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The implementation of paper "HPOFiller: identifying missing protein-phenotype associations by graph convolutional network".

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HPOFiller

HPOFiller: identifying missing protein-phenotype associations by graph convolutional network

Please run the programs in order.

Dependencies

Our model is implemented by Python 3.6 with Pytorch 1.4.0 and Pytorch-geometric 1.5.0, and run on Nvidia GPU with CUDA 10.0.

Preprocessing

Cross-validation

  • create_annotation.py: After generating Gene ID mapping file, you can run this script to generate protein-HPO annotations file without propagation. The output json file contains leaf annotations of each protein, like

     { protein_id1: [ hpo_term1, hpo_term2, ... ],
       protein_id2: [ hpo_term1, hpo_term2, ... ],
      ...
     }
    
  • create_auxiliary_file_pa.py : Now, you can create necessary auxiliary files, including:

    • protein list: a json file containing all protein IDs
    • term list: a json file containing all HPO terms (used to annotate at least one protein) Note that we only keep HPO terms in PA sub-ontology.
  • split_train_test_pa.py : Run this script to split n_folds folds and then generate n_folds mask files which contain train and test mask.

Temporal validation

  • split_temporal_dataset_pa.py: make necessary datasets along with the time. Note that we only consider HPO terms in PA.

Similarity Networks Generation

STRING

  • string.py: Please firstly open https://string-db.org/cgi/download.pl and choose "organism" as "Homo sapiens", then download "9606.protein.links.v11.0.txt.gz" (version number may change). Meanwhile, download mapping file under "ACCESSORY DATA" category, or open website https://string-db.org/mapping_files/uniprot_mappings/ to download it. After downloading, you can run this code to get a json file containing PPI data organized as

     {
     	protein1: {
     		protein1a: score1a, 
     		protein1b: score1b, 
     		...
     	}, 
     	...
     }
    

Here the scores are scaled to [0, 1].

HPO Semantic Similarity

  • hpo_sim.py: We choose Information coefficient measure (IC) as HPO similarity measure. Please set 'method' in config file as 'ic'. The generated json file containing IC similarity is organized as

     {
     	term1: {
     		term1a: score1a, 
     		term1b: score1b, 
     		...
     	}, 
     	...
     }
    

Run the model

  • train.py: We provide two modes:
    • Cross-validation: The program will conduct 10-folds CV and output corresponding predictions. Please set 'mode' in config file as 'cv'.
    • Temporal validation: This is a simulated real scene. The model will predict missing protein-HPO term associations based on current HPO annotations. Please set 'mode' in config file as 'single'.

Evaluation

  • evaluation.py: We provide three kinds of metrics to evaluate the performance of our model:

    • AUC: calculated on the whole pairs of protein-HPO term in the test set
    • AUPR: calculated on the whole pairs of protein-HPO term in the test set
    • AP@K: average precision at k, where k = 5000, 10000, 20000, 50000, also calculated on the whole pairs of protein-HPO term in the test set

    Please note that there are two running modes:

    • Cross-validation: Evaluate on each fold. Please set 'mode' in config file as 'cv'.
    • Temporal validation: Evaluate on single prediction result. Please set 'mode' in config file as 'single'.

Download the prediction results

We upload the prediction results made by HPOFiller for the HPO annotation released by 2019-02-12. The data is available at:

https://doi.org/10.6084/m9.figshare.13487277

This file is so large (585.8 MB), which contains the rank, UniProt ID of protein, HPO term ID and the predictive score. You are free to download it.

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