RNAlib-2.2.7
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compute various properties (consensus MFE structures, partition function, Boltzmann distributed stochastic samples, ...) for RNA sequence alignments More...
Files | |
file | alifold.h |
compute various properties (consensus MFE structures, partition function, Boltzmann distributed stochastic samples, ...) for RNA sequence alignments | |
Functions | |
float | energy_of_alistruct (const char **sequences, const char *structure, int n_seq, float *energy) |
Calculate the free energy of a consensus structure given a set of aligned sequences. More... | |
int | get_alipf_arrays (short ***S_p, short ***S5_p, short ***S3_p, unsigned short ***a2s_p, char ***Ss_p, FLT_OR_DBL **qb_p, FLT_OR_DBL **qm_p, FLT_OR_DBL **q1k_p, FLT_OR_DBL **qln_p, short **pscore) |
Get pointers to (almost) all relavant arrays used in alifold's partition function computation. More... | |
void | update_alifold_params (void) |
Update the energy parameters for alifold function. More... | |
int | vrna_aln_mpi (char *Alseq[], int n_seq, int length, int *mini) |
Get the mean pairwise identity in steps from ?to?(ident) More... | |
int | get_mpi (char *Alseq[], int n_seq, int length, int *mini) |
Get the mean pairwise identity in steps from ?to?(ident) More... | |
void | encode_ali_sequence (const char *sequence, short *S, short *s5, short *s3, char *ss, unsigned short *as, int circ) |
Get arrays with encoded sequence of the alignment. More... | |
void | alloc_sequence_arrays (const char **sequences, short ***S, short ***S5, short ***S3, unsigned short ***a2s, char ***Ss, int circ) |
Allocate memory for sequence array used to deal with aligned sequences. More... | |
void | free_sequence_arrays (unsigned int n_seq, short ***S, short ***S5, short ***S3, unsigned short ***a2s, char ***Ss) |
Free the memory of the sequence arrays used to deal with aligned sequences. More... | |
float ** | get_ribosum (const char **Alseq, int n_seq, int length) |
Retrieve a RiboSum Scoring Matrix for a given Alignment. | |
Variables | |
double | cv_fact |
This variable controls the weight of the covariance term in the energy function of alignment folding algorithms. More... | |
double | nc_fact |
This variable controls the magnitude of the penalty for non-compatible sequences in the covariance term of alignment folding algorithms. More... | |
compute various properties (consensus MFE structures, partition function, Boltzmann distributed stochastic samples, ...) for RNA sequence alignments
Consensus structures can be predicted by a modified version of the fold() algorithm that takes a set of aligned sequences instead of a single sequence. The energy function consists of the mean energy averaged over the sequences, plus a covariance term that favors pairs with consistent and compensatory mutations and penalizes pairs that cannot be formed by all structures. For details see [8] and [2].
float energy_of_alistruct | ( | const char ** | sequences, |
const char * | structure, | ||
int | n_seq, | ||
float * | energy | ||
) |
#include <ViennaRNA/alifold.h>
Calculate the free energy of a consensus structure given a set of aligned sequences.
sequences | The NULL terminated array of sequences |
structure | The consensus structure |
n_seq | The number of sequences in the alignment |
energy | A pointer to an array of at least two floats that will hold the free energies (energy[0] will contain the free energy, energy[1] will be filled with the covariance energy term) |
int get_alipf_arrays | ( | short *** | S_p, |
short *** | S5_p, | ||
short *** | S3_p, | ||
unsigned short *** | a2s_p, | ||
char *** | Ss_p, | ||
FLT_OR_DBL ** | qb_p, | ||
FLT_OR_DBL ** | qm_p, | ||
FLT_OR_DBL ** | q1k_p, | ||
FLT_OR_DBL ** | qln_p, | ||
short ** | pscore | ||
) |
#include <ViennaRNA/alifold.h>
Get pointers to (almost) all relavant arrays used in alifold's partition function computation.
S_p | A pointer to the 'S' array (integer representation of nucleotides) |
S5_p | A pointer to the 'S5' array |
S3_p | A pointer to the 'S3' array |
a2s_p | A pointer to the pair type matrix |
Ss_p | A pointer to the 'Ss' array |
qb_p | A pointer to the QB matrix |
qm_p | A pointer to the QM matrix |
q1k_p | A pointer to the 5' slice of the Q matrix ( ![]() |
qln_p | A pointer to the 3' slice of the Q matrix ( ![]() |
void update_alifold_params | ( | void | ) |
#include <ViennaRNA/alifold.h>
Update the energy parameters for alifold function.
Call this to recalculate the pair matrix and energy parameters after a change in folding parameters like temperature
int vrna_aln_mpi | ( | char * | Alseq[], |
int | n_seq, | ||
int | length, | ||
int * | mini | ||
) |
#include <ViennaRNA/aln_util.h>
Get the mean pairwise identity in steps from ?to?(ident)
Alseq | |
n_seq | The number of sequences in the alignment |
length | The length of the alignment |
mini |
int get_mpi | ( | char * | Alseq[], |
int | n_seq, | ||
int | length, | ||
int * | mini | ||
) |
#include <ViennaRNA/aln_util.h>
Get the mean pairwise identity in steps from ?to?(ident)
Alseq | |
n_seq | The number of sequences in the alignment |
length | The length of the alignment |
mini |
void encode_ali_sequence | ( | const char * | sequence, |
short * | S, | ||
short * | s5, | ||
short * | s3, | ||
char * | ss, | ||
unsigned short * | as, | ||
int | circ | ||
) |
#include <ViennaRNA/aln_util.h>
Get arrays with encoded sequence of the alignment.
this function assumes that in S, S5, s3, ss and as enough space is already allocated (size must be at least sequence length+2)
sequence | The gapped sequence from the alignment |
S | pointer to an array that holds encoded sequence |
s5 | pointer to an array that holds the next base 5' of alignment position i |
s3 | pointer to an array that holds the next base 3' of alignment position i |
ss | |
as | |
circ | assume the molecules to be circular instead of linear (circ=0) |
void alloc_sequence_arrays | ( | const char ** | sequences, |
short *** | S, | ||
short *** | S5, | ||
short *** | S3, | ||
unsigned short *** | a2s, | ||
char *** | Ss, | ||
int | circ | ||
) |
#include <ViennaRNA/aln_util.h>
Allocate memory for sequence array used to deal with aligned sequences.
Note that these arrays will also be initialized according to the sequence alignment given
sequences | The aligned sequences |
S | A pointer to the array of encoded sequences |
S5 | A pointer to the array that contains the next 5' nucleotide of a sequence position |
S3 | A pointer to the array that contains the next 3' nucleotide of a sequence position |
a2s | A pointer to the array that contains the alignment to sequence position mapping |
Ss | A pointer to the array that contains the ungapped sequence |
circ | assume the molecules to be circular instead of linear (circ=0) |
void free_sequence_arrays | ( | unsigned int | n_seq, |
short *** | S, | ||
short *** | S5, | ||
short *** | S3, | ||
unsigned short *** | a2s, | ||
char *** | Ss | ||
) |
#include <ViennaRNA/aln_util.h>
Free the memory of the sequence arrays used to deal with aligned sequences.
This function frees the memory previously allocated with alloc_sequence_arrays()
n_seq | The number of aligned sequences |
S | A pointer to the array of encoded sequences |
S5 | A pointer to the array that contains the next 5' nucleotide of a sequence position |
S3 | A pointer to the array that contains the next 3' nucleotide of a sequence position |
a2s | A pointer to the array that contains the alignment to sequence position mapping |
Ss | A pointer to the array that contains the ungapped sequence |
double cv_fact |
#include <ViennaRNA/alifold.h>
This variable controls the weight of the covariance term in the energy function of alignment folding algorithms.
Default is 1.
double nc_fact |
#include <ViennaRNA/alifold.h>
This variable controls the magnitude of the penalty for non-compatible sequences in the covariance term of alignment folding algorithms.
Default is 1.