexes of the [PSI+] prion in yeast, and has since found widespread use studying both prion and non-prion aggregates 2-9. However, transfer of the proteins to a membrane following electrophoresis in an agarose gel is problematic, and can result in a distorted blot image 5. Additionally, the submerged electroblotting technique most commonly used introduces practical limitations for the size of the gel and thus the number of samples that can be processed. We have addressed these problems by employing downward capillary transfer 10, a simple procedure which uses a stack of dry blotting papers to transfer proteins from the gel to a nitrocellulose membrane. Capillary transfer prevents distortion and allows large gels to be processed easily. There are a few things to consider before using SDD-AGE. For crude samples (e.g., lysates), immunodetection of specific proteins is necessary. SDD-AGE does not fully denature the protein complexes of interest, so the protein(s) to be detected must bear an epitope tag outside of the amyloidogenic region. Lysates can generally be prepared as they would be for a normal SDS-PAGE, with two important differences. First, increased care must be taken to prevent degradation by proteolysis. The partially denaturing conditions used here are not sufficient to inactivate proteases, and can also make target proteins more susceptible to proteolysis. Use a complete protease inhibitor cocktail at at least two-fold the recommended concentration. Second, heating the samples should be avoided. If an all-monomer negative control is desired, for instance to confirm that high-molecular-weight species are not due to covalent modifications, a 10-minute incubation at 95°C can be used, which will restore most amyloids to monomeric protein.
We thank Simon Alberti for assistance with developing this protocol. This work was supported by a grant from the National Institutes of Health (GM25874), a Howard Hughes Medical Institute Investigatorship (to S.L.), and a National Science Foundation predoctoral training grant (to R.H.).
Material Name | Tipo | Company | Catalogue Number | Comment |
---|---|---|---|---|
zymolyase 100T | Seikagaku America | 120493-1 | ||
Halt Protease Inhibitor Cocktail | Thermo Scientific | 78429 | ||
Hybond-C extra nitrocellulose | Amersham | RPN303E | ||
GB004 blotting paper | Whatman | 10427926 | ||
GB002 (3MM Chr) blotting paper | Whatman | 3030-917 | ||
Agarose (UltraPure) | Invitrogen | 15510-027 |