Techne PrimeG User Manual

22

OLIGONUCLEOTIDE T

M

CALCULATOR

One of the most important parameters in a PCR is the annealing temperature of the reaction. This can
be determined theoretically using various software programmes to calculate the melting temperature
(T

m

) of the primers.

The T

m

is defined as the temperature at which half the DNA strands are single stranded and half are

double stranded when base paired to a complimentary strand. Using annealing temperatures that are
well below the T

m

of the primers can result in mismatching, false priming and may lead to primer-dimer

artefacts. Annealing temperatures that are significantly higher than the primer T

m

may result in

reduced priming or prevent priming altogether.

The Prime uses the Nearest-Neighbour method for calculating the T

m

of an oligonucleotide

1

.

The T

m

is calculated using the following equation:

T

m

=

{(∆Hº x 1000)/(A + ∆Sº + R ln(C/4))} - 273.15 + 16.6 x log[Na

+

]

Where:

∆Hº =

The sum of the Nearest-Neighbour enthalpy changes (Kcal/mol)

A

=

Helix initiation correction constant

∆Sº =

The sum of the Nearest-Neighbour entropy changes (cal K

-1

mol

-1

)

R

=

The Gas Constant (1.99 cal K

-1

mol

-1

)

C

=

Concentration of the oligo (M)

[Na+] =

Concentration of monovalent ions (M)

1

Breslauer, K.J.; Frank, R.; Blocker, H. and Marky, L.A. (1986) Proc. Natl. Acad. Sci. USA 83, pp

3746-3750.

The Oligonucleotide T

m

calculator can be found in the Settings module where the user can input the

oligonucleotide sequence, its concentration in the reaction and the salt concentration of the reaction
mix.