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oligoscreen and oligoscreen-smp

oligoscreen is used to calculate folding free energy changes for formation of unimolecular, bimolecular, and duplex structures for a set of oligonucleotides. oligoscreen-smp is a parallel processing version for use on multi-core computers, built using OpenMP.

USAGE: oligoscreen <list file> <report file> [options]

OR: oligoscreen-smp <list file> <report file> [options]

Required parameters:

<list file> The name of a list file containing the oligos.
<report file> The name of a report file to which output will be written. The report is tab-delimited and provides columns for the input sequence (Sequence), the bimolecular folding free energy change for two identical oligonucleotides interacting (DGbimolecular), the folding free energy change for unimolecular self-structure (DGunimolecular), the folding free energy change for duplex formation with the complementary sequence (DGduplex), the cost of opening the two base pairs at the 5' end of the oligonucleotide in a duplex with the complementary sequence (DG2BPat5'), and the cost of opening the two base pairs at the 3' end of the oligonucleotide in a duplex with the complementary sequence (DG2BPat3'). Folding free energy changes are in kcal/mol.

Options that do not require added values:

-d, -D, --DNA Specify that the sequence is DNA, and DNA parameters are to be used.
Default is to use RNA parameters.
-h, -H, --help Display the usage details message.

Options that require added values:

-t, -T, --temperature Specify the temperature at which calculation takes place in Kelvin.
Default is 310.15 K, which is 37 degrees C.

Notes for smp:

oligoscreen-smp, by default, will use all available compute cores for processing. The number of cores used can be controlled by setting the OMP_NUM_THREADS environment variable.

References:

  1. Reuter, J.S. and Mathews, D.H.
    "RNAstructure: software for RNA secondary structure prediction and analysis."
    BMC Bioinformatics, 11:129. (2010).
  2. Matveeva, O.V., Mathews, D.H., Tsodikov, A.D., Shabalina, S.A., Gesteland, R.F., Atkins, J.F. and Freier, S.M.
    "Thermodynamic criteria for high hit rate antisense oligonucleotide design."
    Nucleic Acids Res., 31:4989-4994.(2003).