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Instruction of setup mini-IEF

Instruction of setup mini-IEF. Instrument guide Supportive matrix Gel Solution components Casting Polyacrylamide Gels Preserve of gel film Sample Preparation Samples and Marker Application Running gel program Staining Protocols and gel drying Reference. Instrument: Priniciple.

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Instruction of setup mini-IEF

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  1. Instruction of setup mini-IEF • Instrument guide • Supportive matrix • Gel Solution components • Casting Polyacrylamide Gels • Preserve of gel film • Sample Preparation • Samples and Marker Application • Running gel program • Staining Protocols and gel drying • Reference

  2. Instrument: Priniciple • Electrofocusing separates proteins on the basis of surface charge alone as a function of pH. The separation is done in a non-sieving medium (polyacrylamide gel) in the presence of carrier ampholytes, which establish a pH gradient increasing from the anode to the cathode. Since a protein contains both positive (amines) and negative (carboxyl) charge-bearing groups, the net charge of the protein will vary as a function of pH. • A pH gradient is established concomitantly with protein separation. As the protein migrates into an acidic region of the gel, it will gain positive charge via protonation of the carboxylic and amino groups. At some point, the overall positive charge will cause the protein to migrate away from the anode (+) to a more basic region of the gel. As the protein enters a more basic environment, it will lose positive charge and gain negative charge, via ammonium and carboxylic acid group deprotonation, and consequently, will migrate away from the cathode (-). Eventually, the protein reaches a position in the pH gradient where its net charge is zero (defined as its pI or isoelectric point). At that point, the electrophoretic mobility is zero. Migration will cease, and a concentration equilibrium of the focused protein is established.

  3. Bio Rad IEF 111 Video sound with Cantonese; with Mandarin

  4. Support Matrix & Assembly sandwich

  5. Solutions

  6. Setup 0.4mm ultra-thin gel

  7. Sample Loading • load sample, marker information

  8. Program running • Run Conditions

  9. Staining Protocol A • Fixative: Fixative: • 4% sulfosalicylic acid Not necessary • 12.5% trichloroacetic acid • 30% methanol • Immerse gels in this solution for 30 minutes. • Stain: Stain: • 27% isopropanol or ethanol Same as Method A, but with • 10% acetic acid 0.05% crocein scarlet • 0.04% Coomassie brilliant blue R-250 • 0.5% CuSO4 • (0.05% crocein scarlet optional) • Dissolve the CuSO4 in water before adding the alcohol. • Either dissolve the dye in alcohol or add it to the solution • at the end. • Immerse the gel in the stain for approximately 1-2 hours. • First destaining solution: • 12% isopropanol or ethanol • 7% acetic acid • 0.5% CuSO4 • Second destaining solution: • 25% isopropanol or ethanol • 7% acetic acid • Immerse the gel in this solution to remove the last traces of stain and CuS04. • Note: Prolonged soaking of gels with gel support film backings in acidic solutions may cause • the gel to separate from the backing. Staining and destaining steps should be no longer than 3-4 • hours.

  10. Staining Protocol Quick stain • Coomassie Blue G-250 “Quick Stain” • This technique is nearly as sensitive as Coomassie blue R-250 staining, but requires no • destaining and will not stain ampholytes. It cannot be used in the presence of detergents, • except urea. • 3.5% perchloric acid • 0.025% Coomassie blue G-250 • Immerse gels in this solution for 1 hour. Place in 7% (v/v) acetic acid for intensification and • preservation.

  11. Documentation and Gel drying

  12. Hint Tips Finish casting gel, the tray must wash immediately with soft clothes

  13. Reference • Reference : The Bio Rad mini IEF 111 manual • Practical setup reference: SDS, mini transblot and mini IEF • Micro Bio Spin P-6 manual: Boeco microcentrifuge 1000g = 3222 rpm • Millipore microcon : Millipore microcon centrifugal filter device, green color code for MWCO 10KDa

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