FunDi

Installation

Download it from https://github.com/dgaston/FunDi ⇒ ZIP button

Install it with these commands:

unzip dgaston-FunDi-229c4d6.zip
cd dgaston-FunDi-229c4d6/
unzip qmmraxml.zip
export PATH=$PATH:qmmraxml  # Or mv qmmraxml/qmmraxmlHPC to a PATH folder

if not working, you may need to recompile qmmraxmlHPC

unzip dgaston-FunDi-229c4d6.zip
cd dgaston-FunDi-229c4d6/
unzip qmmraxml.zip
cd qmmraxml
make  clean   # remove all files
make          # compile qmmraxmlHPC
cd ..
export PATH=$PATH:qmmraxml  # or move  qmmraxmlHPC in a path folder.

FunDi needs PERL release 5.10 or higher (maybe with threads enabled).

Identication of function sites in the Glyceraldehyde 3-phosphate dehydrogenase (GAPDH) (EC 1.2.1.12) enzyme

Execution

perl FunDi.pl -a GAPDH_alignment.phy -o gapdh_subtree -m LG -s gapdh_subtree.def -P qmmraxml -r 4 -t gapdh.tre

(It can take time)

Parameters:

More details with the help:

perl FunDi.pl -h

Results

Visualisation of sites

The most important file is “FunDi_Posterior_Scores.txt”.
You can load it in your spreadsheet (tab separated, activate special detection of numbers).
The numbering of sites starts from 0.
Sites with a posterior probality P(FD) with 0.50 or more could be interesting.
In particular:

Open Jalview, load the file GAPDH_alignment.phy, remove the first line and visualisation the sites.

3D visualisation

Open PyMol and load protein 2PKQ

Plugins-> PDB Loader Service 

Change the visualisation mode

all->S->Show->as->Cartoon
all->C->Color by->chain

In the PyMol command line, select the sites of interest…

select ImportantSites, resi 34+188+191 

… and change the visualisation mode:

(ImportantSites)->S->Show->Spheres
(ImportantSites)->C->Color by->chain