Team:StanfordBrownSpelman/Lab
From 2014.igem.org
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<h6><center><a href="#images" id="pics">General lab techniques</a> ● <a href="#results" id="data">Special Protocols</a> ● <a href="#references" id="links">References</a></h6> | <h6><center><a href="#images" id="pics">General lab techniques</a> ● <a href="#results" id="data">Special Protocols</a> ● <a href="#references" id="links">References</a></h6> | ||
<h6> | <h6> | ||
- | The | + | Adapted from <a href="https://static.igem.org/mediawiki/2013/5/5c/The_iGEMer%E2%80%99s_Guide_to_the_Galaxy_(Stanford-Brown).pdf">The iGEMer's Guide to the Galaxy</a> |
- | <br /><br /> | + | <br /><br /><br /><br /><b>Getting Started</b> |
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<br />Using the Autoclave | <br />Using the Autoclave | ||
<br />Interns can’t. Ask someone with a hard badge. Typical runs take about an hour, but could be two hours if the boiler isn’t warmed up. | <br />Interns can’t. Ask someone with a hard badge. Typical runs take about an hour, but could be two hours if the boiler isn’t warmed up. | ||
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<br /><br />Media | <br /><br />Media | ||
<br />Most of the time you'll autoclave the media after putting it together, although certain chemicals (vitamins, antibiotics) need to be added after to prevent degradation. | <br />Most of the time you'll autoclave the media after putting it together, although certain chemicals (vitamins, antibiotics) need to be added after to prevent degradation. | ||
- | LB | + | <br /><br />LB: Use for E. coli |
- | Use for E. coli | + | <br />For 500mL, add: |
- | + | <br />5g Tryptone (or Peptone) | |
- | + | <br />2.5g Yeast Extract | |
- | + | <br />5g NaCl | |
- | Use for | + | <br />7.5g Agar (if making plates) |
- | + | <br />Into 500ml of deionized water | |
- | + | <br /><br />AM (Acetobacter Media): Use for <i>G. hansenii</i> | |
- | + | <br />For 500mL, add: | |
- | Antibiotic Stocks | + | <br />10g Glucose |
- | We usually make our liquid stocks of antibiotics at 1000X, so that you add 1μl/mL to whatever media you are using. While the desired working concentration might change based on the plasmid, here are the stock concentrations we usually use for common antibiotics: | + | <br />2.5g Tryptone (or Peptone) |
- | Chloramphenicol: 34mg/mL (100% EtOH) | + | <br />2.5g Yeast Extract |
- | Ampicillin: 100mg/mL (50% EtOH) | + | <br />1.35g Na<sub>2</sub>HPO<sub>4</sub> |
- | Kanamycin: 20mg/mL (H20 only) | + | <br />0.75g Citric Acid |
- | Neomycin: 50mg/mL (H20 only) | + | <br />7.5g Agar (if making plates) |
- | Tetracycline: 15mg/mL (50% EtOH) | + | <br />Into 500ml deionized water |
- | You'll want to make these by filter sterilizing; you cannot autoclave antibiotics. We | + | <br /><br />Antibiotic Stocks |
- | typically store them in 1mL aliquots in a -20C or -30C freezer. Those stocks made with ethanol will not freeze. Those in water only will require thaw time | + | <br />We usually make our liquid stocks of antibiotics at 1000X, so that you add 1μl/mL to whatever media you are using. While the desired working concentration might change based on the plasmid, here are the stock concentrations we usually use for common antibiotics: |
+ | <br />Chloramphenicol: 34mg/mL (100% EtOH) | ||
+ | <br />Ampicillin: 100mg/mL (50% EtOH) | ||
+ | <br />Kanamycin: 20mg/mL (H20 only) | ||
+ | <br />Neomycin: 50mg/mL (H20 only) | ||
+ | <br />Tetracycline: 15mg/mL (50% EtOH) | ||
+ | <br />You'll want to make these by filter sterilizing; you cannot autoclave antibiotics. We typically store them in 1mL aliquots in a -20C or -30C freezer. Those stocks made with ethanol will not freeze. Those in water only will require thaw time. | ||
- | <br /><br />Plates | + | <br /><br /><b>Plates</b> |
- | Basics | + | <br />Basics |
- | Using any typical media recipe, add 1.5% agar (15g/L) to the mixture before autoclaving | + | <br />Using any typical media recipe, add 1.5% agar (15g/L) to the mixture before autoclaving |
- | After removing from autoclave, let cool until it is cool enough to hold for several seconds comfortably | + | <br />After removing from autoclave, let cool until it is cool enough to hold for several seconds comfortably (otherwise the media will be too hot and break down the antibiotic) |
- | + | <br />Add the appropriate amount of antibiotic | |
- | + | <br />Pour enough media into each petri dish to just cover the bottom | |
- | Add the appropriate amount of antibiotic | + | <br />E. coli grows on the surface, so the agar layer shouldn’t be thick |
- | Pour enough media into each petri dish to just cover the bottom | + | <br />Since the dishes come in sleeves of 25, it is usually good to make 500mL of the medium |
- | E. coli grows on the surface, so the agar layer shouldn’t be thick | + | <br /><br />Keeping Them Sterile |
- | Since the dishes come in sleeves of 25, it is usually good to make 500mL of the medium | + | <br />We have a UV hood that we usually make plates in |
- | Keeping Them Sterile | + | <br />Gather everything you'll need to make the plates (empty petri dishes, pipette, pipette tip, sharpie, etc) and wipe down with 70% ethanol before placing in the hood |
- | We have a UV hood that we usually make plates in | + | <br />Sterilize for ~5-10min by exposing to UV lamp |
- | Gather everything you'll need to make the plates (empty petri dishes, pipette, pipette tip, sharpie, etc) and wipe down with 70% ethanol before placing in the hood | + | <br /><br /><b>Standard Molecular Workflow</b> |
- | Sterilize for ~5-10min by exposing to UV lamp | + | <br />Note: PCR is its own huge beast, so it's been given its own section following this one |
- | Standard Molecular Workflow | + | |
- | Note: PCR is its own huge beast, so it's been given its own section following this one | + | |
<br /><br /> | <br /><br /> | ||
- | Liquid Culture | + | <b>Liquid Culture</b> |
<br />Inoculation: | <br />Inoculation: | ||
Pipette tips work great for swiping or stabbing a colony | Pipette tips work great for swiping or stabbing a colony | ||
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<br />Temperature: | <br />Temperature: | ||
37°C works fine for both E. coli and B. subtilis | 37°C works fine for both E. coli and B. subtilis | ||
- | <br />Shaker speed | + | <br />Shaker speed: |
250 RPM for optimal growth, 200 OK | 250 RPM for optimal growth, 200 OK | ||
<br />Antibiotics: | <br />Antibiotics: | ||
If it is appropriate to select for the strain using antibiotics, add 1μl per mL of 1000X stock solution | If it is appropriate to select for the strain using antibiotics, add 1μl per mL of 1000X stock solution | ||
- | For best results (but certainly not necessary): | + | <br />For best results (but certainly not necessary): |
Pre-culture for ~6hrs in 20-25% final culture volume | Pre-culture for ~6hrs in 20-25% final culture volume | ||
Incubate in container with capacity >200% culture volume, overnight | Incubate in container with capacity >200% culture volume, overnight | ||
- | <br /><br />Cryostocking | + | <br /><br /><b>Cryostocking</b> |
<br />Any time you generate a new strain (i.e. transform a new combination of DNA parts) you | <br />Any time you generate a new strain (i.e. transform a new combination of DNA parts) you | ||
should generate miniprep (for DNA) and a cryostock (for frozen cells). | should generate miniprep (for DNA) and a cryostock (for frozen cells). | ||
- | + | <br /><br />Procedure | |
- | + | <br />In a cryostock tube (1.8mL tube with screw top), mix a dense liquid culture of the strain with glycerol to the proper percentage (I think there's some flexibility but Jesse usually goes for 20% glycerol for both E. coli and B. subtilis) | |
- | In a cryostock tube (1.8mL tube with screw top), mix a dense liquid culture of the strain with glycerol to the proper percentage (I think there's some flexibility but Jesse usually goes for 20% glycerol for both E. coli and B. subtilis) | + | <br />(So this might look something like: 500μl liquid culture + 500μl 40% glycerol solution) |
- | So this might look something like: 500μl liquid culture + 500μl 40% glycerol solution | + | <br />Sterile technique is super important when making cryostocks! |
- | + | ||
- | + | ||
<br /><br /> | <br /><br /> | ||
- | Miniprep (Qiagen, modified slightly) | + | <b>Miniprep</b> (Qiagen, modified slightly) |
<br /> | <br /> | ||
Spin falcon tubes @7600rpm, @4C, for 5min to pellet | Spin falcon tubes @7600rpm, @4C, for 5min to pellet | ||
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<br /><br /> | <br /><br /> | ||
- | Nanodrop | + | <b>Nanodrop</b> |
+ | <br />Every time you finish a reaction (and cleanup) you should check to see how much DNA you actually have in your test tube before preceding to the next step. This ensures that reactions that require specific molar ratios (ligations) are run correctly . | ||
<br /><br /> | <br /><br /> | ||
- | + | Procedure | |
- | measure | + | <br />Make sure you have a pipette that can measure 1μL and an aliquot of your elution buffer |
- | + | ||
<br />Lift the arm on the nanodrop and load 1 μL of your water/elution buffer aliquot onto the small, silver well (pedestal). Gently close the arm, then reopen the arm and dab the blank liquid off the machine with a kimwipe. Make sure you wipe off the metal nubbin on the arm of the machine, too. Put the arm back down. All this ensures that the nanodrop reading area is clean to begin with | <br />Lift the arm on the nanodrop and load 1 μL of your water/elution buffer aliquot onto the small, silver well (pedestal). Gently close the arm, then reopen the arm and dab the blank liquid off the machine with a kimwipe. Make sure you wipe off the metal nubbin on the arm of the machine, too. Put the arm back down. All this ensures that the nanodrop reading area is clean to begin with | ||
- | + | <br />Turn on the computer and open “Nanodrop 2000” | |
- | Select “nucleic acid” from the opening menu | + | <br />Select “nucleic acid” from the opening menu |
- | A window will pop asking if you want to add this data to the previously saved file. Don’t unless you were the previous user. | + | <br />A window will pop asking if you want to add this data to the previously saved file. Don’t unless you were the previous user. |
- | <br /> | + | <br />The nanodrop will perform a self calibration test for a few seconds |
- | The nanodrop will perform a self calibration test for a few seconds | + | <br />Select the appropriate type of nucleic acid you have in your sample from the dropdown menu. Most likely this is DNA. |
- | <br /> | + | <br />Next you need to run a blank. Again load 1μL of your elution buffer onto the pedestal, but this time while the arm is down click the "blank" button on the screen. Wipe down the machine. |
- | Select the appropriate type of nucleic acid you have in your sample from the dropdown menu. Most likely this is DNA. | + | <br />Load 1 μL of your sample. Gently close the arm and click the “Read” button |
- | Next you need to run a blank. | + | <br />Let it read. If you clicked to create a new file in step 3a, then it will ask you for your filename info and stuff like that. Go through that. |
- | Load 1 μL of your sample. Gently close the arm and click the “Read” button | + | <br />Finally, the results should pop up on the graph and the table below it. Make sure the graph has a good 260/280 ratio (usually greater than 1.75). The graph should have a pronounced peak in the left-center of the plot, and should be pretty low on the right side. The curve of the graph should look relatively smooth. |
- | Let it read. If you clicked to create a new file in step 3a, then it will ask you for your filename info and stuff like that. Go through that. | + | <br />Generally, the quality of the read should be very high for something like a miniprep and will often be much lower when reading the product of a PCR or digest cleanup |
- | <br />Finally, the results should pop up on the graph and the table below it. Make sure the graph has a good 260/280 ratio (usually greater than 1.75). The graph should have a pronounced peak in the left-center of the plot, and should be pretty low on the right side | + | |
- | Generally, the quality of the read should be very high for something like a miniprep and will often be much lower when reading the product of a PCR or digest cleanup | + | |
<br />If the graph quality looks pretty good/normal, take note of the "ng/μl" value returned; this is the relevant information giving you the concentration of DNA in your sample | <br />If the graph quality looks pretty good/normal, take note of the "ng/μl" value returned; this is the relevant information giving you the concentration of DNA in your sample | ||
- | Repeat the scan (literally just click the "Read" button again) 2-3 more times to ensure that the read is consistent, and average the value | + | <br />Repeat the scan (literally just click the "Read" button again) 2-3 more times to ensure that the read is consistent, and average the value |
<br />Save your data somehow (I just write it down, but you can screen capture if you want) and make sure to write the value on the tube containing the sample, wipe down the nanodrop, gently lower the arm, quit the program, and shut the computer. School’s out, you’re done! | <br />Save your data somehow (I just write it down, but you can screen capture if you want) and make sure to write the value on the tube containing the sample, wipe down the nanodrop, gently lower the arm, quit the program, and shut the computer. School’s out, you’re done! | ||
- | <br /><br />Digestion | + | <br /><br /><b>Digestion</b> |
<br /> | <br /> | ||
- | 20 | + | 20 μL Recipe for any combination of the EcoRI, XbaI, SpeI, PstI: |
<br /> | <br /> | ||
500-1000 ng DNA (as close to 1 μg as possible) | 500-1000 ng DNA (as close to 1 μg as possible) | ||
<br /> | <br /> | ||
- | 0. | + | 0.5μL Enzyme 1 |
<br /> | <br /> | ||
- | 0. | + | 0.5μL Enzyme 2 |
<br /> | <br /> | ||
- | 2μl appropriate buffer (see NEB | + | 2μl appropriate buffer (see NEB doubledigest finder, but for most biobrick enzymes, CutSmart will work perfectly) |
- | + | ||
- | + | ||
<br />Top up with qH20 | <br />Top up with qH20 | ||
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<br />Incubate at 37°C for 1-2 hrs (<30 min for HF) | <br />Incubate at 37°C for 1-2 hrs (<30 min for HF) | ||
<br />Heat kill at 80°C for 20 minutes if proceeding to ligation | <br />Heat kill at 80°C for 20 minutes if proceeding to ligation | ||
+ | <br /><br /> | ||
+ | <br />Verification | ||
+ | <br />Gel Casting | ||
+ | <br />Gel Loading & Running | ||
+ | <br />Gel Imaging (using Typhoon scanner) | ||
+ | <br />Gel Extraction & Cleanup | ||
+ | <br />Ligation (adapted from openwetware ligation protocol): | ||
+ | <br />Chemically Competent Transformation (protocol from Kosuke) | ||
+ | <br />Electrocompetent Cells | ||
+ | <br />Preparing Electrocompetent Cells | ||
+ | <br />Transforming Electrocompetent Cells | ||
+ | <br />PAGE Gel Preparation, Running, and Scanning (proteins only) | ||
+ | <br />PCR (Polymerase Chain Reaction) | ||
+ | <br /><br />Templates | ||
+ | <br />1. Amplifying from a plasmid or isolated sample of DNA | ||
+ | <br />2. Colony PCR | ||
+ | <br />Polymerases and Master Mixes | ||
+ | <br />GoTaq Green | ||
+ | <br />Q5 Polymerase | ||
+ | <br />Thermocycler Conditions | ||
+ | <br />Taq polymerase (GoTaq Green) | ||
+ | <br />Q5 | ||
+ | <br />PCR Cleanup (using Wizard SV Gel and PCR Purification System) | ||
+ | <br />Sample Prep | ||
+ | <br />Binding of DNA | ||
+ | <br />Washing | ||
+ | <br />Elution | ||
+ | <br />ELIM Biopharm: Primers & Sequencing | ||
+ | <br />Primers | ||
+ | <br />Designing Primers | ||
+ | <br />Special BioBrick considerations | ||
+ | <br />Ordering Primers | ||
+ | <br />Primer Dilution (stock preparation) | ||
+ | <br />Sequencing | ||
+ | <br />Ordering Sequencing | ||
+ | <br />Premix Specifications (plasmid DNA) | ||
+ | <br />Checking the Data | ||
+ | <br />Gene Synthesis | ||
+ | <br />iGEM and the Registry of Standard Biological Parts | ||
+ | <br />Using iGEM Registry DNA | ||
+ | <br />Creating a Registry Page for a New Part | ||
+ | <br />Submitting Physical Parts to the Registry | ||
+ | <br />3A Assembly | ||
+ | <br />Cultures | ||
+ | <br />Bacillus subtilis | ||
+ | <br />Bacillus subtilis Transformation | ||
+ | <br />Escherichia coli (adapted from Dr. Shih’s protocol) | ||
+ | <br />Site Directed Mutagenesis | ||
+ | |||
+ | | ||
<br /><br />Verification | <br /><br />Verification | ||
<br />Gel Casting | <br />Gel Casting |
Revision as of 04:58, 15 October 2014