Team:British Columbia/Protocols/Gcms
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==GC-MS Sample Preparation Protocol for yeast== | ==GC-MS Sample Preparation Protocol for yeast== | ||
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# GC Vials | # GC Vials | ||
# 5mL Pasteur Pipets and Bulbs | # 5mL Pasteur Pipets and Bulbs | ||
- | |||
'''Procedures:''' | '''Procedures:''' | ||
Line 34: | Line 36: | ||
# Wash the yeast pellet with 5 mL of sdH2O. | # Wash the yeast pellet with 5 mL of sdH2O. | ||
# Transfer the 5mL of yeast to the glass tubes. | # Transfer the 5mL of yeast to the glass tubes. | ||
- | # Spin down the cells (5 min @ | + | # Spin down the cells (5 min @ 2500 x g). |
# Pour out water and weigh the glass tubes again to obtain the weight of the yeast pellet. | # Pour out water and weigh the glass tubes again to obtain the weight of the yeast pellet. | ||
# Proceed to Extraction. | # Proceed to Extraction. | ||
- | |||
Part 2: Extraction (all of the following steps should be done in the fumehood in Bohlmann lab) | Part 2: Extraction (all of the following steps should be done in the fumehood in Bohlmann lab) | ||
Line 78: | Line 79: | ||
# Enzyme Assay Buffer | # Enzyme Assay Buffer | ||
# Pentane | # Pentane | ||
- | # DTT (final conc of | + | # DTT (final conc of 5 mM) |
# Protein Inhibitory Cocktail (PIC) | # Protein Inhibitory Cocktail (PIC) | ||
- | |||
'''Procedures:''' | '''Procedures:''' | ||
Part 1: Preparation for Extraction | Part 1: Preparation for Extraction | ||
- | # Make | + | # Make 50 mL overnight cultures of selected colony to be sampled (18-20 hours @ 37 degrees). The media used here must be LB broth with the selectable antibiotics. |
- | # Transfer | + | # Transfer 1 mL of overnight culture (in LB broth) to 250 mL of Terrific broth with the selectable antibiotics in a 1 L or 2 L Erlenmeyer flask. |
# Grow up the cultures for about 4-5 hours @ 37 degrees (until OD600 is 0.8). | # Grow up the cultures for about 4-5 hours @ 37 degrees (until OD600 is 0.8). | ||
- | # Induce cells with | + | # Induce cells with 250 μL of 1M IPTG. Incubate culture for 16-18 hours at 16 degrees, shaking at 205 rpm. |
# Pour the culture into the centrifuge tubes. | # Pour the culture into the centrifuge tubes. | ||
- | # Spin cells at 3000 rpm at 4 degrees for 20 minutes. | + | # Spin cells at 3000 rpm at 4 degrees for 20 minutes. |
- | # Transfer the cultures to Erlenmeyer flasks and grow up overnight (18-20 hours@ 30 degrees). | + | # Transfer the cultures to Erlenmeyer flasks and grow up overnight (18-20 hours @ 30 degrees). |
# Carefully pour out supernatent and keep the pellet | # Carefully pour out supernatent and keep the pellet | ||
# Proceed to extraction or keep pellet at -80 degrees | # Proceed to extraction or keep pellet at -80 degrees | ||
- | |||
Part 2: Extraction | Part 2: Extraction | ||
# Set up stand and clamp with the his-tag purification column. (Note: His-tag Column must never run dry. Therefore, it is advantageous to keep the column wet with wash buffer) | # Set up stand and clamp with the his-tag purification column. (Note: His-tag Column must never run dry. Therefore, it is advantageous to keep the column wet with wash buffer) | ||
- | # Add 1 tablet of protease inhibitor cocktail and DTT (final conc of | + | # Add 1 tablet of protease inhibitor cocktail and DTT (final conc of 5 mM) to 50 mL of Lysis Buffer |
- | # Weigh out 1-1. | + | # Weigh out 1-1.5 g of cell pellet into falcon tube |
- | # Add | + | # Add 5 mL of Lysis Buffer (containing protease inhibitor and TPP) to the cell pellet. Pipet up and down until the pellet is dissolved and the cell lysate is homogeneous. |
# Sonicate cells (ready when there's a change in color; usually a lighter colour than the cell pellet) | # Sonicate cells (ready when there's a change in color; usually a lighter colour than the cell pellet) | ||
- | # Centrifuge sonicated cells at max speed for > | + | # Centrifuge sonicated cells at max speed for > 20 min (until all cells are pelleted) |
- | # Collect supernatent (should be around | + | # Collect supernatent (should be around 5 mL). |
# Transfer supernatent into the his-tag column. Adjust flow such that the drop of supernatent passing the column is about 1-2 drops per second. Supernatent can be passed through column twice. | # Transfer supernatent into the his-tag column. Adjust flow such that the drop of supernatent passing the column is about 1-2 drops per second. Supernatent can be passed through column twice. | ||
- | # Add | + | # Add 10 mL of wash buffer. Collect drops slightly after the start of wash buffer flow through the column. Nanodrop to find out the absorbance and concentration of proteins passing through the column. Once this 10 mL of wash buffer has passed through, add another 10 mL of wash buffer to wash the column again to collect any residue proteins not binding to the beads of the column. Take a nanodrop reading at the end of the washing steps (last few drops of the wash buffer). Nanodrop reading should read 0 mg/mL at the end of second wash. If proteins are still present, continue with another wash until no protein can be found in the wash buffer. |
# Elute with 5mL of elution buffer and collect into a falcon tube. | # Elute with 5mL of elution buffer and collect into a falcon tube. | ||
- | |||
Part 3: GPP assay | Part 3: GPP assay | ||
- | # Pipet in | + | # Pipet in 1 mL of purified protein to 4mL of enzyme assay buffer in a test tube |
- | # Add | + | # Add 7 μL of GPP |
- | # Add 1- | + | # Add 1-2 mL of pentane (less is better in terms of getting high concentration yield; but may need large volume of pentane to avoid emulsion formation) |
- | # Incubate in water bath for 1 hour at 30 degrees | + | # Incubate in water bath for 1 hour at 30 degrees celsius |
# Place GC vial in a rack and label it. | # Place GC vial in a rack and label it. | ||
- | # Pipet out solvent (the less dense pentane layer) and transfer to vials to 0. | + | # Pipet out solvent (the less dense pentane layer) and transfer to vials to 0.5 mL line. |
# Prepare a control without GPP added | # Prepare a control without GPP added | ||
# Freeze both samples | # Freeze both samples | ||
# Send for GC-MS | # Send for GC-MS | ||
+ | <html></br></html> |
Latest revision as of 17:48, 18 October 2011
iGEM Tips for Success
Things to think about when designing your project and experiments, as well as general safety rules.
Site Directed Mutagenesis
A molecular biology technique in which a mutation is created at a defined site in a DNA molecule.
Bacterial Standard Operating Protocols
How to prepare competent cells, transform your construct into competent cells, and express your protein from a lac promoter.
Yeast Standard Operating Protocols
How to transform your construct into yeast, obtain crude extract for SDS-PAGE, and perform GFP fixation for microscopy and fluorescence-activated cell sorting.
Gas Chromatography-Mass Spectrometry (GC-MS)
A method that combines the features of gas-liquid chromatography and mass spectrometry to identify different substances within a test sample.
Beetle Transfer Experiments
Preliminary experiments to probe the efficiency of transferring yeast via beetle vector.
Yeast-Fungi Co-culture Experiments
Preliminary experiments to investigate the competitive interactions between yeast and the Bluestain Fungus.
Things to think about when designing your project and experiments, as well as general safety rules.
Site Directed Mutagenesis
A molecular biology technique in which a mutation is created at a defined site in a DNA molecule.
Bacterial Standard Operating Protocols
How to prepare competent cells, transform your construct into competent cells, and express your protein from a lac promoter.
Yeast Standard Operating Protocols
How to transform your construct into yeast, obtain crude extract for SDS-PAGE, and perform GFP fixation for microscopy and fluorescence-activated cell sorting.
Gas Chromatography-Mass Spectrometry (GC-MS)
A method that combines the features of gas-liquid chromatography and mass spectrometry to identify different substances within a test sample.
Beetle Transfer Experiments
Preliminary experiments to probe the efficiency of transferring yeast via beetle vector.
Yeast-Fungi Co-culture Experiments
Preliminary experiments to investigate the competitive interactions between yeast and the Bluestain Fungus.
GC-MS Sample Preparation Protocol for yeast
Supplies Needed:
- Erlenmeyer Flasks
- Appropriate Media [Glucose (GPD) or Galactose (GAL)]
- Spectrophotometer
- sdH2O
- Falcon Tubes
- GLASS test tubes (large and small)
- Pentane
- Glass Beads
- Sodium Sulphate (anhydrous)
- GC Vials
- 5mL Pasteur Pipets and Bulbs
Procedures:
Part 1: Preparation for Extraction
- Make 5 mL overnight cultures of yeasts to be sampled (18-20 hours @ 30 degrees). The media used here must be SD-Leu (glucose).
- Measure OD 600 of the cultures using the spectrophotometer. The OD 600 should be around 2.
- Add the remaining cultures to Erlenmeyer flasks and dilute with 50 mL of of SD-Leu.
- Grow up the cultures for about 2-3 hours (until OD 600 is 0.6-0.8).
- Transfer all of the cultures into falcon tubes and spin down the cells (5 min @ 2500g).
- Pour out media and resuspend the yeast pellets with about 47mL of SD-Leu (GPD) or SG-Leu (GAL).
- Transfer the cultures to Erlenmeyer flasks and grow up overnight (18-20 hours@ 30 degrees).
- Harvest cells (step 5).
- Weigh the large glass tubes and record values.
- Keep 1 mL of the media and transfer to large glass tubes and discard the rest of the media.
- Wash the yeast pellet with 5 mL of sdH2O.
- Transfer the 5mL of yeast to the glass tubes.
- Spin down the cells (5 min @ 2500 x g).
- Pour out water and weigh the glass tubes again to obtain the weight of the yeast pellet.
- Proceed to Extraction.
Part 2: Extraction (all of the following steps should be done in the fumehood in Bohlmann lab)
- Pipet in 2 mL of pentane to each glass tube.
- Add 0.5-1 mL of glass beads to each tube.
- Vortex as fast as possible without spilling for about 20 seconds.
- Pour solvent into smaller glass tube. Pipet the solvent out for the media samples using the pasteur pipets. Avoid glass beads!
- Add about 200 μL of Sodium Sulphate to the small glass tubes.
- Make one blank (4 mL of pentane and Sodium Sulphate).
- Repeat 1-4.
- Bring down the volume to about 1 mL by applying a stream of nitrogen.
- Place GC vials in a rack and label them.
- Pipet out solvent and transfer to vials.
- Apply nitrogen to vials and bring down the volume to about 0.4 mL.
- Add pentane to 0.5 mL line.
GC-MS Sample Preparation Protocol for bacteria
Supplies Needed:
- Erlenmeyer Flasks
- Appropriate Media [LB Broth and Terrific Broth)
- Spectrophotometer
- sdH2O
- Falcon Tubes
- GLASS test tubes (large and small)
- GC Vials
- 5mL Pasteur Pipets and Bulbs
- His-tag protein purification column
- A chem stand with a clamp
- Large centrifuge tubes
- Nanodrop
Reagents Needed:
- Lysis Buffer
- Wash Buffer
- Elution Buffer
- 0.5M NaOH
- GPP (geranyl pyrophosphate)
- Enzyme Assay Buffer
- Pentane
- DTT (final conc of 5 mM)
- Protein Inhibitory Cocktail (PIC)
Procedures:
Part 1: Preparation for Extraction
- Make 50 mL overnight cultures of selected colony to be sampled (18-20 hours @ 37 degrees). The media used here must be LB broth with the selectable antibiotics.
- Transfer 1 mL of overnight culture (in LB broth) to 250 mL of Terrific broth with the selectable antibiotics in a 1 L or 2 L Erlenmeyer flask.
- Grow up the cultures for about 4-5 hours @ 37 degrees (until OD600 is 0.8).
- Induce cells with 250 μL of 1M IPTG. Incubate culture for 16-18 hours at 16 degrees, shaking at 205 rpm.
- Pour the culture into the centrifuge tubes.
- Spin cells at 3000 rpm at 4 degrees for 20 minutes.
- Transfer the cultures to Erlenmeyer flasks and grow up overnight (18-20 hours @ 30 degrees).
- Carefully pour out supernatent and keep the pellet
- Proceed to extraction or keep pellet at -80 degrees
Part 2: Extraction
- Set up stand and clamp with the his-tag purification column. (Note: His-tag Column must never run dry. Therefore, it is advantageous to keep the column wet with wash buffer)
- Add 1 tablet of protease inhibitor cocktail and DTT (final conc of 5 mM) to 50 mL of Lysis Buffer
- Weigh out 1-1.5 g of cell pellet into falcon tube
- Add 5 mL of Lysis Buffer (containing protease inhibitor and TPP) to the cell pellet. Pipet up and down until the pellet is dissolved and the cell lysate is homogeneous.
- Sonicate cells (ready when there's a change in color; usually a lighter colour than the cell pellet)
- Centrifuge sonicated cells at max speed for > 20 min (until all cells are pelleted)
- Collect supernatent (should be around 5 mL).
- Transfer supernatent into the his-tag column. Adjust flow such that the drop of supernatent passing the column is about 1-2 drops per second. Supernatent can be passed through column twice.
- Add 10 mL of wash buffer. Collect drops slightly after the start of wash buffer flow through the column. Nanodrop to find out the absorbance and concentration of proteins passing through the column. Once this 10 mL of wash buffer has passed through, add another 10 mL of wash buffer to wash the column again to collect any residue proteins not binding to the beads of the column. Take a nanodrop reading at the end of the washing steps (last few drops of the wash buffer). Nanodrop reading should read 0 mg/mL at the end of second wash. If proteins are still present, continue with another wash until no protein can be found in the wash buffer.
- Elute with 5mL of elution buffer and collect into a falcon tube.
Part 3: GPP assay
- Pipet in 1 mL of purified protein to 4mL of enzyme assay buffer in a test tube
- Add 7 μL of GPP
- Add 1-2 mL of pentane (less is better in terms of getting high concentration yield; but may need large volume of pentane to avoid emulsion formation)
- Incubate in water bath for 1 hour at 30 degrees celsius
- Place GC vial in a rack and label it.
- Pipet out solvent (the less dense pentane layer) and transfer to vials to 0.5 mL line.
- Prepare a control without GPP added
- Freeze both samples
- Send for GC-MS