In silico prediction of a list of molecules whose SMILES code is provided by 4 software packages : BioTransformer3, SyGMa, MetaTrans and Meta-Predictor.
Biotransformer and Sygma are used via singularity, Meta-Trans & Meta-Predictor need to clone their github.
As this project was designed for non-bioinformaticians, a graphical interface via zenity was included (optional).
This project has been tested and run on linux and windows (WSL).
Due to hardware limitations, MetaTrans and Meta-Predictor may not function correctly. Their use is therefore disabled by default.
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Singularity (https://docs.sylabs.io/guides/3.0/user-guide/installation.html) :
sudo apt-get install -y singularity-container
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Conda (https://docs.conda.io/projects/conda/en/latest/user-guide/install/index.html) :
wget https://repo.anaconda.com/miniconda/Miniconda3-latest-Linux-x86_64.sh; chmod +x Miniconda3-latest-Linux-x86_64.sh; ./Miniconda3-latest-Linux-x86_64.sh
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Necessary for metatrans conda env install :
conda config --set channel_priority flexible
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Some packages needed :
sudo apt install zenity gawk dos2unix csvkit
git clone https://github.com/alexisbourdais/MetaTox; cd MetaTox/; git clone https://github.com/KavrakiLab/MetaTrans; git clone https://github.com/zhukeyun/Meta-Predictor; mkdir Meta-Predictor/prediction; mv Meta-Predictor/model/SoM\ identifier/ Meta-Predictor/model/SoM_identifier; mv Meta-Predictor/model/metabolite\ predictor/ Meta-Predictor/model/metabolite_predictor; chmod +x Meta-Predictor/predict-top15.sh Metatox.sh
- download the models in https://rice.app.box.com/s/5jeb5pp0a3jjr3jvkakfmck4gi71opo0 and place them in MetaTrans/models/ (unarchived)
./Metatox.sh
to activate zenity./Metatox.sh --input input_file
to skip zenity
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./Metatox.sh -h
to see available parameters when zenity was skippedREQUIRED parameter -i|--input OPTIONAL parameter -m|--meta To activate metaTrans and meta-Predictor [No] -t|--type Type of biotransformation to use with BioTransformer3: [allHuman] : Predicts all possible metabolites from any applicable reaction(Oxidation, reduction, (de-)conjugation) at each step ecbased : Prediction of promiscuous metabolism (e.g. glycerolipid metabolism). EC-based metabolism is also called Enzyme Commission based metabolism cyp450 : CYP450 metabolism prediction phaseII : Prediction of major conjugative reactions, including glucuronidation, sulfation, glycine transfer, N-acetyl transfer, and glutathione transfer, among others hgut : Human gut microbial superbio : Runs a set number of transformation steps in a pre-defined order (e.g. deconjugation first, then Oxidation/reduction, etc.) envimicro : Environmental microbial -n|--nstep The number of steps for the prediction by BioTransformer [default=1] -c|--cmode CYP450 prediction Mode uses by BioTransformer: 1 = CypReact+BioTransformer rules 2 = CyProduct only [3] = CypReact+BioTransformer rules+CyProducts -1|--phase1 Number of reaction cycles Phase 1 by SygMa [defaut=1] -2|--phase2 Number of reaction cycles Phase 2 by SygMa [defaut=1] -p|--tmp To keep intermediate files [No]
BioTransformer3 : https://bitbucket.org/wishartlab/biotransformer3.0jar/src/master/
SyGMa : https://github.com/3D-e-Chem/sygma
MetaTrans : https://github.com/KavrakiLab/MetaTrans
Meta-Predictor : https://github.com/zhukeyun/Meta-Predictor/tree/main
BioTransformer : Djoumbou-Feunang, Y. et al. BioTransformer: a comprehensive computational tool for small molecule metabolism prediction and metabolite identification. J Cheminform 11, 2 (2019)
SyGMa : Ridder, L. & Wagener, M. SyGMa: Combining Expert Knowledge and Empirical Scoring in the Prediction of Metabolites. ChemMedChem 3, 821–832 (2008).
MetaTrans : Litsa, E. E., Das, P. & Kavraki, L. E. Prediction of drug metabolites using neural machine translation. Chem. Sci. 11, 12777–12788 (2020).
MetaPredictor: in silico prediction of drug metabolites based on deep language models with prompt engineering