SBB10AssayTeam1-LabNotebook: Difference between revisions
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# Induce arabinose | # Induce arabinose | ||
# Grow to saturation, have protein | # Grow to saturation, have protein | ||
# Transfer to centrifuge tube (100 mL) x 2 - stuff here on is on ice (4C) | # '''Transfer to centrifuge tube (100 mL) x 2 - stuff here on is on ice (4C) | ||
# Spin 5 min at 6000 rpm | # Spin 5 min at 6000 rpm | ||
# Dump supernatant, leave pellet | # Dump supernatant, leave pellet | ||
| Line 15: | Line 15: | ||
# Transfer supernatant to fresh tube (pour). Will be translucent. | # Transfer supernatant to fresh tube (pour). Will be translucent. | ||
# Add 400 uL of Ni resin | # Add 400 uL of Ni resin | ||
# Agitate at 4C 1h to overnight | # Agitate at 4C 1h to overnight''' | ||
* Tomorrow | * Tomorrow | ||
# Get column | # Get column | ||
Revision as of 14:19, 21 April 2010
4/21/2010
- General protocol for protein purification:
- Pick starter colony
- Grow starter culture
- Put in flask
- Grow to midlog
- Induce arabinose
- Grow to saturation, have protein
- Transfer to centrifuge tube (100 mL) x 2 - stuff here on is on ice (4C)
- Spin 5 min at 6000 rpm
- Dump supernatant, leave pellet
- 10 mL of resuspension buffer (TBS), resuspend and combine in 50 mL conical flask
- Sonicate (probe) - 1 minute (is it a program?). DO pulses.
- Spin to remove debris
- Transfer supernatant to fresh tube (pour). Will be translucent.
- Add 400 uL of Ni resin
- Agitate at 4C 1h to overnight
- Tomorrow
- Get column
- Pour in lysate + beads
- Collect drips
- Wash with PBS (20 mL) (4 x 5 mL)
- Elute with 4-5 1 mL volumes of 300 mM imidazole in PBS
- Put eluant into dialysis bag
- Let dialyze overnight
4/19/2010
- analyze TECAN data, maximize TECAN protocol
- TECAN data showed significant edge effects. Recommended to not use outer rows and columns
- I have no clue how to derive the actual growth rate. Tried some logistic equations (a*b)/(a-(b-a)*Exp(-c*t)) and nonlinear regression but my system keeps blowing up, regression looks bad, etc.
- There are a lot of forms of logistic equations you can use. E.x. K / (1 + exp(a + b*x), the differential form dN/dt = r*N(K-N)/K, etc. If anyone has a copy of Mathematica or SPSS, try to play around with it.
- develop ELISA protocol
4/15/2010
- materials: 20% 100X arabinose, LB media and 96 well plate for TECAN
- dilute arabinose to 1X, 50ul LB in each well. 1ul of saturated cell mixture.
- Plate: http://spreadsheets.google.com/ccc?key=0AvbXytCFRyFCdGJNVXhzNTUtWTgtZFlkYmZGTVQxT2c&hl=en
- by accident, added two uls of different cells to F3
TECAN
Running a TECAN analysis:
The procedure below only works for black 96-well flat bottom plates.
- Turn TECAN power on (wait for light to stop flashing)
- Open XFluor4 Safire II XLS spreadsheet
- Load plate:
- Have 96-well plate with media+cells
- Goto XFluorSafireII menu > movements > out
- Load plate
- Goto XFluorSafireII menu > movements > in
- Load the program to run:
- Select Multi Labeling Kinetic
- Load multi labeling kinetic parameter > "\iGEM 2007\My Documents\Weston\gabe's experimental folder\kinteticmodified_no gfp reading.mps"
- Click "Run"
- Wait for data collection. Operation can only be cancelled when machine is performing measurements.
4/14/2010
Picked 3 colonies from the 3 different constructs. Transformation efficiency is, of course, insane because there was no ligation performed.
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Ugh, image markup is confusing. Anyways, refer to the edit page for code to do the above.
4/12/2010
- Trial run for transformation. Obtained vectors.
- jtk2559-jtk2164 K
- jtk2619-jtk2164 K
- jtk2578-jtk2164 K
- Transformation protocol:
- Add:
- plasmid 0.5 uL
- cells (MC1061 pir+) 10 uL
- Add to cells:
- KCM 1.5 uL
- Water 2.5 uL
- Use normal heat shock
- Did @ 42C for 120 sec
- Rescue (rescued 40 min)
- Plate
