Find open-source science resources

A directory of tools, AI models, datasets, and research resources for biotech, bioinformatics, and other scientific fields. Aggregated from curated GitHub awesome-lists, HuggingFace, bio.tools, Bioconductor, and more.

36 of 6,234 resources

Provides functionality for producing geometric representations of protein and RNA structures, and biological interaction networks.

Active1.2K1 week ago
Jupyter Notebook
MIT

Benchmark evaluating AI agents for end-to-end automated research from re-discovery to new-discovery, with 40 real-science tasks across 10 disciplines, curated datasets from published papers, and expert-curated multimodal rubrics (170+ stars, MIT License)

Active1722 weeks ago
Jupyter Notebook
MIT

Community-driven model zoo and deployment infrastructure for AI-powered bioimage analysis, enabling standardized sharing, validation, and cross-platform execution of deep learning models across Fiji, Ilastik, napari, and other scientific imaging tools (EPFL, EMBL, and global collaborators, actively maintained)

Active382 weeks ago
Jupyter Notebook
MIT

AlphaFold/ESMFold accessible implementation with AF3 JSON export, database updates

Active2.8K3 weeks ago
Jupyter Notebook
MIT

Bias factorized, base-resolution deep learning models of chromatin accessibility (chromBPNet).

Active2341 month ago
Jupyter Notebook
MIT

Phylogeny-aware genomic language model trained on whole-genome alignments across multiple evolutionary timescales, predicting functional constraints and variant effects for human, mouse, chicken, fly, worm, and Arabidopsis genomes (344+ stars, MIT License)

Active3441 month ago
Jupyter Notebook
MIT

Open-source deep learning toolbox for bioimage analysis providing a unified, configuration-driven framework for 2D/3D semantic segmentation, instance segmentation, classification, denoising, super-resolution, and self-supervised learning; integrates state-of-the-art architectures including U-Net, Vision Transformers, and ConvNeXt, designed for microscopy and biomedical imaging researchers without extensive coding expertise (MIT License, actively maintained)

Active2011 month ago
Jupyter Notebook
MIT

Segment Anything Model for microscopy: interactive and automatic segmentation of light, electron, and fluorescence microscopy images in 2D and 3D, with domain-specific fine-tuning workflows for scientific imaging (1.5K+ stars)

Active6851 month ago
Jupyter Notebook
MIT

Efficient differentiable n-dimensional PDE solvers built on JAX and Equinox, shipping 46+ built-in equations with Fourier spectral methods, exponential time differencing, and full auto-differentiation for physics-based deep learning workflows (MIT, 200+ stars, 2024)

Active2101 month ago
Jupyter Notebook
MIT

Polymathic AI's large omnimodal foundation model for astronomical surveys, seamlessly integrating 39 distinct data modalities including imaging, spectra, photometry, and catalog entries for similarity search, property prediction, and generative modeling across legacy surveys (MIT)

Active1351 month ago
Jupyter Notebook
MIT

Single-cell analysis with transformers

Active1.6K2 months ago
Jupyter Notebook
MIT

Generative AI system for antibiotic discovery that searches billions of synthesizable molecules by combining molecular building blocks through real chemical reactions, experimentally validating novel compounds active against drug-resistant bacteria

Active2242 months ago
Jupyter Notebook
MIT

Google Colab-based no-code toolbox democratizing deep learning in microscopy for biologists without programming experience, enabling AI-powered image segmentation, denoising, super-resolution, and object tracking across diverse imaging modalities (Henriques Lab, 640+ stars)

Active6423 months ago
Jupyter Notebook
MIT

Babelon is a simple standard for managing ontology translations and language profiles. Profiles are managed as TSV files, see for example https://github.com/obophenotype/hpo-translations/tree/main/babelon. The goal of Babelon as a data model and vocabulary is to capture the minimum data required to capture important metadata such as confidence and precision of translation.

Active104 months ago
Jupyter Notebook
MIT

Bilingual protein language model translating between protein sequence and structure, finetuned from ProtT5-XL on 17M AlphaFoldDB structures using Foldseek's 3Di structural alphabet, enabling sequence-to-structure prediction, structure-to-sequence inverse folding, and unified protein representation learning (RostLab, 310+ stars)

Active3104 months ago
Jupyter Notebook
MIT

Multi-agent system automatically transforming research papers into interactive AI agents with MCP server generation, tutorial auto-detection, and benchmark extraction (2.2K+ stars, MIT License, 2025)

Active2.2K5 months ago
Jupyter Notebook
MIT

Family of large language models for materials research via continued pretraining of LLaMA-2/3 on ~30B materials science tokens, outperforming commercial LLMs on materials science tasks while identifying "adaptation rigidity" in overtrained models; includes MatNLP benchmark and CIF crystal generation capabilities (IIT Delhi M3RG, MIT License)

Active615 months ago
Jupyter Notebook
MIT

Neural Network Force Field based on PyTorch.

Active2905 months ago
Jupyter Notebook
MIT

AI-human collaborative research platform where a human researcher works with a team of LLM agents via team and individual meetings to perform scientific research; demonstrated by designing new SARS-CoV-2 nanobodies with wet-lab validation

Idle6886 months ago
Jupyter Notebook
MIT

Deep equivariant generative model predicting ligand-specific protein-ligand complex structures with dynamic receptor conformational flexibility, enabling accurate docking for flexible protein targets

Idle2966 months ago
Jupyter Notebook
MIT

Generative AI framework for inverse design of 3D RNA structure and function using geometric deep learning, learning design rules from 3D structures to capture complex tertiary interactions (pseudoknots, non-canonical base pairs) with expert-level accuracy for designing functional RNAs including aptamers and ribozymes (bioRxiv 2025)

Idle3096 months ago
Jupyter Notebook
MIT

Automate downloading and querying the latest (or a given) version of ChEMBL.

Idle9110 months ago
Jupyter Notebook
MIT

Multi-modal geospatial ML platform for agriculture and sustainability, fusing satellite imagery (RGB, SAR, multispectral), drone imagery, weather data, and sensor data for crop identification, carbon footprint estimation, and microclimate prediction (Microsoft Research, MIT License)

Idle86811 months ago
Jupyter Notebook
MIT

Therapeutics Data Commons: 66 AI-ready datasets across 22 drug discovery tasks with 29 leaderboards, covering target identification, molecular generation, ADMET prediction, and clinical trial outcomes (Harvard MIMS, NeurIPS 2021/2024)

Idle1.3K12 months ago
Jupyter Notebook
MIT

RNA foundation model trained on millions of RNA sequences for generalist RNA sequence understanding, enabling downstream structure prediction, function annotation, and representation learning for non-coding RNAs (ml4bio, 372+ stars)

Idle3741 year ago
Jupyter Notebook
MIT

State-of-the-art pretrained language models for proteins trained on thousands of GPUs and Google TPUs using Transformer architectures, enabling protein property prediction, feature extraction, and transfer learning across diverse downstream tasks (1.3K+ stars, MIT, 2020-2026)

Idle1.3K1 year ago
Jupyter Notebook
MIT

Kolmogorov-Arnold Networks with learnable activation functions on edges instead of fixed node activations, achieving strong performance in function fitting, PDE solving, and scientific discovery with enhanced interpretability as an alternative to MLPs (MIT, 16.3K+ stars, 2024)

Idle16.3K1 year ago
Jupyter Notebook
MIT

Chemical language model

Idle4961 year ago
Jupyter Notebook
MIT

A python package for optimizing chemical reactions using machine learning (contains 10 algorithms + several benchmarks).

Idle1481 year ago
Jupyter Notebook
MIT

Deep learning-based protein sequence design (inverse folding) from backbone structures, achieving 52.4% sequence recovery vs 32.9% for Rosetta, core tool in modern protein design pipelines (Baker Lab, Science 2022)

Idle1.8K1 year ago
Jupyter Notebook
MIT

In silico derivatization for GC. The GC-derivatization tool converts carbonyl groups to C═N-OCH3 (MeOX) and transforms acidic protons into -Si(CH3)3 (TMS). Key functionalities include checking for specific groups, removing derivatization groups, and adding derivatization groups to molecules.

Stale12 years ago
Jupyter Notebook
MIT

Climate data benchmark for ML models

Stale1132 years ago
Jupyter Notebook
MIT

Weather prediction benchmark

Stale8282 years ago
Jupyter Notebook
MIT

Wrapper for RDKit's RunReactants to improve stereochemistry handling

Stale1862 years ago
Jupyter Notebook
MIT
Stale783 years ago
Jupyter Notebook
MIT

Luke Thompson, NOAA.

Stale8905 years ago
Jupyter Notebook
MIT