Advanced options

The free energy minimization algorithm includes a number of advanced options:

Specifying structure constraints

Structure constraints can serve two purposes in CLC Genomics Workbench: they can act as experimental constraints imposed on the MFE structure prediction algorithm or they can form a structure hypothesis to be evaluated using the partition function.

To force two regions to form a stem, open a normal sequence view and:

        Select the two regions you want to force by pressing Ctrl while selecting - (use Image command_key_web on Mac) | right-click the selection | Add Structure Prediction Constraints| Force Stem Here

This will add an annotation labeled "Forced Stem" to the sequence (see figure 22.5).

Image forced_stem_here_annotation
Figure 22.5: Force a stem of the selected bases.

Using this procedure to add base pairing constraints will force the algorithm to compute minimum free energy and structure with a stem in the selected region. The two regions must be of equal length.

To prohibit two regions to form a stem, open the sequence and:

        Select the two regions you want to prohibit by pressing Ctrl while selecting - (use Image command_key_web on Mac) | right-click the selection | Add Structure Prediction Constraints | Prohibit Stem Here

This will add an annotation labeled "Prohibited Stem" to the sequence (see figure 22.6).

Image prohibited_stem_here_annotation
Figure 22.6: Prohibit the selected bases from forming a stem.

Using this procedure to add base pairing constraints will force the algorithm to compute minimum free energy and structure without a stem in the selected region. Again, the two selected regions must be of equal length.

To prohibit a region to be part of any base pair, open the sequence and:

        Select the bases you don't want to base pair | right-click the selection | Add Structure Prediction Constraints | Prohibit From Forming Base Pairs

This will add an annotation labeled "No base pairs" to the sequence, see 22.7.

Image prohibited_basepairing_here_annotation
Figure 22.7: Prohibiting any of the selected base from pairing with other bases.

Using this procedure to add base pairing constraints will force the algorithm to compute minimum free energy and structure without a base pair containing any residues in the selected region.

When you click Predict secondary structure (Image rna_secondary_structure) and click Next, check Apply base pairing constraints in order to force or prohibit stem regions or prohibit regions from forming base pairs.

You can add multiple base pairing constraints, e.g. simultaneously adding forced stem regions and prohibited stem regions and prohibit regions from forming base pairs.