Tianfan Fu scite author profile

Summary Accurate prediction of drug–target interactions (DTI) is crucial for drug discovery. Recently, deep learning (DL) models for show promising performance for DTI prediction. However, these models can be difficult to use for both computer scientists entering the biomedical field and bioinformaticians with limited DL experience. We present DeepPurpose, a comprehensive and easy-to-use DL library for DTI prediction. DeepPurpose supports training of customized DTI prediction models by implementing 15 compound and protein encoders and over 50 neural architectures, along with providing many other useful features. We demonstrate state-of-the-art performance of DeepPurpose on several benchmark datasets. Availability and implementation https://github.com/kexinhuang12345/DeepPurpose. Contact jimeng@illinois.edu Supplementary information Supplementary data are available at Bioinformatics online.

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Deep feature for text-dependent speaker verification

Liu

Chen

et al. 2015

Speech Communication

162

119

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Artificial intelligence foundation for therapeutic science

et al. 2022

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Therapeutics Data Commons: Machine Learning Datasets and Tasks for Drug Discovery and Development

Huang

Gao

et al. 2021

Preprint

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Machine learning for therapeutics is an emerging field with incredible opportunities for innovation and expansion. Despite the initial success, many key challenges remain open. Here, we introduce Therapeutics Data Commons (TDC), the first unifying framework to systematically access and evaluate machine learning across the entire range of therapeutics. At its core, TDC is a collection of curated datasets and learning tasks that can translate algorithmic innovation into biomedical and clinical implementation. To date, TDC includes machine learning-ready datasets from learning tasks, spanning the discovery and development of safe and effective medicines. TDC also provides an ecosystem of tools, libraries, leaderboards, and community resources, including data functions, strategies for systematic model evaluation, meaningful data splits, data processors, and molecule generation oracles. All datasets and learning tasks are integrated and accessible via an open-source library. We envision that TDC can facilitate algorithmic and scientific advances and accelerate development, validation, and transition into production and clinical implementation. TDC is a continuous, open-source initiative, and we invite contributions from the research community. TDC is publicly available at https://tdcommons.ai.

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Tianfan Fu

DeepPurpose: a deep learning library for drug–target interaction prediction

Deep feature for text-dependent speaker verification

Artificial intelligence foundation for therapeutic science

Therapeutics Data Commons: Machine Learning Datasets and Tasks for Drug Discovery and Development

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