Difference between revisions of "Lobo"

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Lobo is a Loop Modeling software that uses pre-calculated '''Look-Up Tables (LUTs)''' that represent loop fragments of various sizes to speed up calculation. LUTs can be generated once and stored, only requiring loading during loop modeling.
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Lobo is a '''Loop Modeling''' software that uses pre-calculated '''Look-Up Tables (LUTs)''' that represent loop fragments of various sizes to speed up calculation. LUTs can be generated once and stored, only requiring loading during loop modeling.
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Conformations are produced by recursively dividing the segment until the backbone coordinates can be derived analytically.
 
Conformations are produced by recursively dividing the segment until the backbone coordinates can be derived analytically.

Revision as of 15:17, 4 July 2014

Lobo is a Loop Modeling software that uses pre-calculated Look-Up Tables (LUTs) that represent loop fragments of various sizes to speed up calculation. LUTs can be generated once and stored, only requiring loading during loop modeling.


Conformations are produced by recursively dividing the segment until the backbone coordinates can be derived analytically.


How to create a look-up table

The construction of the look-up tables (LUTs) is separated from modelling and has to be executed only once. LoboLUT is a perl script used to create a look-up table of a specific length.

To create a look-up table for a fragment of an N length

N=2

       ./loboLUT -A 1 -B 1 -O aa2.lt --table <destination path> 

N=3

       ./loboLUT -A aa2.lt -B 1 -O aa3.lt --table <destination path> 

N=4

       ./loboLUT -A ../data/aa2.lt -B ../data/aa2.lt -O aa4.lt --table <destination path> 

Is recomended to use as a destination path the data folder inside victor library


How to create a lookup table for a fragment of length n

LoboLUT_all is a perl script used to create all the look-up tables needed. For the modelling of a fragment of length N. The algorithm to create the tables, is based on some of the previous created tables. It always considers the half of the length and the half of it until arriving to the 2 or 3 length with are the based tables.

To create the Look-up tables for a fragment of 5 you could use the following line 

./loboLUT_all -c 5 this will create the look-up table for 2, 3 and 5, that will be the needed ones. Remember that the Lobo algorithm divides in two the length of the fragment that why the aa2.lt and aa3.lt should also be created.

Also you can create a look-up table of a specific length of N=2

       ./loboLUT -A 1 -B 1 -O aa2.lt --table <destination path> 

N=3

       ./loboLUT -A aa2.lt -B 1 -O aa3.lt --table <destination path> 

N=4

       ./loboLUT -A ../data/aa2.lt -B ../data/aa2.lt -O aa4.lt --table <destination path> 

Is recommended to use as a destination path the data folder inside victor library


How to see the content of a look-up table

the look-up table is created an a not plain text file, this is why a different application is needed to see the content of the table or to plot their content to more complex programs to perform loop modelling. LoopTablePlot is a c++ program that is used to do this, remember that this table file is create by loboLUT_all / loboLUT .

To see the lookup table aa5.lt (created previously), in this example s option allows to define the size for the output 
./LoopTablePlot -i ../data/aa5.lt  -o PLotoutput -s l 

The output created in the Plotoutput file contains the list of possible loop angles.

How to model a single loop from a given protein

CreateLoopTestset is a c++ program that allos you to model a single loop. It gives the user full flexibility concerning the setting of parameters for ranking and modelling. It finds the starting and ending positions in a PDB file or in many PDB files. Its output could be used to model the loop with LoopModelTest application . To obtain the list of starting and ending points for the files 119L 16PK

./createLoopTestset -o listLoops -i ../samples/filelist 

Content in filelist file

 ../samples/119L 
 ../samples/16PK 

the output will be printed and will be like index1 (-s): 7 index2 (-e) 14 index1 (-s): 48 index2 (-e) 52 index1 (-s): 86 index2 (-e) 89 index1 (-s): 99 index2 (-e) 104 …......... where the -s is the starting position and the -e is the ending position if many pdbs are evaluated, the application will show all the loops for the first pdb listed and then all the loops for the following ones.

How to model a loop

LoopModelTest is a c++ program that allows the creation of multiple possible loops and creates a pdb file for each of them .

This program needs as input the pdb and the start and end position to set the loop To create the loop from a start position X to an end position Y of the chain A of an specific pdb file

	./LoopModelTest -i ../samples/ZZZZ.pdb -c A -s X -e Y

Using the information obtained with the app CreateLoopTestset ./LoopModelTest -i ../samples/119L.pdb -c A -s 7 -e 14 Remember to create the lookup table for a 7 length fragment using ./loboLUT_all -c 7

The new pdbs files fill be created in the working path, and in the printed output will be shown the global RMS, end RMS, bond lenght, bond angle and torsion angle

Printed output Results: 1.35 121 180

 0   global RMS=  0.416   ( 0.366)	end-RMS=  0.234	    1.17     126     175 
 1   global RMS=  0.356   ( 0.295)	end-RMS= 0.0822	    1.38     121    -176 
…....

How to obtain a PDB`s torsion angles

Loop2torsion is a c++ program that allows to obtain all the phi and psi angles of all the amino acids in a selected PDB chain .

To obtain the angles a PDB file is needed as input and also the chain should be specified

   ./loop2torsion -i ../samples/2R8O.pdb -c A  

The printed output is the list of the angles and the Bfactor of 1.

  -72.1     157    1.0 
   -165     142    1.0 
    122    -172    1.0 
   -126    98.1    1.0 
  …....


How to Clustering data

Using the tor file created in Energy package, ClusterRama, a c++ program clusters the data contained in a Ramachandran distribution file To obtain the clustered data using a cutoff value of 100

   ./ClusterRama -i ../data/tor.par -o outRama -c 100.0 

The output contains the number of the values found the angles values and the corresponding residue 12

-55.07    -44.61   GLY 
 76.11    -172.4   GLY 
-139.2       129   GLY 
…...

How to generate clustered lookup tables

Based in the clustered data the LoopTableTest c++ program generates tables of protein entries for the Lobo algorithm .
   ./LoopTableTest -A 1 -B 1 -O output.lt -R outRama -S s 
To create the Ramachandran input file that contains the clustered data use ClusterRama application. 

The output created is not a plan text file, use the LoopTablePlot application The printed output, includes the corresponding angle values (see figure) Min: EP: -4.126 ED: -1.281 N: -0.9997 MP: -1.582 MD: -0.4919 MN: -0.9949 EP: 2.6 ED: -1.332 N: -1 MP: 1.521 MD: 0.4671 MN: -0.8217 EP: -3.966 ED: -1.289 N: -0.9836 MP: -1.598 MD: -0.7378 MN: -0.5885 Max: EP: 3.437 ED: 1.022 N: 0.6597 MP: 0.9131 MD: 0.5203 MN: 0.8068 EP: 4.856 ED: 0.1761 N: 0.6105 MP: 2.486 MD: 0.9987 MN: 0.6888 EP: 3.592 ED: 1.27 N: 0.9813 MP: 1.307 MD: 0.8342 MN: 0.7185


Entry 0 EP: -2.737 ED: -0.01248 N: -0.02252 MP: -0.8014 MD: 0.2146 MN: 0.6219 EP: 2.699 ED: -1.172 N: 0.5104 MP: 1.879 MD: 0.921 MN: -0.3856 EP: 1.984 ED: -0.6955 N: -0.8596 MP: 1.022 MD: 0.3252 MN: 0.6816


How to generate lookup tables using Ramachandran`s clustered data

Based on a lookup table already created with LoboLUT/loboLUT_all and defining a cutoff value. The ClusterLoopTable program allows you to create the new clustered lookuptable. In this example, a cutoff of 10 is set, and it uses the lookup table for a length of 5.

   ./ClusterLoopTable -I ../data/aa5.lt -O ../data/aa5clustered.lt -C 10.0 

The created output is not a plain text file, to see the content use the LoopTablePlot application


How to analyze the backbone geometry of a PDB

BackboneAnalyzer is an application that allows to analyze a PDB file in terms of bond lengths and bond angles . As input it uses the PDB file and the chain to evaluate

      ./backboneAnalyzer -i ../samples/2R8O.pdb -c A 

The printed output includes the minimum, maximum, average bonds lengths and angles and the corresponding standard deviations.


Bond Lengths Bond Angles Num N->CA CA->C' C'->N N->CA CA->C' C'->N


Min: 1.4450 1.5019 1.3206 116.87 104.83 112.55 Max: 1.4804 1.5479 4.0701 158.03 118.34 158.56


Avg: 1.4636 1.5272 1.3505 121.58 111.71 116.73 SD: 0.0054 0.0067 0.2074 2.45 2.16 1.98