Skip to content

GraphSite: protein-DNA binding site prediction using graph transformer and predicted protein structures

License

Notifications You must be signed in to change notification settings

biomed-AI/GraphSite

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 

History

32 Commits
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

Intro

GraphSite is a novel framework for sequence-based protein-DNA binding site prediction using graph transformer and predicted protein structures from AlphaFold2. We recommend you to use the web server (new version) of GraphSite if your input is small.
GraphSite_framework

System requirement

GraphSite is developed under Linux environment with:
python 3.8.5
numpy 1.19.1
pandas 1.1.3
torch 1.7.1
biopython 1.78

Software and database requirement

To run the full & accurate version of GraphSite, you need to install the following three software and download the corresponding databases:
BLAST+ and UniRef90
HH-suite and Uniclust30
DSSP
Besides, you need to provide the predicted protein structures along with the single representations from AlphaFold2. To generate these files from sequences, you can first run AlphaFold2 on our biomedical AI platform. You can also visit AlphaFold Protein Structure Database to directly download the predicted structures and single representations (coming soon).
However, if you use the reduced version of GraphSite, the BLAST+&HH-suite and AlphaFold2 single representations are alternative.
⭐Note: If you run the standalone AlaphaFold2 on your own, please set return_representations=True in class AlphaFold(hk.Module). Besides the predicted structures, the outputs of AlphaFold2 also contain result_model_*.pkl, which is a python dictionary. If you set this parameter, you can get the single representation matrix in this dictionary via the keys of "representations" and then "single".

Build database and set path

  1. Use makeblastdb in BLAST+ to build UniRef90 (guide).
  2. Build Uniclust30 following this guide.
  3. Set path variables UR90, HHDB, PSIBLAST, HHBLITS and DSSP in GraphSite_predict.py.

Run GraphSite for prediction

Run full & accurate version of GraphSite:

python ./script/GraphSite_predict.py --path ./demo/ --id 6ymw_B

This requires that the predicted structure 6ymw_B.pdb and raw single representation 6ymw_B_single.npy exist in the provided path.
The program uses the full model in default. If you want to use the reduced version of GraphSite that adopts only AlphaFold2 single representation as MSA information, type as follows:

python ./script/GraphSite_predict.py --path ./demo/ --id 6ymw_B --msa single

Set --msa evo to use only evolutionary features (PSSM + HMM) as MSA information (might causes large performance drop); Set --msa both to use the full version of GraphSite, which is the default option.

Dataset and model

We provide the datasets, the pre-predicted structures, the single representations, and the pre-trained models here for those interested in reproducing our paper.
The datasets used in this study (DNA_Train_573, DNA_Test_129 and DNA_Test_181) are stored in ./Dataset/ in fasta format.
The AlphaFold2-predicted structures of the proteins in these three datasets are also in ./Dataset/.
The AlphaFold2 single representations of the proteins can be found in here.
The pre-trained GraphSite models can be found under ./Model/.

Citation and contact

Citation:

@article{10.1093/bib/bbab564,
    author = {Yuan, Qianmu and Chen, Sheng and Rao, Jiahua and Zheng, Shuangjia and Zhao, Huiying and Yang, Yuedong},
    title = "{AlphaFold2-aware protein–DNA binding site prediction using graph transformer}",
    journal = {Briefings in Bioinformatics},
    volume = {23},
    number = {2},
    year = {2022},
    month = {01},
    issn = {1477-4054},
    doi = {10.1093/bib/bbab564},
    url = {https://doi.org/10.1093/bib/bbab564},
}

Contact:
Qianmu Yuan ([email protected])
Yuedong Yang ([email protected])

About

GraphSite: protein-DNA binding site prediction using graph transformer and predicted protein structures

Resources

License

Stars

Watchers

Forks

Releases

No releases published

Packages

No packages published

Languages