Team:Duke/Notebook/Protocols

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Chemically Competent Cells	Ligations	Protocol 3	Protocol 4	Protocol 5
Protocol 6	Protocol 7	Protocol 8	Protocol 9	Protocol 10
Protocol 11	Protocol 12	Protocol 13	Protocol 14	Protocol 15
Protocol 16	Protocol 17	Protocol 18	Protocol 19	Protocol 20
Protocol 21	Protocol 22	Protocol 23	Protocol 24	Protocol 25

Chemically Competent Cells

This protocol for making chemically competent E. coli for transformations. It is derived from the official iGEM protocol, which can be found here

Making CCMB 80 Buffer
- 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 0.1M HCl if necessary
Culturing Cells
- Scrape cells from a colony or frozen stock of the desired strain
- Inoculate into 5 mL SOC (or LB+Antibiotic for plasmid-containing strains)
- Grow for ~8 hrs (morning to late afternoon) in 37C shaker
- Add 5 mL of culture to 250 mL SOC (or LB+Antibiotic) in a shaker flask
  - 250 mL culture will yield approximately 50 chemically competent samples. For smaller batches, we add 1 mL into 50 mL.
- Grow overnight for ~16 hrs in a shaker at room temperature
Treating cells

Transfer culture into 50 mL centrifuge tubes
Pellet cells at 4500 RPM for 10 mins
Pour off supernatant and resuspend cells in 40 mL CCMB 80 Buffer
Incubate on ice for 20 minutes
Pellet cells at 4500 RPM for 10 mins
Pour off supernatant and resuspend cells in 5 mL CCMB 80 Buffer
Incubate on ice for 20 minutes
Aliquot 750 uL each into pre-chilled microcentrifuge tubes
Store at -80C until use
Note: we never refreeze competent cells once thawed. Any unused cells in an aliquot are discarded.

Ligations

We had some trouble with ligations earlier in the year, and our protocol has undergone changes in an attempt to improve our ligation success. This protocol represents the most recent (and most successful) version of our ligations.

Restriction digestion
- To insert a single part into a desired backbone, digest both the insert and backbone with EcoRI and SpeI
- To insert a new part downstream of an existing part, digest the backbone with PstI and XbaI, and the insert with PstI and SpeI
- Digest four individual tubes of each mini prepped plasmid
- Add 10 uL Cutsmart buffer and 5 uL total enzyme, along with dH20 to a final volume of 100 uL for each mini prep
- Incubate at 37C for 3+ hrs
Gel extraction

Load 200 uL (two digestion tubes) plus 20 uL loading dye into each lane of a 0.8% agarose/TAE gel
Run gel electrophoresis at 100 volts for 18 minutes
Cut desired band from gel
Extract DNA from gel band using Zymoclean gel DNA recovery kit

Antarctic Phosphatase treatment
- Treat only the backbone with phosphatase
- We used Calf Intestinal Phosphatase earlier in the year, but seemed to have better results with Antarctic Phosphatase
- Combine two samples of gel extracted DNA (60 uL) with 10 uL Antarctic Phosphatase buffer, 2.5 uL phosphatase, and dH20 to a final volume of 100 uL
- Incubate for 1-2 hours at 37C
- Clean up sample by running our PCR cleanup protocol using the Qiagen miniprep kit
- Typical yield from minipreps to cleaned, processed DNA is about 10-25%, which is why we start with 4 minipreps to obtain one tube of product.
Ligation
Transformation

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This is a standard protocol for achieving this result.

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