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| ==Individual Lab Notebook Pages== | | ==Individual Lab Notebook Pages== |
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- | [[Team:University_of_Chicago/Notebook/Damonwang|Damon Wang's notebook]]<br> | + | * [[Team:University_of_Chicago/Notebook/Damonwang|Damon Wang's notebook]] |
- | [[Team:University_of_Chicago/Notebook/Parijata |Parijata "Jata" notebook ]]<br> | + | * [[Team:University_of_Chicago/Notebook/Parijata |Parijata "Jata" notebook ]] |
- | [[Team:University_of_Chicago/Notebook/Norayucel|Nora Yucel's notebook]]<br> | + | * [[Team:University_of_Chicago/Notebook/Norayucel|Nora Yucel's notebook]] |
- | [[Team:University_of_Chicago/Notebook/Lkstone|Laura Stone's notebook]]<br> | + | * [[Team:University_of_Chicago/Notebook/Lkstone|Laura Stone's notebook]] |
- | [[Team:University_of_Chicago/Notebook/Shorelandhall|Rob McConeghy's notebook]]<br> | + | * [[Team:University_of_Chicago/Notebook/Shorelandhall|Rob McConeghy's notebook]] |
- | [[Team:University_of_Chicago/Notebook/Dmchoi87|Daniel M. Choi's notebook]]<br><br> | + | * [[Team:University_of_Chicago/Notebook/Dmchoi87|Daniel M. Choi's notebook]] |
- | '''If you did it, record it'''<br><br> | + | |
| + | Remember: '''If you did it, record it'''<br> |
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| == Resources == | | == Resources == |
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| [http://www.freewebs.com/genehackers/ Team Website (External Link)] | | [http://www.freewebs.com/genehackers/ Team Website (External Link)] |
| | | |
- | == Recipes == | + | == Materials == |
- | === Media ===
| + | *[[Team:University_of_Chicago/Notebook/Media|Media]] |
- | ==== LB Broth (1 L) ====
| + | *[[Team:University_of_Chicago/Notebook/Buffers|Buffers]] |
- | * 1 L dH20 | + | *[[Team:University_of_Chicago/Notebook/Gels|Gels]] |
- | * 10 g Bacto tryptone
| + | *[[Team:University_of_Chicago/Notebook/Plasmids|Plasmids]] |
- | * 5 g Bacto yeast extract
| + | |
- | * 5 g NaCl
| + | |
- | * 1 mL 2N NaOH
| + | |
- | * 12 g agar (optional)
| + | |
- | ** 3 g agar + 250 mL broth per bottle
| + | |
- | * Autoclave
| + | |
- | Note: Add 3 mL 1 M CaCl2 before phage transductions
| + | |
- | | + | |
- | ==== PYE ====
| + | |
- | This is a '''general-purpose Caulobacter medium''' and is typically used for plates and starter cultures from the freezer and for colonies off plates. Plates are incubated at 30C. Caulobacter colonies typically take 2-3 days to appear.
| + | |
- | | + | |
- | Per liter,
| + | |
- | * 2g bacto-peptone
| + | |
- | * 1g yeast extract
| + | |
- | * 200mg magnesium sulfate heptahydrate
| + | |
- | * 100mg calcium chloride dihydrate
| + | |
- | | + | |
- | Use deionized or distilled water; occasionally problems arise with less pure sources.
| + | |
- | | + | |
- | ==== M13 Sweet ====
| + | |
- | This is our '''production medium'''.
| + | |
- | | + | |
- | After autoclaving a liter of de-ionized water in a flask, add
| + | |
- | * 40mL 25X M13 concentrate
| + | |
- | * 10mL Hutner's Mineral Base Concentrate
| + | |
- | | + | |
- | We sometimes add a little extra calcium chloride (100mM stock to a final concentration of 1mM) to the flasks to encourage aggregates.
| + | |
- | | + | |
- | When the 1X M13 Sweet medium is assembled as indicated above, the final concentrations are:
| + | |
- | * 0.5% glucose
| + | |
- | * 0.15% glutamate
| + | |
- | * 2mM phosphate
| + | |
- | * 5 mM imidazole
| + | |
- | * 0.04% ammonium chloride
| + | |
- | * 1% Hutner's Mineral Salts
| + | |
- | | + | |
- | ==== 25X M13 concentrate ====
| + | |
- | | + | |
- | Component stock solutions:
| + | |
- | * 125.0g glucose (or 137.5g glucose monohydrate) in a total volume of 600mL dH<sub>2</sub>O
| + | |
- | * 47.7g L-glutamic acid sodium salt (MW 187.13) in a total volume of 200mL dH<sub>2</sub>O
| + | |
- | * 8.5g imidazole in a total volume of 100mL dH<sub>2</sub>O | + | |
- | * 3.4g KH<sub>2</sub>PO<sub>4</sub> in a total volume of 50mL dH<sub>2</sub>O
| + | |
- | * 10g ammonium chloride in a total volume of 50mL dH<sub>2</sub>O
| + | |
- | | + | |
- | All component stocks should be made in separate bottles, autoclaved, and once they are cooled, combined into a single sterile bottle. If the components are mixed first and then autoclaved, the stock turns black. Store the stock at room temperature or at 4C. Don't worry if after a few weeks the 25X stock turns color from clear-yellow to yellow-brown.
| + | |
- | | + | |
- | ==== SOB Medium ====
| + | |
- | Used in growing bacteria for preparing chemically competent cells
| + | |
- | | + | |
- | Ingredients
| + | |
- | * 0.5% (w/v) yeast extract
| + | |
- | * 2% (w/v) tryptone
| + | |
- | * 10 mM NaCl
| + | |
- | * 2.5 mM KCl
| + | |
- | * 20 mM MgSO4
| + | |
- | | + | |
- | Per liter:
| + | |
- | * 5 g yeast extract
| + | |
- | * 20 g tryptone
| + | |
- | * 0.584 g NaCl
| + | |
- | * 0.186 g KCl
| + | |
- | * 2.4 g MgSO4
| + | |
- | | + | |
- | Note: Some formulations of SOB use 10 mM MgCl2 and 10 mM MgSO4 instead of 20 mM MgSO4.
| + | |
- | | + | |
- | * SOB medium is also available dry premixed from Difco, 0443-17.
| + | |
- | * Adjust to pH 7.5 prior to use. This requires approximately 25 ml of 1M NaOH per liter.
| + | |
- | | + | |
- | ==== SOC MediuProxy-Connection: keep-alive
| + | |
- | Cache-Control: max-age=0
| + | |
- | | + | |
- | (per 100 ml) ====
| + | |
- | Note This medium should be prepared immediately before use.
| + | |
- | * Add 2 ml of filter-sterilized 20% (w/v) glucose or 1 ml of filter-sterilized 2 M glucose to 100 ml sterile SOB
| + | |
- | | + | |
- | === Buffers ===
| + | |
- | ==== CCMB80 ====
| + | |
- | * 10 mM KOAc pH 7.0 (10 ml of a 1M stock/L) | + | |
- | * 80 mM CaCl2.2H2O (11.8 g/L)
| + | |
- | * 20 mM MnCl2.4H2O (4.0 g/L)
| + | |
- | * 10 mM MgCl2.6H2O (2.0 g/L)
| + | |
- | * 10% glycerol (100 ml/L)
| + | |
- | * adjust pH DOWN to 6.4 with 0.1N HCl if necessary
| + | |
- | ** adjusting pH up will precipitate manganese dioxide from Mn containing solutions.
| + | |
- | * sterile filter and store at 4°C
| + | |
- | * slight dark precipitate appears not to affect its function
| + | |
- | | + | |
- | *Note: Create 1M concentration stocks to make buffer prep easier in future.
| + | |
- | '''CCMB80: with aqueous stocks'''
| + | |
- | *10 mM KOAc pH 7.0: 10mL of 1M stock/L
| + | |
- | *80 mM CaCl2.2H2O: 80mL/L
| + | |
- | *20 mM MnCl2.4H2O: 20mL/L | + | |
- | *10 mM MgCl2.6H2O: 10mL/L
| + | |
- | *10% glycerol: 100 ml/L
| + | |
- | | + | |
- | ==== Hutner's Mineral Base Concentrate ====
| + | |
- | It is not difficult, but follow directions carefully.
| + | |
- | | + | |
- | * 20g nitrilotriacetic acid (NTA)
| + | |
- | * 54.5g magnesium sulfate heptahydrate
| + | |
- | * 6.67g calcium chloride dihydrate
| + | |
- | * 18.5mg ammonium molybdate tetrahydrate
| + | |
- | * 198mg iron sulfate monohydrate (or 323.7mg of the heptahydrate)
| + | |
- | * 100mL Metals-44
| + | |
- | | + | |
- | TO BE CONTINUED
| + | |
- | | + | |
- | ==== 5x Ligation Adjustment Buffer ====
| + | |
- | * Intended to be mixed with ligation reactions to adjust buffer composition to be near the CCMB80 buffer
| + | |
- | * KOAc 40 mM (40 ml/liter of 1 M KOAc solution, pH 7.0)
| + | |
- | * CaCl2 400 mM (200 ml/l of a 2 M solution)
| + | |
- | * MnCl2 100 mM (100 ml/l of a 1 M solution)
| + | |
- | * Glycerol 46.8% (468 ml/liter)
| + | |
- | * pH adjustment with 2.3% of a 10% acetic acid solution (12.8ml/liter)
| + | |
- | ** Previous protocol indicated amount of acetic acid added should be 23 ml/liter but that amount was found to be 2X too much per tests on 1.23.07 --Meaganl 15:50, 25 January 2007 (EST)
| + | |
- | * water to 1 liter
| + | |
- | * autoclave or sterile filter
| + | |
- | * Test pH adjustment by mixing 4 parts ligation buffer + 1 part 5x ligation adjustment buffer and checking pH to be 6.3 - 6.5
| + | |
- | * Reshma 10:49, 11 February 2008 (CST): Use of the ligation adjustment buffer is optional.
| + | |
- | | + | |
- | === DNA and protein gels ===
| + | |
- | ==== Agar ====
| + | |
- | ===== 0.8% =====
| + | |
- | # Weigh out .8g agarose
| + | |
- | # Put agarose in 500mL Erlenmeyer flask.
| + | |
- | # Add 100mL 1X TBE Buffer. Swirl.
| + | |
- | # Microwave at 100% power until the agarose starts to dissolve. Every 30-40 seconds, stop and swirl. Continue microwaving until solution boils and agarose is dissolved.
| + | |
- | # After agarose is dissolved, cover flask with foil or aran wrap and place in 55-60C waterbath until needed.
| + | |
- | # When Agarose has cooled to enough to touch comfortably, add 10microliters Syber Safe. Swirl.
| + | |
- | # Pour 30mL gels. Use 50Ml conical tube to measure 30mL.
| + | |
- | ===== 1.2% =====
| + | |
- | Same as above but use 1.2 g agarose instead of .8g
| + | |
| | | |
| == Protocols == | | == Protocols == |
- | === Growing Cells ===
| + | *[[Team:University_of_Chicago/Notebook/TOP10 competent cells|TOP10 competent cells]] |
- | ==== TOP10 Competent Cells ====
| + | *[[Team:University_of_Chicago/Notebook/DH5-alpha competent cells|DH5-alpha competent cells]] |
- | * Prechill plasticware and glassware | + | *[[Team:University_of_Chicago/Notebook/Transformations|Transformations]] |
- | | + | *[[Team:University_of_Chicago/Notebook/Glycerol stocks|Glycerol stocks]] |
- | ===== Preparing seed stocks =====
| + | *[[Team:University_of_Chicago/Notebook/DNA mini-prep|DNA mini-prep]] |
- | # Streak TOP10 cells on an SOB plate and grow for single colonies at 23°C
| + | *[http://www.jobinyvon.com/Raman/Tutorial-Intro Raman Spectroscopy Tutorial] |
- | #* room temperature works well
| + | *[http://www.afmuniversity.org/ AFM Tutorial] |
- | # Pick single colonies into 2 ml of SOB medium and shake overnight at 23°C
| + | *[[Team: University_of_Chicago/Notebook/SDS-PAGE|SDS-PAGE]] |
- | #* room temperature works well
| + | *[[Media:Tyrosinase Cat Oxidase Activity.pdf | Simple Tyrosinase spectroscopy activity.]] |
- | # Add glycerol to 15%
| + | |
- | # Aliquot 1 ml samples to Nunc cryotubes
| + | |
- | # Place tubes into a zip lock bag, immerse bag into a dry ice/ethanol bath for 5 minutes
| + | |
- | #* This step may not be necessary
| + | |
- | # Place in -80°C freezer indefinitely.
| + | |
- | | + | |
- | ===== Preparing competent cells =====
| + | |
- | # Inoculate 250 ml of SOB medium with 1 ml vial of seed stock and grow at 20°C to an OD600nm of 0.3
| + | |
- | #* This takes approximately 16 hours.
| + | |
- | #* Controlling the temperature makes this a more reproducible process, but is not essential.
| + | |
- | #* Room temperature will work. You can adjust this temperature somewhat to fit your schedule
| + | |
- | #* Aim for lower, not higher OD if you can't hit this mark
| + | |
- | # Centrifuge at 3000g at 4°C for 10 minutes in a flat bottom centrifuge bottle.
| + | |
- | #* Flat bottom centrifuge tubes make the fragile cells much easier to resuspend
| + | |
- | #* It is often easier to resuspend pellets by mixing before adding large amounts of buffer
| + | |
- | # Gently resuspend in 80 ml of ice cold CCMB80 buffer
| + | |
- | #* sometimes this is less than completely gentle. It still works.
| + | |
- | # Incubate on ice 20 minutes
| + | |
- | # Centrifuge again at 4°C and resuspend in 10 ml of ice cold CCMB80 buffer.
| + | |
- | # Test OD of a mixture of 200 _l SOC and 50 _l of the resuspended cells.
| + | |
- | # Add chilled CCMB80 to yield a final OD of 1.0-1.5 in this test.
| + | |
- | # Incubate on ice for 20 minutes
| + | |
- | # Aliquot to chilled screw top 2 ml vials or 50 _l into chilled microtiter plates
| + | |
- | # Store at -80°C indefinitely.
| + | |
- | #* Flash freezing does not appear to be necessary
| + | |
- | # Test competence (see below)
| + | |
- | # Thawing and refreezing partially used cell aliquots dramatically reduces transformation efficiency by about 3x the first time, and about 6x total after several freeze/thaw cycles.
| + | |
- | | + | |
- | ===== Measurement of competence =====
| + | |
- | # Transform 50 _l of cells with 1 _l of standard pUC19 plasmid (Invitrogen)
| + | |
- | #* This is at 10 pg/_l or 10-5 _g/_l
| + | |
- | #* This can be made by diluting 1 _l of NEB pUC19 plasmid (1 _g/_l, NEB part number N3401S) into 100 ml of TE
| + | |
- | # Hold on ice 0.5 hours
| + | |
- | # Heat shock 60 sec at 42C
| + | |
- | # Add 250 _l SOC
| + | |
- | # Incubate at 37 C for 1 hour in 2 ml centrifuge tubes rotated
| + | |
- | #* using 2ml centrifuge tubes for transformation and regrowth works well because the small volumes flow well when rotated, increasing aeration.
| + | |
- | #* For our plasmids (pSB1AC3, pSB1AT3) which are chloramphenicol and tetracycline resistant, we find growing for 2 hours yields many more colonies
| + | |
- | #* Ampicillin and kanamycin appear to do fine with 1 hour growth
| + | |
- | # Plate 20 _l on AMP plates using sterile 3.5 mm glass beads
| + | |
- | #* Good cells should yield around 100 - 400 colonies
| + | |
- | #* Transformation efficiency is (dilution factor=15) x colony count x 105/µgDNA
| + | |
- | #* We expect that the transformation efficiency should be between 5x108 and 5x109 cfu/µgDNA
| + | |
- | | + | |
- | ===== Glycerol Stocks =====
| + | |
- | | + | |
- | ====== Materials ======
| + | |
- | * 40% glycerol solution
| + | |
- | * Cryogenic vials
| + | |
- | | + | |
- | ====== Method ======
| + | |
- | # Add 1 ml of 40% glycerol in H2O to a cryogenic vial.
| + | |
- | # Add 1 ml sample from the culture of bacteria to be stored.
| + | |
- | # Gently vortex the cryogenic vial to ensure the culture and glycerol is well-mixed.
| + | |
- | #* Alternatively, pipet to mix.
| + | |
- | # Use a tough spot to put the name of the strain or some useful identifier on the top of the vial.
| + | |
- | # On the side of the vial list all relevant information - part, vector, strain, date, researcher, etc.
| + | |
- | # Store in a freezer box in a -80C freezer. Remember to record where the vial is stored for fast retrieval later.
| + | |
- | | + | |
- | ====== Notes ======
| + | |
- | While it is possible to make a long term stock from cells in stationary phase, ideally your culture should be in logarithmic growth phase.
| + | |
- | Prof. Schonbaum's version
| + | |
- | # Grow a 3 ml culture overnight
| + | |
- | # Add 200 µl 100% glycerol to 1 ml cells in a cryotube (final concentration should be 15-20% glycerol different concentrations from different protocols
| + | |
- | # Mix by vortexing and let sit for a little bit. Then put the tubes in the -80°C freezer.
| + | |