RNAlib-2.2.5
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The data structure that contains the complete model details used throughout the calculations. More...
Data Fields | |
double | temperature |
The temperature used to scale the thermodynamic parameters. | |
double | betaScale |
A scaling factor for the thermodynamic temperature of the Boltzmann factors. | |
int | dangles |
Specifies the dangle model used in any energy evaluation (0,1,2 or 3) More... | |
int | special_hp |
Include special hairpin contributions for tri, tetra and hexaloops. | |
int | noLP |
Only consider canonical structures, i.e. no 'lonely' base pairs. | |
int | noGU |
Do not allow GU pairs. | |
int | noGUclosure |
Do not allow loops to be closed by GU pair. | |
int | logML |
Use logarithmic scaling for multi loops. | |
int | circ |
Assume RNA to be circular instead of linear. | |
int | gquad |
Include G-quadruplexes in structure prediction. | |
int | canonicalBPonly |
remove non-canonical bp's from constraint structures | |
int | uniq_ML |
Flag to ensure unique multibranch loop decomposition during folding. | |
int | energy_set |
Specifies the energy set that defines set of compatible base pairs. | |
int | backtrack |
Specifies whether or not secondary structures should be backtraced. | |
char | backtrack_type |
Specifies in which matrix to backtrack. | |
int | compute_bpp |
Specifies whether or not backward recursions for base pair probability (bpp) computation will be performed. | |
char | nonstandards [33] |
contains allowed non standard bases | |
int | max_bp_span |
maximum allowed base pair span | |
int | min_loop_size |
Minimum size of hairpin loops. More... | |
int | window_size |
Size of the sliding window for locally optimal structure predition. | |
int | oldAliEn |
Use old alifold energy model. | |
int | ribo |
Use ribosum scoring table in alifold energy model. | |
double | cv_fact |
Covariance scaling factor for consensus structure prediction. | |
double | sfact |
Scaling factor for partition function scaling. | |
int | rtype [8] |
Reverse base pair type array. | |
short | alias [MAXALPHA+1] |
alias of an integer nucleotide representation | |
int | pair [MAXALPHA+1][MAXALPHA+1] |
Integer representation of a base pair. | |
The data structure that contains the complete model details used throughout the calculations.
For convenience reasons, we provide the type name vrna_md_t to address this data structure without the use of the struct keyword
int vrna_md_s::dangles |
Specifies the dangle model used in any energy evaluation (0,1,2 or 3)
If set to 0 no stabilizing energies are assigned to bases adjacent to helices in free ends and multiloops (so called dangling ends). Normally (dangles = 1) dangling end energies are assigned only to unpaired bases and a base cannot participate simultaneously in two dangling ends. In the partition function algorithm vrna_pf() these checks are neglected. To provide comparability between free energy minimization and partition function algorithms, the default setting is 2. This treatment of dangling ends gives more favorable energies to helices directly adjacent to one another, which can be beneficial since such helices often do engage in stabilizing interactions through co-axial stacking.
If set to 3 co-axial stacking is explicitly included for adjacent helices in mutli-loops. The option affects only mfe folding and energy evaluation (vrna_mfe() and vrna_eval_structure()), as well as suboptimal folding (vrna_subopt()) via re-evaluation of energies. Co-axial stacking with one intervening mismatch is not considered so far.
int vrna_md_s::min_loop_size |
Minimum size of hairpin loops.