{"payload":{"pageCount":1,"repositories":[{"type":"Public","name":"FS-GCvTR","owner":"larngroup","isFork":false,"description":"Convolutional Transformer via Graph Embeddings for Few-shot Toxicity and Side Effect Prediction","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":1,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-08-27T00:17:06.714Z"}},{"type":"Public","name":"ABIET","owner":"larngroup","isFork":false,"description":"Attention-Driven Molecular Evaluation: Identifying Critical Functional Groups for Biological Affinity with Transformer models","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-07-31T14:53:55.438Z"}},{"type":"Public","name":"Deep-model-to-predict-binding-affinity","owner":"larngroup","isFork":false,"description":"Deep model to predict binding affinity","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-07-10T11:47:53.302Z"}},{"type":"Public","name":"Deep-PIE","owner":"larngroup","isFork":false,"description":"A deep learning model for predicting the inhibitory capacity of antimicrobial peptides against E. coli.","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-07-05T00:18:38.996Z"}},{"type":"Public","name":"Drug_Permeability_DeepModel","owner":"larngroup","isFork":false,"description":"Drug_Permeability_DeepModel","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-06-26T22:30:23.323Z"}},{"type":"Public","name":"CNNSCZ","owner":"larngroup","isFork":false,"description":"CNN Models in Prediction of Feno Type from Genotype","allTopics":[],"primaryLanguage":null,"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-05-24T21:53:25.172Z"}},{"type":"Public","name":"DrugCancerPredictor","owner":"larngroup","isFork":false,"description":"Impact of Gene Expression Data Variants on Predicting Cancer Drug Effects","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-05-16T08:56:32.660Z"}},{"type":"Public","name":"GenoSCZ","owner":"larngroup","isFork":false,"description":"Enhancing Schizophrenia Phenotype Prediction from Genotype Data through Knowledge-Driven Deep Neural Network Models","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":1,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-05-16T08:44:29.308Z"}},{"type":"Public","name":"Drug-Target-Interaction-Predictor","owner":"larngroup","isFork":false,"description":"Drug-Target Interaction Prediction","allTopics":[],"primaryLanguage":null,"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2024-05-14T15:49:19.121Z"}},{"type":"Public","name":"DTITR","owner":"larngroup","isFork":false,"description":"DTITR: End-to-End Drug-Target Binding Affinity Prediction with Transformers","allTopics":["drug-discovery","attention-mechanism","drug-target-affinity","transformer"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":2,"starsCount":10,"forksCount":5,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-11-08T19:17:13.317Z"}},{"type":"Public","name":"targeted_generation_stereo","owner":"larngroup","isFork":false,"description":"Prediction of Biological Activity and Generation of molecular hits using Stereochemical Information","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":1,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-09-26T15:58:23.449Z"}},{"type":"Public","name":"MBTR","owner":"larngroup","isFork":false,"description":"Metal-Binding Transformer - Zinc Application","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-09-13T17:41:31.412Z"}},{"type":"Public","name":"TAG-DTA","owner":"larngroup","isFork":false,"description":"TAG-DTA: Binding Region-Guided Strategy to Predict Drug-Target Affinity Using Transformers","allTopics":["deep-learning","transformer-encoder","binding-affinity","drug-target-interaction","binding-pocket"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":2,"starsCount":4,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-09-12T21:06:13.868Z"}},{"type":"Public","name":"FSM-DDTR","owner":"larngroup","isFork":false,"description":"","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":3,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-08-02T22:10:43.556Z"}},{"type":"Public","name":"transf_rl_usp7","owner":"larngroup","isFork":false,"description":"","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":1,"starsCount":3,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2023-06-28T22:06:06.221Z"}},{"type":"Public","name":"DeepModel-Anticancer-Predictor","owner":"larngroup","isFork":false,"description":"Deep Modelling for Anticancer Drug Response through Genomic Profiles and Compound Structures","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":1,"starsCount":1,"forksCount":0,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2022-09-20T09:27:27.396Z"}},{"type":"Public","name":"GAN-Drug-Generator","owner":"larngroup","isFork":false,"description":"Generative Adversarial Network: Optimization in Targeted Design","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":1,"starsCount":10,"forksCount":4,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2022-04-12T17:39:32.705Z"}},{"type":"Public","name":"Explainable-Deep-DT-Representations","owner":"larngroup","isFork":false,"description":"Explainable Deep Drug-Target Representations for Binding Affinity Prediction","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":5,"forksCount":1,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2022-03-30T11:06:32.758Z"}},{"type":"Public","name":"-GCNNs-","owner":"larngroup","isFork":false,"description":"","allTopics":[],"primaryLanguage":null,"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2022-02-15T15:33:04.837Z"}},{"type":"Public","name":"KL_divergence_loss","owner":"larngroup","isFork":false,"description":"Variational Autoencoder with kl divergence loss function implemented with tensorflow and keras","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":1,"forksCount":0,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2021-11-25T11:56:43.361Z"}},{"type":"Public","name":"RNN-Drug-Generation","owner":"larngroup","isFork":false,"description":"A Study on Recurrent Architecture for De Novo Drug Generation","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":2,"forksCount":1,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2021-09-14T12:50:35.539Z"}},{"type":"Public","name":"moleculardocking","owner":"larngroup","isFork":false,"description":"molecular docking","allTopics":[],"primaryLanguage":null,"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":"Apache License 2.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2021-06-15T14:57:26.731Z"}},{"type":"Public","name":"larngroup.github.io","owner":"larngroup","isFork":false,"description":"Multiobjective Reinforcement Learning Description","allTopics":[],"primaryLanguage":{"name":"JavaScript","color":"#f1e05a"},"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2021-05-16T04:18:48.679Z"}},{"type":"Public","name":"De-Novo-Drug-Design","owner":"larngroup","isFork":false,"description":"Optimizing blood-brain barrier permeation through Deep Reinforcement Learning for de novo drug design","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":1,"starsCount":12,"forksCount":8,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2021-04-22T13:01:08.656Z"}},{"type":"Public","name":"DiverseDRL","owner":"larngroup","isFork":false,"description":"","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":1,"starsCount":11,"forksCount":9,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2020-11-15T22:01:53.302Z"}},{"type":"Public","name":"Agnostic_DL_Protein_Protein_Interaction","owner":"larngroup","isFork":false,"description":"Dataset agnostic deep learning architectures to predict protein-protein interactions","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":1,"starsCount":3,"forksCount":3,"license":"GNU General Public License v3.0","participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2020-06-13T16:24:40.672Z"}},{"type":"Public","name":"One_Shot_Siamese_Net_Drug_Discovery","owner":"larngroup","isFork":false,"description":"","allTopics":["drug-discovery","drug","one-shot-learning","siamese-neural-network","drug-drug-interaction","drug-target-interactions"],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":2,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2020-06-10T02:54:43.905Z"}},{"type":"Public","name":"DTI-End-to-End-DL","owner":"larngroup","isFork":false,"description":"Drug-Target Interaction Prediction: End-to-End Deep Learning","allTopics":[],"primaryLanguage":{"name":"Python","color":"#3572A5"},"pullRequestCount":0,"issueCount":0,"starsCount":2,"forksCount":3,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2019-12-10T23:36:06.377Z"}},{"type":"Public","name":"CRoP","owner":"larngroup","isFork":false,"description":"","allTopics":[],"primaryLanguage":null,"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2019-03-16T14:52:18.446Z"}},{"type":"Public","name":"DTIpred","owner":"larngroup","isFork":false,"description":"Drug-Target Interaction Prediction","allTopics":["bioinformatics"],"primaryLanguage":null,"pullRequestCount":0,"issueCount":0,"starsCount":0,"forksCount":0,"license":null,"participation":null,"lastUpdated":{"hasBeenPushedTo":true,"timestamp":"2019-03-07T10:14:05.621Z"}}],"repositoryCount":30,"userInfo":null,"searchable":true,"definitions":[],"typeFilters":[{"id":"all","text":"All"},{"id":"public","text":"Public"},{"id":"source","text":"Sources"},{"id":"fork","text":"Forks"},{"id":"archived","text":"Archived"},{"id":"template","text":"Templates"}],"compactMode":false},"title":"larngroup repositories"}