Difference between revisions of "Annealing Oligos for Cloning"
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Calculate the molarity of the vector that will be in the ligation | Calculate the molarity of the vector that will be in the ligation | ||
| − | (__ ng vector)(10 exp6)/(670 g/pmol x __ base pairs) = ___ nM | + | (__ ng vector)(10 exp6 ul/L)/(670 g/pmol x __ base pairs) = ___ nM |
Example: (10 ng)(10 exp6/(670 x 2079 bp) = 7.2 nM | Example: (10 ng)(10 exp6/(670 x 2079 bp) = 7.2 nM | ||
Revision as of 19:47, 27 April 2012
Anneal Oligos
- Design oligos (the Oligator is a useful tool for this)
- Order oligos at 100 uM concentration (eg. IDT)
- Set up annealing reaction
2 ul 10X annealing buffer (1 M NaCl, 100 mM Tris-HCl pH 7.4) 1 ul each oligo (5 uM final concentration) dH2O to 20 ul total
- Boil 10 minutes in beaker with 400 ml H2O
- Turn off heat and let cool at least 2 hours
Dilute Oligos for Ligation
Calculate the molarity of the vector that will be in the ligation
(__ ng vector)(10 exp6 ul/L)/(670 g/pmol x __ base pairs) = ___ nM
Example: (10 ng)(10 exp6/(670 x 2079 bp) = 7.2 nM
Calculate the molarity of annealed oligos to be used for the ligation
__ nM vector x (molar excess of oligos)
Example: 7.2 nM x 3 = 21.6 nM oligos
Calculate how much to dilute annealed oligos
Stock oligos = 100 uM Annealed oligos = 5 uM = 5000 nM Dilution factor for oligos = 5000 nM / desired oligo molarity
Example: 5000 nM /21.6 nM = 231 dilution factor
Dilute annealed oligos with dH20
Example: 1 ul annealed oligos plus 230 ul dH20
Use 1 ul of vector and 1 ul of diluted oligos for ligation
