Team:EPF-Lausanne/Protocols/Klenow

• Design your DNA oligos
• Fix your target DNA concentration that you want at the end (in ng/ul)
• Multiply by 50 to get the total mass of DNA that you want in your tube at the end (the protocol is designed to have a final volume of 50ul)
• Out of the M.W. of your DNA fragment, calculate the number of mol that you would expect at the end --> it gives you the the nb of mol that you will need for each DNA oligos (each oligo must have the same nb mol as for the DNA fragment)
• Out of the concentration of your oligos, you can calculate the volume of each required

Step 1 : Klenow fragment synthesis

• 3.64ul of NEB buffer (choose this one according to the restriction enzymes you will use later. The klenow fragment enzyme works in all NEB buffer)
• 0.37ul of BSA 100x
• X ul for each primer according to concentration
• Y ul of MQ

-->The final volum at this stage should be 36.4ul Thermal cycling

• 94ºC for 5min
• Ramp down the temperature to 5ºC below your annealing temperature. CAUTION : ramp the temperature down at a MAXIMUM of 0.1ºC/s (to avoid secondary structure formation in your primers)
• Set the temperature @ 37ºC

Step 1'

• Add 1ul of the Klenow fragment enzyme
• Add 1.6ul of dNTPs (final concentration of 1mM each). Stock solution of dNTPs : 25mM each

-->The final volume at this stage should be 39ul

Thermal cycling

• Incubate 1h30 @ 37ºC
• Inactivate the enzyme 20min @ 75ºC
• Ramp down the temperature to 37ºC (!!! 0.1ºC/s !!!)

Step 2 : Digestion

• Add 0.5ul of each enzyme

-->volume at this stage should be 40ul

Thermal cycling

• Incubate 2h @ 37ºC
• Inactivate the enzymes 20min @ 80ºC
• Ramp down the temperature to 37ºC (!!! 0.1ºC/s !!!)

Step 2 : Dephosphorylation

Klenow protocol New protocol used with no purification step, everything is prepared to go trough all reaction up to the end of the digestion, ready for the ligation without going through any step of purification. This will avoid losing DNA due to the small size of the TrpO (127bp). Goal: we want 100ng/ul od DNA at the end length of TrpO:127bp molecular weight: 78,522 . 10^3 g/mol → 100ng/ul in 50ul → 6,367.10^-11 mol of TrpO a the end, that's to say 6,367.10^-11 of each primer Trp Operon-Rev: 1,560.10^3M → 2.56 ul Trp Operon-Fwd: 1,560.10^3M → 2.56 ul first make a dilution at 25ul in 500ul → 8ul in 492ul of MQ

1. Klenow dNTPs final concentr = 1mM 3.64ul of NEB2 0.37ul of BSA 100x 2.56ul of each primer at 25uM 32.38ul of MQ → final: 36.4ul

Thermal cycler: 94°c for 5min 0.1°C/s to 74°C for 5 min 0.1°C/s to 37°C Annealing temperature: 79.1°C (due to some website)

1.' 1ul Klenow + 1.6ul dNTPs = vol 39ul Incubate 1h30 at 37°C, then inactivate 20 min at 75°C : 0.1°C/s to 37°C

2. Digestion Add 0.5 ul of each enzyme (EcoRI - HF / NheI) → vol: 40.0ul Incubate 2h at 37°C, then inactivate 20min at 80°C. Then cool down at 37°C (0.1°C/s)

3. Dephosphorylation Add 5ul of antartic phosphatase buffer + 5ul of phosphatase enzyme → total volume: 50ul Incubate 2h at 37°C, then inactivate 10min at 65°C. Then cool down slowly (0.1°C/s) 1ul is needed to dephosphorylate 1-5mg of vector pUC19