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<head> | <head> | ||
<title>Alverno iGEM 2016</title> | <title>Alverno iGEM 2016</title> | ||
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<br> | <br> | ||
<br> | <br> | ||
− | |||
<h2><center>Protocols</center></h2> | <h2><center>Protocols</center></h2> | ||
+ | <div class="demo" id="container"> | ||
+ | <center> | ||
+ | <ul> | ||
+ | <li style="list-style: none"><br> | ||
+ | <br> | ||
+ | </li> | ||
+ | |||
+ | |||
+ | <li><img src= | ||
+ | "https://static.igem.org/mediawiki/2016/d/d2/T--Alverno_CA--Autoclaving.jpg" | ||
+ | style="height:215px;width:215px;" title= | ||
+ | "Autoclaving"> | ||
+ | </li> | ||
+ | <li><img src= | ||
+ | "https://static.igem.org/mediawiki/2016/4/48/T--Alverno_CA--Runninggel.jpg" | ||
+ | style="height:215px;width:215px;" title= | ||
+ | "Running Gel"> | ||
+ | </li> | ||
+ | <li><img src= | ||
+ | "https://static.igem.org/mediawiki/2016/2/28/T--Alverno_CA--TBE.jpg" | ||
+ | style="height:215px;width:215px;" title= | ||
+ | "One of our team member is checking TBE 1x Buffer."> | ||
+ | </li> | ||
+ | |||
+ | </ul> | ||
+ | </center> | ||
+ | </div> | ||
+ | <br><br><br><br><br><br><br><br><br><br> | ||
+ | |||
+ | |||
+ | |||
<br> | <br> | ||
<h5>*Note: Pipettes are needed.</h5> | <h5>*Note: Pipettes are needed.</h5> | ||
− | < | + | <br> |
+ | <h3>Making the Agarose Gel</h3> | ||
<h4>Ingredients/Materials: *</h4> | <h4>Ingredients/Materials: *</h4> | ||
− | |||
<h5>• 0.6g agarose</h5> | <h5>• 0.6g agarose</h5> | ||
<h5>• 50mL TBE 1x</h5> | <h5>• 50mL TBE 1x</h5> | ||
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<h5>• Gel mold</h5> | <h5>• Gel mold</h5> | ||
− | < | + | <br> |
+ | <h4>Directions</h4> | ||
<h5>1. Weigh 0.6g of agarose into flask.</h5> | <h5>1. Weigh 0.6g of agarose into flask.</h5> | ||
<h5>2. Add 50mL of TBE 1x Buffer</h5> | <h5>2. Add 50mL of TBE 1x Buffer</h5> | ||
Line 37: | Line 98: | ||
<h5>7. Cool until solidified.</h5> | <h5>7. Cool until solidified.</h5> | ||
− | < | + | <br> |
+ | <h3>Gel Electrophoresis</h3> | ||
<h4>Ingredients/Materials: *</h4> | <h4>Ingredients/Materials: *</h4> | ||
<h5>• TBE 1x Buffer</h5> | <h5>• TBE 1x Buffer</h5> | ||
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<h5>• Purple loading dye</h5> | <h5>• Purple loading dye</h5> | ||
<h5>• Gel box</h5> | <h5>• Gel box</h5> | ||
+ | |||
+ | <br> | ||
<h4>Directions</h4> | <h4>Directions</h4> | ||
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<h5>7. After running place gel onto transilluminator (must be off) in the glove box. Place box over it with the hole and then place iPad above it and set to either video or time-lapse. Then turn on transilluminator within closed glove box while videotaping.</h5> | <h5>7. After running place gel onto transilluminator (must be off) in the glove box. Place box over it with the hole and then place iPad above it and set to either video or time-lapse. Then turn on transilluminator within closed glove box while videotaping.</h5> | ||
<h5>8. Results can now be analyzed.</h5> | <h5>8. Results can now be analyzed.</h5> | ||
+ | |||
+ | <br> | ||
+ | |||
<h3>PCR (Polymerase Chain Reaction) for Parts<h3> | <h3>PCR (Polymerase Chain Reaction) for Parts<h3> | ||
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<h5>• 2.5μL Part Forward Primer</h5> | <h5>• 2.5μL Part Forward Primer</h5> | ||
<h5>• 2.5μL Part Reverse Primer</h5> | <h5>• 2.5μL Part Reverse Primer</h5> | ||
− | <h5> | + | <h5>• 0.1μL G-block / DNA template</h5> |
<h5>• 25μL Q5 2x High-Fidelity MasterMix</h5> | <h5>• 25μL Q5 2x High-Fidelity MasterMix</h5> | ||
<h5>• 19.9μL NFW (nuclease free water)</h5> | <h5>• 19.9μL NFW (nuclease free water)</h5> | ||
+ | |||
+ | <br> | ||
<h4>Materials: *</h4> | <h4>Materials: *</h4> | ||
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<h5>• Thermocycler</h5> | <h5>• Thermocycler</h5> | ||
<h5>• Mini microfuge PCR tube(s)</h5> | <h5>• Mini microfuge PCR tube(s)</h5> | ||
+ | |||
+ | <br> | ||
<h4>Directions:</h4> | <h4>Directions:</h4> | ||
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<h5>2. Spin in the centrifuge.</h5> | <h5>2. Spin in the centrifuge.</h5> | ||
<h5>3. Put in the thermocycler. Process it in thermocycler as follows</h5> | <h5>3. Put in the thermocycler. Process it in thermocycler as follows</h5> | ||
− | <h5>Step 1: 98°C for 30 sec</h5> | + | <h5>-- Step 1: 98°C for 30 sec</h5> |
− | <h5>Step 2: 98°C for 10 sec</h5> | + | <h5>-- Step 2: 98°C for 10 sec</h5> |
− | <h5>Step 3: 70°C for 20 sec</h5> | + | <h5>-- Step 3: 70°C for 20 sec</h5> |
− | <h5>Step 4: 72°C for 20-30sec/kilobase (typically)</h5> | + | <h5>-- Step 4: 72°C for 20-30sec/kilobase (typically)</h5> |
− | <h5>Step 5: Enter “Go To” and then Step 2 and repeat for 25 cycles (or “times”)</h5> | + | <h5>-- Step 5: Enter “Go To” and then Step 2 and repeat for 25 cycles (or “times”)</h5> |
− | <h5>Step 6: 72°C for 2 min</h5> | + | <h5>-- Step 6: 72°C for 2 min</h5> |
− | <h5>Step 7: 4°C for ∞ (Set to 00:00:00)</h5> | + | <h5>-- Step 7: 4°C for ∞ (Set to 00:00:00)</h5> |
− | <h5>Step 8: End</h5> | + | <h5>-- Step 8: End</h5> |
+ | |||
+ | <br> | ||
<h3>PCR Purification of DNA</h3> | <h3>PCR Purification of DNA</h3> | ||
− | |||
<h4>Ingredients/Materials: *</h4> | <h4>Ingredients/Materials: *</h4> | ||
<h5>• PCR reaction(s) (DNA Part(s))</h5> | <h5>• PCR reaction(s) (DNA Part(s))</h5> | ||
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<h5>• EZ-10 column(s)</h5> | <h5>• EZ-10 column(s)</h5> | ||
<h5>• 1.5mL microfuge tube(s)</h5> | <h5>• 1.5mL microfuge tube(s)</h5> | ||
+ | |||
+ | <br> | ||
<h4>Directions: (for each PCR reaction)</h4> | <h4>Directions: (for each PCR reaction)</h4> | ||
− | |||
<h5>1. Transfer the PCR reaction mixture (usually 50ul, ranges from 35-50ul) to a 1.5mL microfuge tube and add 5 volumes (5 x amount of PCR reaction mixture) of Buffer B3 (with pre-added isopropyl alcohol).</h5> | <h5>1. Transfer the PCR reaction mixture (usually 50ul, ranges from 35-50ul) to a 1.5mL microfuge tube and add 5 volumes (5 x amount of PCR reaction mixture) of Buffer B3 (with pre-added isopropyl alcohol).</h5> | ||
<h5>2. Transfer above mixture to EZ-10 column and leave at room temperature for 2 minutes. Centrifuge at 10,000rpm for 2 minutes.</h5> | <h5>2. Transfer above mixture to EZ-10 column and leave at room temperature for 2 minutes. Centrifuge at 10,000rpm for 2 minutes.</h5> | ||
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<h5>4. Repeat washing procedure (from Step 3, “Add 750ul of…”). Remove/empty flow-through again. Spin at 10,000rpm for an additional minute. Throw away bottom clear tube with any remaining liquid.</h5> | <h5>4. Repeat washing procedure (from Step 3, “Add 750ul of…”). Remove/empty flow-through again. Spin at 10,000rpm for an additional minute. Throw away bottom clear tube with any remaining liquid.</h5> | ||
<h5>5. Place top tube with white filter into clean 1.5mL microfuge tube. Check for ethanol using pipette tip.</h5> | <h5>5. Place top tube with white filter into clean 1.5mL microfuge tube. Check for ethanol using pipette tip.</h5> | ||
− | <h5>6. Add 30-50uL (usually 40uL) of Elution Buffer to the center of the tube. Incubate at room temperature for 2 minutes.</ | + | <h5>6. Add 30-50uL (usually 40uL) of Elution Buffer to the center of the tube. Incubate at room temperature for 2 minutes.</h5> <h5>7. Centrifuge at 10,000rpm for 2 minutes to elute DNA.</h5> |
<h5>8. Store at -20 degrees Celsius, or nanodrop for concentration and for dilutions (see Parts Dilutions Protocol).</h5> | <h5>8. Store at -20 degrees Celsius, or nanodrop for concentration and for dilutions (see Parts Dilutions Protocol).</h5> | ||
+ | |||
+ | <br> | ||
<h3>Parts Dilutions</h3> | <h3>Parts Dilutions</h3> | ||
− | |||
<h4>Ingredients/Materials: *</h4> | <h4>Ingredients/Materials: *</h4> | ||
− | <h5>• NFW</ | + | <h5>• NFW</h5> |
− | <h5>• PCR Purified DNA Part Reaction (nanodropped with concentration)</ | + | <h5>• PCR Purified DNA Part Reaction (nanodropped with concentration)</h5> |
− | <h5>• 1.5 mL microfuge tube</ | + | <h5>• 1.5 mL microfuge tube</h5> |
+ | <br> | ||
<h4>Directions</h4> | <h4>Directions</h4> | ||
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<h5>2. Plug in numbers (bases and concentration) into Promega Biomath Calculator to convert from ug/mL (or ng/uL) to pmol/uL (http://www.promega.com/a/apps/biomath/index.html?calc=ugmlpmolul).</h5> | <h5>2. Plug in numbers (bases and concentration) into Promega Biomath Calculator to convert from ug/mL (or ng/uL) to pmol/uL (http://www.promega.com/a/apps/biomath/index.html?calc=ugmlpmolul).</h5> | ||
<h5>3. Multiply resulting number by 1000 and that is the concentration in nM.</h5> | <h5>3. Multiply resulting number by 1000 and that is the concentration in nM.</h5> | ||
− | <h5>4. Plug into dilution equation: C1*V1=(30nM)(V2), where C1 is the concentration in nM, and V2 is equal to the amount wanted (typically 10uL-20uL). Then solve for V1.</ | + | <h5>4. Plug into dilution equation: C1*V1=(30nM)(V2), where C1 is the concentration in nM, and V2 is equal to the amount wanted (typically 10uL-20uL). Then solve for V1.</h5> |
<h5>5. Put in the amount of V1 of selected Part in 1.5mL microfuge tube.</h5> | <h5>5. Put in the amount of V1 of selected Part in 1.5mL microfuge tube.</h5> | ||
<h5>6. Subtract V1 from V2. Put this amount of NFW into the tube.</h5> | <h5>6. Subtract V1 from V2. Put this amount of NFW into the tube.</h5> | ||
<h5>7. Centrifuge.</h5> | <h5>7. Centrifuge.</h5> | ||
<h5>8. Store at -20 degrees Celsius.</h5> | <h5>8. Store at -20 degrees Celsius.</h5> | ||
+ | |||
+ | <br> | ||
<h3>Golden Gate Assembly Assembly Protocol</h3> | <h3>Golden Gate Assembly Assembly Protocol</h3> | ||
<h5>(Example with Golden Gate Assembly Protocol for GG37-52; multiple GG Assembly for Plasmids can be done at a time in different tubes as seen in example)</h5> | <h5>(Example with Golden Gate Assembly Protocol for GG37-52; multiple GG Assembly for Plasmids can be done at a time in different tubes as seen in example)</h5> | ||
− | |||
<h4>Ingredients (per Golden Gate Assembly)</h4> | <h4>Ingredients (per Golden Gate Assembly)</h4> | ||
<h5>• 1μL: P part (i.e. P1a, P2a, P3a, P4a)</h5> | <h5>• 1μL: P part (i.e. P1a, P2a, P3a, P4a)</h5> | ||
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<h5>• 2μL: T4 Ligase (2M cohesive units)</h5> | <h5>• 2μL: T4 Ligase (2M cohesive units)</h5> | ||
<h5>• 5.35μL NFW</h5> | <h5>• 5.35μL NFW</h5> | ||
+ | |||
+ | <br> | ||
<h4>Materials: *</h4> | <h4>Materials: *</h4> | ||
<h5>• Centrifuge</h5> | <h5>• Centrifuge</h5> | ||
<h5>• Thermocycler</h5> | <h5>• Thermocycler</h5> | ||
− | <h5> | + | <h5>• Mini microfuge tube(s)</h5> |
+ | |||
+ | <br> | ||
<h4>Directions</h4> | <h4>Directions</h4> | ||
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<h5>3. Spin down in the centrifuge.</h5> | <h5>3. Spin down in the centrifuge.</h5> | ||
<h5>4. Put in thermocycler, process it in thermocycler as follows:</h5> | <h5>4. Put in thermocycler, process it in thermocycler as follows:</h5> | ||
− | <h5>Step 1: 37°C for 3 min</h5> | + | <h5>-- Step 1: 37°C for 3 min</h5> |
− | <h5>Step 2: 16°C for 4 min</h5> | + | <h5>-- Step 2: 16°C for 4 min</h5> |
− | <h5>Step 3: Go to Step 1 and repeat for 25 cycles</h5> | + | <h5>-- Step 3: Go to Step 1 and repeat for 25 cycles</h5> |
− | <h5>Step 4: 50°C for 5 min</h5> | + | <h5>-- Step 4: 50°C for 5 min</h5> |
− | <h5>Step 5: 80°C for 5 min</h5> | + | <h5>-- Step 5: 80°C for 5 min</h5> |
− | <h5>Step 6: 4°C for ∞ (Set to 00:00:00)</h5> | + | <h5>-- Step 6: 4°C for ∞ (Set to 00:00:00)</h5> |
− | <h5>Step 7: End</h5> | + | <h5>-- Step 7: End</h5> |
+ | |||
+ | <br> | ||
<h3>PCR Check for Golden Gate Plasmids</h3> | <h3>PCR Check for Golden Gate Plasmids</h3> | ||
<h5>(multiple can be done at a time in different tubes)</h5> | <h5>(multiple can be done at a time in different tubes)</h5> | ||
− | |||
<h4>Ingredients</h4> | <h4>Ingredients</h4> | ||
<h5>• 0.5μL V part forward sequencing primer</h5> | <h5>• 0.5μL V part forward sequencing primer</h5> | ||
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<h5>• 5μL 2x MasterMix</h5> | <h5>• 5μL 2x MasterMix</h5> | ||
<h5>• 3.9μL NFW</h5> | <h5>• 3.9μL NFW</h5> | ||
+ | |||
+ | <br> | ||
<h4>Materials *</h4> | <h4>Materials *</h4> | ||
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<h5>• Thermocycler</h5> | <h5>• Thermocycler</h5> | ||
<h5>• Mini microfuge tube(s)</h5> | <h5>• Mini microfuge tube(s)</h5> | ||
+ | |||
+ | <br> | ||
<h4>Directions</h4> | <h4>Directions</h4> | ||
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<h5>Step 8: End</h5> | <h5>Step 8: End</h5> | ||
− | < | + | <br> |
+ | <h3>Making LB Media (& Autoclaving)</h3> | ||
<h4>Ingredients</h4> | <h4>Ingredients</h4> | ||
<h5>• LB powder</h5> | <h5>• LB powder</h5> | ||
<h5>• Distilled water</h5> | <h5>• Distilled water</h5> | ||
+ | |||
+ | <br> | ||
<h4>Materials</h4> | <h4>Materials</h4> | ||
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<h5>• Glass bottle</h5> | <h5>• Glass bottle</h5> | ||
<h5>• Autoclave</h5> | <h5>• Autoclave</h5> | ||
+ | |||
+ | <br> | ||
<h4>Directions</h4> | <h4>Directions</h4> | ||
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<h5>3. Add 250mL distilled water to bottle.</h5> | <h5>3. Add 250mL distilled water to bottle.</h5> | ||
<h5>4. Autoclave for ~30 min.</h5> | <h5>4. Autoclave for ~30 min.</h5> | ||
+ | |||
+ | <br> | ||
<h4>To Autoclave</h4> | <h4>To Autoclave</h4> | ||
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<h5>12. Open manual valves and release steam.</h5> | <h5>12. Open manual valves and release steam.</h5> | ||
− | < | + | <br> |
+ | <h3>Making LB Media w/ Antibiotic Resistance for Plates</h3> | ||
<h4>Ingredients</h4> | <h4>Ingredients</h4> | ||
<h5>• 300ml H2O</h5> | <h5>• 300ml H2O</h5> | ||
Line 220: | Line 313: | ||
<h5>• 4.5g Agar Powder</h5> | <h5>• 4.5g Agar Powder</h5> | ||
<h5>• Antibiotic (usually use Kanamycin - 1μL per 1mL H2O)</h5> | <h5>• Antibiotic (usually use Kanamycin - 1μL per 1mL H2O)</h5> | ||
+ | |||
+ | <br> | ||
<h4>Materials: *</h4> | <h4>Materials: *</h4> | ||
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<h5>• Scale</h5> | <h5>• Scale</h5> | ||
<h5>• Glass bottle</h5> | <h5>• Glass bottle</h5> | ||
+ | |||
+ | <br> | ||
<h4>Directions</h4> | <h4>Directions</h4> | ||
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<h5>6. Open the lid to each plate carefully and pour plate near the flame.</h5> | <h5>6. Open the lid to each plate carefully and pour plate near the flame.</h5> | ||
− | < | + | <br> |
+ | <h3>Bacterial Transformation of Plasmids (& Growing Liquid Cultures)</h3> | ||
<h4>Ingredients/Materials: *</h4> | <h4>Ingredients/Materials: *</h4> | ||
<h5>• DNA GG Plasmid Mixture</h5> | <h5>• DNA GG Plasmid Mixture</h5> | ||
Line 248: | Line 346: | ||
<h5>• Petri Plates with LB agar and antibiotic</h5> | <h5>• Petri Plates with LB agar and antibiotic</h5> | ||
<h5>• Sterile Spreader or sterile glass beads</h5> | <h5>• Sterile Spreader or sterile glass beads</h5> | ||
+ | |||
+ | <br> | ||
<h4>Directions</h4> | <h4>Directions</h4> | ||
Line 261: | Line 361: | ||
<h5>10. Pipette each transformation on petri plates (labelled!).</h5> | <h5>10. Pipette each transformation on petri plates (labelled!).</h5> | ||
<h5>11. Incubate transformations overnight (14-18 hours) at 37°C.</h5> | <h5>11. Incubate transformations overnight (14-18 hours) at 37°C.</h5> | ||
+ | |||
+ | <br> | ||
<h4>The Next Day</h4> | <h4>The Next Day</h4> | ||
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<h5>5. Incubate gridded plate and the liquid cultures at 37°C overnight. Take out the next morning and store in the refrigerator (4°C).</h5> | <h5>5. Incubate gridded plate and the liquid cultures at 37°C overnight. Take out the next morning and store in the refrigerator (4°C).</h5> | ||
− | < | + | <br> |
+ | <h3>Plate Reading (for Fluorescence, Absorbance, Induction, etc.)</h3> | ||
<h4>Ingredients/Materials *</h4> | <h4>Ingredients/Materials *</h4> | ||
− | <h5> | + | <h5>• Liquid cultures</h5> |
− | <h5> | + | <h5>• 96 well plate (A-H by 1-12)</h5> |
− | <h5> | + | <h5>• Plate Reader (we use VICTOR X3)</h5> |
− | <h5> | + | <h5>• LB Media</h5> |
+ | |||
+ | <br> | ||
<h4>Directions</h4> | <h4>Directions</h4> | ||
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<h5>8. Record the data, specifically volume of preloading culture and preloading media from the table in the notebook.</h5> | <h5>8. Record the data, specifically volume of preloading culture and preloading media from the table in the notebook.</h5> | ||
<h5>9. Dilute accordingly (media is LB media with antibiotic) in a new 96 well plate (if needed). Usually about 500uL per well.</h5> | <h5>9. Dilute accordingly (media is LB media with antibiotic) in a new 96 well plate (if needed). Usually about 500uL per well.</h5> | ||
− | <h5>10. Place plate back into | + | <h5>10. Place plate back into reader and set to OD-RFP-GFP protocol (made in plate reader) and start run.</h5> |
− | <h5>11. Let it run overnight (120 runs total with about | + | <h5>11. Let it run overnight (120 runs total with about 3 minute intervals) and check in the morning. </h5> |
<h5>12. Import data results into Excel spreadsheet.</h5> | <h5>12. Import data results into Excel spreadsheet.</h5> | ||
− | <h5>13. Upload to Google drive.</h5> | + | <h5>13. Optional: Upload to Google drive. </h5> |
<h5>14. To analyze data using Python program—file must be in a csv format. (If you would like the code for analyzing this type of data, please contact us!)</h5> | <h5>14. To analyze data using Python program—file must be in a csv format. (If you would like the code for analyzing this type of data, please contact us!)</h5> | ||
+ | <br> | ||
<h3>Purification of Plasmid DNA</h3> | <h3>Purification of Plasmid DNA</h3> | ||
+ | <h4>Ingredients/Materials *</h4> | ||
+ | <h5>• Liquid cultures</h5> | ||
+ | <h5>• Miniprep DNA kit (we used BioBasic kit)</h5> | ||
+ | |||
+ | <br> | ||
+ | |||
<h4>Directions</h4> | <h4>Directions</h4> | ||
<h5>1. Add 1.5 mL-5mL overnight culture in the tube and centrifuge at 12,000 rpm for 2 mins. Drain liquid completely. </h5> | <h5>1. Add 1.5 mL-5mL overnight culture in the tube and centrifuge at 12,000 rpm for 2 mins. Drain liquid completely. </h5> | ||
Line 310: | Line 422: | ||
<h5>12. Store purified DNA at -20°C.</h5> | <h5>12. Store purified DNA at -20°C.</h5> | ||
− | < | + | <br> |
− | <h4> | + | |
+ | <h4>For centrifuging culture to pellets:</h4> | ||
<h5>1. In a 1.5mL tube pipette 1000μL liquid culture. </h5> | <h5>1. In a 1.5mL tube pipette 1000μL liquid culture. </h5> | ||
<h5>2. Spin at max speed for 30 sec.</h5> | <h5>2. Spin at max speed for 30 sec.</h5> | ||
Line 319: | Line 432: | ||
<h5>6. Freeze.</h5> | <h5>6. Freeze.</h5> | ||
+ | <br> | ||
+ | |||
+ | <h3>Plate Reading (for Fluorescence using TX-TL for GG105-108 w/ dcas9 expression plasmids)</h3 | ||
+ | <h4>Ingredients/Materials: *</h4> | ||
+ | <h5>• TX-TL Buffer</h5> | ||
+ | <h5>• TX-TL Extract</h5> | ||
+ | <h5>• Setup Spreadsheet w/ entered values (for clean spreadsheet: http://www.jove.com/files/ftp_upload/50762/TXTL_JoVE.xlsx)</h5> | ||
+ | <h5>• NFW</h5> | ||
+ | <h5>• dcas9 expression plasmids</h5> | ||
+ | <h5>• gRNA plasmids</h5> | ||
+ | <h5>• GG reaction plasmids w/ clamp binding sites (in our case, GG105-108)</h5> | ||
+ | <h5>• 384-well plate</h5> | ||
+ | |||
+ | <br> | ||
+ | |||
+ | <h4>Directions: </h4> | ||
+ | <h5>1. Dilute gRNA plasmids accordingly by concentration to setup values in spreadsheet in PCR tube strip. </h5> | ||
+ | <h5>2. Dilute GG105-108 plasmids accordingly by concentration to setup values in spreadsheet in PCR tube strip. </h5> | ||
+ | <h5>3. Pipette diluted DNA amount (uL) and water (uL) accordingly in second strip. </h5> | ||
+ | <h5>4. Make Master Mix (MM): </h5> | ||
+ | <h5>-- a) amount of TX-TL Buffer (uL) </h5> | ||
+ | <h5>-- b) amount of TX-TL Extract (uL) </h5> | ||
+ | <h5>-- c) amount of dcas9 expression plasmid (uL) —place values in blue grid section in top left corner for calculations </h5> | ||
+ | <h5>5. Add amount given of MM (uL) to each tube with a GG plasmid and a gRNA plasmid. </h5> | ||
+ | <h5>6. Pipette 10uL of each reaction from tube to each well in the plate. </h5> | ||
+ | <h5>7. Place plate in plate reader and set to correct protocol (created protocol for us: iGEM_TX-TL_GFP_RFP) to measure 384-well plate and run plate reader. </h5> | ||
+ | <h5>8. Let it run overnight (120 runs total with about 3 minute intervals) and check in the morning. </h5> | ||
+ | <h5>9. Import data results into Excel spreadsheet. Optional: Upload to Google Drive. </h5> | ||
+ | <h5>10. To analyze data using Python program—file must be in csv format. (If you would like the code for analyzing this type of data, please contact us!) </h5> | ||
+ | <h5> For more information on TX-TL, see: http://www.jove.com/video/50762/protocols-for-implementing-an-escherichia-coli-based-tx-tl-cell-free</h5> | ||
+ | |||
+ | <br> | ||
<h3>For any questions about Protocols, email: alverno.igem@gmail.com</h3> | <h3>For any questions about Protocols, email: alverno.igem@gmail.com</h3> | ||
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Latest revision as of 03:38, 20 October 2016