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  • DNA concentration (nanomolar) - a value to use as nanomolar concentration of each annealing oligo over the course the PCR. This parameter corresponds to 'c' in equation (ii) of the paper [SantaLucia (1998) A unified view of polymer, dumbbell, and oligonucleotide DNA nearest-neighbor thermodynamics. Proc Natl Acad Sci 95:1460-1465 http://www.pnas.org/content/95/4/1460.full.pdf+html], where a suitable value (for a lower initial concentration of template) is "empirically determined".
  • Monovalent concentration (millimolar) - the millimolar concentration of monovalent salt cations (usually KCl) in the PCR.
  • Divalent concentration (millimolar) - the millimolar concentration of divalent salt cations (usually MgCl^(2+)) in the PCR.
  • DNTP concentration (millimolar) - the millimolar concentration of the sum of all deoxyribonucleotide triphosphates. A reaction mix containing 0.2 mM ATP, 0.2 mM CTP, 0.2 mM GTP and 0.2 mM TTP would have this value equals to 0.8.
  • DMSO concentration (%) - the concentration of DMSO in percent.
  • DMSO factor The melting temperature of primers can be approximately corrected for DMSO:

    Tm = Tm(without DMSO) + DMSO factor * DMSO concentration

  • Formamide concentration (mol/l) - The concentration of formamide in mol/l. The melting temperature of primers can be approximately corrected for formamide:

    Tm = Tm(without formamide) + (0.453 * GC% / 100 - 2.88)  * Formamide concentration

  • NN Max Length - the maximum sequence length for using the nearest neighbor model. For sequences longer than this, algorithm uses the "GC%" formula from Bolton and McCarthy, PNAS 84:1390 (1962):

    Tm = 81.5 - DMSO concentration * DMSO factor + 0.453 * (GC% - 2.88) * Formamide concentration + 16.6 * log10(Monovalent concentration / 1000) + 0.41 * GC- 600 / Length

  • Thermodynamic table - specifies the thermodynamic table for the melting temperature calculation:
  • Salt Correction Formula - specifies the salt correction formula for the melting temperature calculation:
    • Schildkraut - [Schildkraut, C, and Lifson, S(1965) "Dependence of the melting temperature of DNA on salt concentration", Biopolymers 3:195-208 (not available on-line)]
    • SantaLucia - [SantaLucia JR(1998) "A unified view of polymer, dumbbell and oligonucleotide DNA nearest - neighbor thermodynamics", Proc Natl Acad Sci 95:1460-65 http://dx.doi.org/10.1073/pnas.95.4.1460]
    • Owczarzy - [Owczarzy, R., Moreira, B.G., You, Y., Behlke, M.A., and Walder, J.A. (2008) "Predicting stability of DNA duplexes in solutions containing magnesium and monovalent cations", Biochemistry 47 : 5336 - 53 http://dx.doi.org/10.1021/bi702363u]