Test of Theory– Can we successfully bind Human IgG to the protein A beads and then remove it with buffer B?
Test of Binding/ Unbinding (Carrie and Barrett): Test to see if we can successfully bind Human IgG to the protein A beads and then remove it with buffer B.
After ordering the new human IgG and protein A beads, I have been working on a higher-quality analysis of the binding and dissociating of the IgG and the beads.
Use “Protein A Beads and IgG Binding and Filtering (with SepCon Format)”
9/23/09: Swell Protein A Beads in Buffer A. Add Human IgG.
Swell Beads:
- Added 200μl of buffer A. The mixture was very dry.
- Added an additional 200μl, but it was still very dry.
- Added 200μl more. The mixture was a slurry, but a very thick one with the beads crusting onto the walls and cap of the conical.
- Added 400μl. The slurry was still very thick and the beads were not staying in solution
- Add more buffer. Total volume= 11 ml.
Store in 20% ethanol.
9/24/09
1) Rinse beads with Buffer A to remove ethanol.
2) Add human IgG to the beads.
9/25/09
1) Rinse with Buffer A to get rid of any unbound IgG (rinse until obtain a neutral Bradford Assay reading).
Bradford Assay:
- 2×10μl blank samples (Buffer A) [B1&2]
- 2×10μl samples after initial spin-down (unbound IgG) [B3&4]
- 2×10μl after 1 rinse [B5&6]
- 2×10μl after 2 rinse2 [B7&8]
- 2×10μl after 3 rinses [B9&10] (B7 had a few beads in solution)
–> All appear light brown. This is good because it means that there is very little unbound IgG in solution.
2) Try to unbind IgG from beads with buffer B.
- Add 1mL of buffer B (at pH 4). Mix for 15 minutes at room temperature; spin for 2 minutes at 1500 rpm.
- Add 59 μl of 1M NaOH, to neutralize the pH of buffer B.
- Take 2×10μl for protein assay [A5&A6] –> When add dye, well is light brown. If the IgG had come off the beads, it should be blue.
3) Try to unbind IgG again.
- Add 1mL of buffer B. Mix for 15 minutes at room temperature; spin for 2 minutes at 1500 rpm.
- Transfer 1 mL to a new tube and add 59μl of 1M NaOH.
- Take 2×10μl for protein assay [A7&8]. –> Still seems like no IgG is coming off.
- [A9&10] –> Buffer B, to have a blank to compare the other results to.
4) Try again, but mix for 30 minutes.
- Add 1mL of buffer B. Mix for 30 minutes at room temperature; spin for 2 minutes at 1500 rpm.
- Transfer 1 mL to a new tube and add 59μl of 1M NaOH.
- Take 2×10μl for protein assay [C1&2].
–> Still seems like no IgG is coming off
5) New attempt: Make buffer B at pH 3 and repeat elution [C3&4]; mix for 30 minutes.
- It worked!!!!
- [B11&12]–> New Buffer B (blank)
6) Finishing steps:
- Do 1 more elution to see if any more IgG–> Still IgG
- Do 1 last elution (2 hours) to remove all of IgG from beads
- Take 2×10μl sample [D1&2]
- Do protein assay
- Still a bit high ABS
- Rinse beads in 20 RV of Buffer A (~7 spins of 1.5mL)
- Store beads in 20% ethanol/ 80% Buffer A
TECAN readings:
| <> | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 |
| A | blank (buffer A) | After protein A bead+ IgG spun down | after 1 rinse with Buffer A | after 2 rinses with Buffer A | after 3 rinses with Buffer A | |||||
| B | 0.2113 | 0.2157 | 0.2183 | 0.209 | 0.2189 | 0.2077 | 0.2102 | 0.2103 | 0.2484 | 0.2015 |
| C | ||||||||||
| Elution | ||||||||||
| Buffer B | Elution 1 | Elution 2 | Elution 3 | |||||||
| 0.2095 | 0.2027 | 0.2429 | 0.2492 | 0.2088 | 0.2039 | 0.2338 | 0.2238 | |||
| Change to pH 3 elution buffer | ||||||||||
| new Buffer B | Elution 1 | Elution 2 | 2 Hour Elution | |||||||
| 0.1963 | 0.2019 | 0.3637 | 0.3754 | 0.2968 | 0.3022 | 0.2309 | 0.2367 | |||