"
Team:Minnesota/Protocols
From 2011.igem.org
(Difference between revisions)
NathanDavis (Talk | contribs) (Created page with "frame {| style="color:gold;background-color:#800000;" cellpadding="3" cellspacing="1" border="1" bordercolor="#fff" width="90%" align="center" ...") |
|||
| Line 1: | Line 1: | ||
| - | [[Image:mnlogo.jpg|300px|center|frame]] | + | <nowiki>Insert non-formatted text here</nowiki><nowiki>Insert non-formatted text here</nowiki>[[Image:mnlogo.jpg|300px|center|frame]] |
{| style="color:gold;background-color:#800000;" cellpadding="3" cellspacing="1" border="1" bordercolor="#fff" width="90%" align="center" | {| style="color:gold;background-color:#800000;" cellpadding="3" cellspacing="1" border="1" bordercolor="#fff" width="90%" align="center" | ||
| Line 12: | Line 12: | ||
|} | |} | ||
{|align="justify" | {|align="justify" | ||
| + | |||
| + | =='''iGEM 2011 Standard Operating Procedures'''== | ||
| + | |||
| + | |||
| + | '''Antibiotics''' | ||
| + | |||
| + | Prepare stock solutions of antibiotics for adding to media (1 µL per 1 mL) | ||
| + | *Ampicillin 100 mg/mL in water | ||
| + | *Chloramphenicol 50 mg/mL in ethanol | ||
| + | *Kanamycin 30 mg/mL in water | ||
| + | |||
| + | |||
| + | '''Media Preparation''' | ||
| + | |||
| + | LB media | ||
| + | **10 g/L Tryptone | ||
| + | **5 g/L NaCl | ||
| + | **5 g/L Yeast Extract | ||
| + | **15 g/L Agar (solid media only) | ||
| + | |||
| + | *One sleeve (20 plates) can be made with 600 mL of solid media (autoclave, cool, and add antibiotics before pouring) | ||
| + | *One rack (72 16x100 mm tubes with 4 mL) can be made with 300 mL of liquid media (autoclave after pouring) | ||
| + | |||
| + | |||
| + | '''SOC media''' | ||
| + | **20 g/L Tryptone | ||
| + | **5 g/L Yeast Extract | ||
| + | **0.5 g/L NaCl | ||
| + | **950 mL/L ddH2O | ||
| + | *pH to 7.0, autoclave, cool, and add the following | ||
| + | **5 mL/L 2M MgCl2 (filter sterilize) | ||
| + | **20 ml/L 20 mM Glucose Final Concentration* (Add 0.018 g/mL and filter sterilize) | ||
| + | |||
| + | |||
| + | '''TSS Method for Competent Cell Preparation''' | ||
| + | |||
| + | TSS Solution | ||
| + | *Use the following recipe to make 100 mL: | ||
| + | **PEG 4000 15 g | ||
| + | **1 M MgCl2-solution 5 mL | ||
| + | **LB liquid media add to 95 mL | ||
| + | **DMSO 5 mL (add after autoclaving) | ||
| + | *Adjust pH to 6.5 prior to autoclaving. | ||
| + | *After addition of DMSO aliquot TSS solution in 10 – 15 mL portions and store at –20 0C (TSS can get contaminated very quickly). | ||
| + | |||
| + | |||
| + | Competent Cell Preparation | ||
| + | *Cultivate overnight E. coli culture* (*LB, add appropriate antibiotics if competent cells containing a plasmid for co-transformation are required) to inoculate main culture* 1:100 with overnight culture. | ||
| + | **Note: 50 mL culture will give 10 aliquots of competent cells, Use larger culture volumes (e.g. 100 mL) to prepare more aliquots. | ||
| + | *Grow main culture at 37 0C and 260 rpm to ensure rapid growth to OD 0.4 – 0.6 (typically 2 – 3 hours, fast growing cells to OD 0.4 reach highest transformation efficiencies) | ||
| + | *Centrifuge cells for 10 min at 4000 rpm (4 0C) | ||
| + | *Carefully resuspend cell pellet in cold (4 0C) TSS solution (2 mL TSS for each 50 mL culture volume). | ||
| + | *Incubate resuspended cells for 5 min on ice and aliquot 200 µL competent cells in 15 mL sterile tubes. | ||
| + | **Note: Handle cells carefully and keep them always on ice as they get very fragile during the TSS treatment. | ||
| + | *Shock-freeze aliquoted cells in liquid nitrogen and store cells at –80 0C. | ||
| + | |||
| + | |||
| + | '''Restriction Digest''' | ||
| + | *Prepare the following reaction mixture for a double digest: | ||
| + | **3 µL Appropriate 10X Buffer (choose to maximize activity efficiencies) | ||
| + | **1 µL Restriction Enzymes (two, 1 µL each) | ||
| + | **10 µL Template DNA with compatible restriction sites | ||
| + | **16 µL ddH2O | ||
| + | |||
| + | *Allow reaction to incubate for >2 hours or overnight at 37 0C | ||
| + | *Inactive restriction endonucleases by heating at 65 0C for 10 min | ||
| + | *Check results on agarose gel | ||
| + | *Isolate DNA from appropriate sized band with gel purification kit (Invitrogen or GE) | ||
| + | |||
| + | |||
| + | '''Ligation''' | ||
| + | *Prepare the following reaction mixture: | ||
| + | **2 µL Ligase Buffer | ||
| + | **1 µL T4 Ligase | ||
| + | **5 µL Plasmid (Cut with restriction enzymes) | ||
| + | **12 µL Insert (Flanked with restriction sits compatible with plasmid and cut with them) | ||
| + | *Allow reaction to incubate overnight at room temperature | ||
| + | *Transform reaction mixture | ||
| + | |||
| + | |||
| + | '''Primer Design''' | ||
| + | *Primers are the 5’ ends of the sequence to be amplified by PCR | ||
| + | *Choose primers that have similar melting temperatures (Tm) that are between 50 0C and 65 0C | ||
| + | *Choose primers that have low complementation with sequence of interest | ||
| + | *Restriction sites are normally introduced to the 5’ end of primers to aid assembly into vectors (BglII and NotI for BioBrick vectors) | ||
| + | *Include a G or C nucleotide at the 3’ end | ||
| + | *Primer sequences are reported and ordered in 5’ to 3’ direction | ||
| + | *Reconstitute primer in 10 µL for every nmol reported on tube (100 pmol/µL final concentration) | ||
| + | |||
| + | |||
| + | '''Polymerase Chain Reaction''' | ||
| + | *Prepare reaction mixture in 200 µL PCR Tubes with following recipe: | ||
| + | **1 µL Template DNA | ||
| + | **1 µL Each primer (Forward and Reverse) | ||
| + | **5 µL 10X Thermopol Buffer | ||
| + | **1 µL 10 mM dNTPs | ||
| + | **2.5 µL 10 mM MgSO4 | ||
| + | **0.5 µL DNA Polymerase (Taq or Vent) | ||
| + | **38 µL of Water to bring final volume to 50 µL | ||
| + | |||
| + | *Program themocycler with the following: | ||
| + | *Initial Denaturation 5 min 95 0C | ||
| + | *Repeat 25 times | ||
| + | **Denaturation 30 sec 95 0C | ||
| + | **Annealing 30 sec >3 0C below lowest primer Tm | ||
| + | **Extention 1 min per 1 Kb 72 0C | ||
| + | **Final Extention 5 min 72 0C | ||
| + | **Storage ∞ 4 0C | ||
| + | *Check reaction with 1% agarose gel (0.01 g/mL) in TAE buffer | ||
| + | *Use 2% agarose gel when checking fragments <500 bp | ||
| + | *If necessary, purify DNA using agarose gel purification kit | ||
| + | |||
| + | |||
| + | '''Transformation''' | ||
| + | *Thaw competent cells at room temperature on ice | ||
| + | *Add 1 µL of plasmid DNA or ligation reaction mixture to cells | ||
| + | *Incubate on ice for 20 min | ||
| + | *Heat shock at 43 0C for 40 sec | ||
| + | *Add 800 µL of SOC to cells | ||
| + | *Incubate at 37 0C for 1 hour | ||
| + | *Plate 50 µL of culture or for ligations, spin down, remove 900 µL media, resuspend cells, and plate on solid media with appropriate antibiotic | ||
| + | *Incubate at 37 0C for >18 hours | ||
| + | *Pick colonies and transfer to 4 mL cultures with appropriate antibiotic (add antibiotic to liquid LB before cells) | ||
| + | *Incubate at 37 0C for >18 hours | ||
| + | *Use Miniprep kit (made by Promega) to purify plasmid DNA from overnight culture | ||
| + | |||
| + | |||
| + | '''Sequencing''' | ||
| + | *Sequencing is conducted by the University of Minnesota Biomedical Genomic Center | ||
| + | *Make 1:100 dilution (1 pmol/µL) of stock primers for sequencing purposes | ||
| + | *Prepare the following mixture in 0.5 mL microcentrifuge tube: | ||
| + | **4 µL diluted primer | ||
| + | **X µL Template DNA in vector (100 ng per Kb template, X = 100 x n Kb/DNA concentration (ng/µL)) | ||
| + | **Y µL Sterile water to reach final volume of 13 µL | ||
| + | *Name sequencing reaction with 3 letter prefix plus next highest unused number (ex. GEM01) | ||
Revision as of 17:37, 17 September 2011
Insert non-formatted text hereInsert non-formatted text here
| Home | Team | Project | Protocols | Notebook | Judging Criteria | Attributions | Safety |
|---|
