Difference between revisions of "Lab Journal of Task 3 (MSUD)"
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* The ReProf predictions were compared with the DSSP assignment with a Python script (located at <code>/mnt/home/student/schillerl/MasterPractical/task3/compare_secstr.py</code>), which calculates the recall, precision and f-measure of the predictions. Positions that are assigned as "loop or irregular" by DSSP (translated into a '-' by Sonja's script) were considered as loop for the calculation. |
* The ReProf predictions were compared with the DSSP assignment with a Python script (located at <code>/mnt/home/student/schillerl/MasterPractical/task3/compare_secstr.py</code>), which calculates the recall, precision and f-measure of the predictions. Positions that are assigned as "loop or irregular" by DSSP (translated into a '-' by Sonja's script) were considered as loop for the calculation. |
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+ | Recall and Precision are defined as follows: |
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+ | * recall = TP / (TP + FN) |
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+ | * precision = TP / (TP + FP) |
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+ | * f-measure = 2 * recall * precision / (recall + precision) |
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+ | |||
+ | where TP means true positive, FP false positive and FN false negative. |
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== Disordered protein == |
== Disordered protein == |
Revision as of 13:36, 16 May 2013
For task 3 we have used the reference sequence of BCKDHA and other given example proteins.
Contents
Secondary structure
- PSSMs were created with Psi-Blast:
blastpgp -d /mnt/project/pracstrucfunc13/data/big/big_80 -i P10775.fasta -j 2 -h 10e-10 -Q P10775_big80.blastPsiMat
blastpgp -d /mnt/project/pracstrucfunc13/data/swissprot/uniprot_sprot -i P10775.fasta -j 2 -h 10e-10 -Q P10775_SwissProt.blastPsiMat
- ReProf was run for P10775 with a simple fasta file and with a PSSM (generated with big_80 and SwissProt, respectively) as input:
reprof -i P10775.fasta
reprof -i P10775_big80.blastPsiMat
reprof -i P10775_SwissProt.blastPsiMat
- PsiPred and DSSP were run on the following servers: PsiPred, DSSP_server.
- The pdb files used as input for DSSP are located at
/mnt/home/student/schillerl/MasterPractical/task3/pdb_structures/
. If there were more than one pdb structures available those which the highest coverage over the sequence and with the highest resolution were taken preferentially. These structures were used: 2BFD (P12694), 2BNH (P10775), 1AUI (Q08209) and 1KR4 (Q9X0E6).
- To parse the output of ReProf, DSSP and PsiPred, we used Sonja's script.
- The ReProf predictions were compared with the DSSP assignment with a Python script (located at
/mnt/home/student/schillerl/MasterPractical/task3/compare_secstr.py
), which calculates the recall, precision and f-measure of the predictions. Positions that are assigned as "loop or irregular" by DSSP (translated into a '-' by Sonja's script) were considered as loop for the calculation.
Recall and Precision are defined as follows:
- recall = TP / (TP + FN)
- precision = TP / (TP + FP)
- f-measure = 2 * recall * precision / (recall + precision)
where TP means true positive, FP false positive and FN false negative.
Disordered protein
IUPred
- Predictions were performed through the web server of IUPred. Graphical profiles of the results were downloaded.
- Output of IUPred are stored in the directory /mnt/home/student/weish/master-practical-2013/task03/02-disordered-protein/iupred
- We have also performed the prediction from command-line, following is the bash script:
<source lang="bash">
- !/bin/sh -e
INPUT=$HOME/master-practical-2013/task03 OUTPUT=$HOME/master-practical-2013/task03/02-disordered-protein/iupred PARAMS="long short glob"
if [ ! -d $OUTPUT ]; then
mkdir $OUTPUT
fi
for seq in $INPUT/*.fasta do
filename=`basename $seq` for param in $PARAMS do iupred $seq $param > $OUTPUT/iupred_${filename}_$param.tsv done
done </source>
MetaDisorder(MD)
- As the man page of metadisorder describes, the prediction of disordered region is based on the results of other programs such as NORSnet, PROFbval etc. Rather than directly call metadisorder we have used the wrapper program predictprotein as is described on the exercise page.
- Comparison to DisProt database: TODO
Following script was called for the task:
<source lang="bash">
- !/bin/sh -e
INPUT=$HOME/master-practical-2013/task03 OUTPUT=$HOME/master-practical-2013/task03/metadisorder EXE=predictprotein
- make output directory
if [ ! -d $OUTPUT ]; then
mkdir $OUTPUT
fi
- call metadisorder for all query sequences
for seq in $INPUT/*.fasta do
filename=`basename $seq` $EXE --seqfile $seq --target metadisorder -p metadisorder_$filename \ -o $OUTPUT
done echo Done! </source>