This repository is inspired by the remarkable work of Kevin Kaichuang Yang and their outstanding project Machine-learning-for-proteins. We have established this repository to provide a specialized and focused platform for the field of Deep Learning for Protein Design, a rapidly advancing domain in computational biology.
Contributions and suggestions are warmly welcome! Community Values, Guiding Principles, and Commitments for the Responsible Development of AI for Protein Design: details
Papers last week, updated on 2024.12.21:
- Mapping targetable sites on the human surfaceome for the design of novel binders
- De novo design and structure of a peptide-centric TCR mimic binding module
- [bioRxiv 2024.12.16.628822] • [Supplementary] • RFDiffusion/ProteinMPNN-based
- Benchmarking Inverse Folding Models for Antibody CDR Sequence Design
- Design of pseudosymmetric protein hetero-oligomers
- Open-Source Protein Language Models for Function Prediction and Protein Design
- Guiding Generative Protein Language Models with Reinforcement Learning
- [arXiv:2412.12979] • [code]
- IgDesign: In vitro validated antibody design against multiple therapeutic antigens using inverse folding
- Discovery and language model-guided design of hyperactive transposase
- Bayesian Optimisation for Protein Sequence Design: Gaussian Processes with Zero-Shot Protein Language Model Prior Mean
0) Benchmarks and datasets
Sequence dataset/benchmarks •
Structure datasets/benchmarks •
Public database •
Similar list •
Guides
1) Reviews and surveys
De novo design •
Antibody design •
Peptide design •
Binder design •
Enzyme design
2) Model-based design
trRosetta-based •
AlphaFold2-based •
DMPfold2-based •
CM-Align •
MSA transformer-based •
DeepAb-based •
TRFold2-based •
GPT-based •
ESM-based •
Sampling-algorithms
3) Function to Scaffold
GAN-based •
VAE-based •
DAE-based •
MLP-based •
Diffusion-based •
RL-based •
Flow-based •
Score-based
4) Scaffold to Sequence
Review •
MLP-based •
VAE-based •
LSTM-based •
CNN-based •
GNN-based •
GAN-based •
Transformer-based •
ResNet-based •
Diffusion-based •
Bayesian method •
Flow-based
5) Function to Sequence
CNN-based •
VAE-based •
GAN-based •
Transformer-based •
Bayesian method •
Reinforcement Learning •
Flow-based •
RNN-based •
LSTM-based •
Autoregressive •
Boltzmann machine •
Diffusion-based •
GNN-based •
Score-based
6) Function to Structure
Review •
LSTM-based •
Diffusion-based •
RoseTTAFold-based •
CNN-based •
GNN-based •
Transformer-based •
MLP-based •
Flow-based •
AlphaFold-based
7) Other
Effects of mutations & Fitness Landscape •
Protein Language Model & Representation Learning •
Molecular Design Model •
Unclassified
FLIP: Benchmark tasks in fitness landscape inference for proteins
Christian Dallago, Jody Mou, Kadina E Johnston, Bruce Wittmann, Nick Bhattacharya, Samuel Goldman, Ali Madani, Kevin K Yang
NeurIPS 2021 Datasets and Benchmarks Track/bioRxiv 2021 • website • code • Supplementary
A Benchmark Framework for Evaluating Structure-to-Sequence Models for Protein Design
Jeffrey Chan, Seyone Chithrananda, David Brookes, Sam Sinai
Paper unavailable at Machine Learning in Structural Biology Workshop 2022
PDBench: Evaluating Computational Methods for Protein-Sequence Design
Leonardo V Castorina, Rokas Petrenas, Kartic Subr, Christopher W Wood
Bioinformatics, 2023;, btad027 • code
Benchmarking deep generative models for diverse antibody sequence design
Igor Melnyk, Payel Das, Vijil Chenthamarakshan, Aurelie Lozano
arXiv:2111.06801
The Protein Engineering Tournament: An Open Science Benchmark for Protein Modeling and Design
Chase Armer, Hassan Kane, Dana Cortade, Dave Estell, Adil Yusuf, Radhakrishna Sanka, Henning Redestig, TJ Brunette, Pete Kelly, Erika DeBenedictis
arXiv:2309.09955
Computational Scoring and Experimental Evaluation of Enzymes Generated by Neural Networks
Sean R.Johnson, Xiaozhi Fu, Sandra Viknander, Clara Goldin, Sarah Monaco, Aleksej Zelezniak, Kevin K. Yang
bioRxiv (2023) • code
FLOP: Tasks for Fitness Landscapes Of Protein Wildtypes
Peter Mørch Groth, Richard Michael, Jesper Salomon, Pengfei Tian, Wouter Boomsma
bioRxiv 2023.06.21.545880 • code
ProteinGym: Large-Scale Benchmarks for Protein Design and Fitness Prediction
Pascal Notin, Aaron W Kollasch, Daniel Ritter, Lood van Niekerk, Steffanie Paul, Hansen Spinner, Nathan Rollins, Ada Shaw, Ruben Weitzman, Jonathan Frazer, Mafalda Dias, Dinko Franceschi, Rose Orenbuch, Yarin Gal, Debora S Marks
bioRxiv 2023.12.07.570727 • code
Results of the Protein Engineering Tournament: An Open Science Benchmark for Protein Modeling and Design
Chase Armer, Hassan Kane, Dana L. Cortade, Henning Redestig, David A. Estell, Adil Yusuf, Nathan Rollins, Hansen Spinner, Debora Marks, TJ Brunette, Peter J. Kelly, Erika DeBenedictis
bioRxiv 2024.08.12.606135 • code • Supplementary
Generative AI Models for the Protein Scaffold Filling Problem
Letu Qingge, Kushal Badal, Richard Annan, Jordan Sturtz, Xiaowen Liu, and Binhai Zhu
Journal of Computational Biology
Benchmarking Inverse Folding Models for Antibody CDR Sequence Design
Per Junior Greisen, Yifan Li, Yuxiang Lang, Chenrui Xu, Yi Zhou, Ziwei Pang
bioRxiv 2024.12.16.628614
AlphaDesign: A graph protein design method and benchmark on AlphaFoldDB
Zhangyang Gao, Cheng Tan, Stan Z. Li
arxiv (2022)
SidechainNet: An All-Atom Protein Structure Dataset for Machine Learning
Jonathan E. King, David Ryan Koes
arxiv • github::sidechainnet
TDC maintains a resource list that currently contains 22 tasks (and its datasets) related to small molecules and macromolecules, including PPI, DDI and so on. MoleculeNet published a small molecule related benchmark four years ago.
In terms of datasets and benchmarks, protein design is far less mature than drug discovery (paperwithcode drug discovery benchmarks). (Maybe should add the evaluation of protein design for deep learning method (especially deep generative model)) Difficulties and opportunities always coexist. Happy to see the work of Christian Dallago, Jody Mou, Kadina E. Johnston, Bruce J. Wittmann, Nicholas Bhattacharya, Samuel Goldman, Ali Madani, Kevin K. Yang and Zhangyang Gao, Cheng Tan, Stan Z. Li.
Sampling of structure and sequence space of small protein folds
Thomas W. Linsky, Kyle Noble, Autumn R. Tobin, Rachel Crow, Lauren Carter, Jeffrey L. Urbauer, David Baker & Eva-Maria Strauch
Nat Commun 13, 7151 (2022) • code • Supplementary
OpenProteinSet: Training data for structural biology at scale
Gustaf Ahdritz, Nazim Bouatta, Sachin Kadyan, Lukas Jarosch, Daniel Berenberg, Ian Fisk, Andrew M. Watkins, Stephen Ra, Richard Bonneau, Mohammed AlQuraishi
arXiv:2308.05326 • OpenFold
ProteinInvBench: Benchmarking Protein Design on Diverse Tasks, Models, and Metrics
Zhangyang Gao, Cheng Tan, Yijie Zhang, Xingran Chen, Stan Z. Li
GitHub
PDB-Struct: A Comprehensive Benchmark for Structure-based Protein Design
Chuanrui Wang, Bozitao Zhong, Zuobai Zhang, Narendra Chaudhary, Sanchit Misra, Jian Tang
arXiv preprint arXiv:2312.00080 (2023) • code
Scaffold-Lab: Critical Evaluation and Ranking of Protein Backbone Generation Methods in A Unified Framework
Zhuoqi Zheng, Bo Zhang, Bozitao Zhong, Kexin Liu, Jinyu Yu, Zhengxin Li, JunJie Zhu, Ting Wei, Hai-Feng Chen
bioRxiv 2024.02.10.579743 • code • Supplementary
Antibody DomainBed: Out-of-Distribution Generalization in Therapeutic Protein Design
Nataša Tagasovska, Ji Won Park, Matthieu Kirchmeyer, Nathan C. Frey, Andrew Martin Watkins, Aya Abdelsalam Ismail, Arian Rokkum Jamasb, Edith Lee, Tyler Bryson, Stephen Ra, Kyunghyun Cho
arXiv:2407.21028 • code • dataset
Large protein databases reveal structural complementarity and functional locality
Paweł Szczerbiak, Lukasz Szydlowski, Witold Wydmański, P. Douglas Renfrew, Julia Koehler Leman, Tomasz Kosciolek
bioRxiv 2024.08.14.607935 • code • Supplementary • website
The Protein Design Archive (PDA): insights from 40 years of protein design
Marta Chronowska, Michael J. Stam, Derek N. Woolfson, Luigi F. Di Constanzo, Christopher W. Wood
bioRxiv 2024.09.05.611465 • code • Supplementary • website
ProteinBench: A Holistic Evaluation of Protein Foundation Models
Fei Ye, Zaixiang Zheng, Dongyu Xue, Yuning Shen, Lihao Wang, Yiming Ma, Yan Wang, Xinyou Wang, Xiangxin Zhou, Quanquan Gu
arXiv:2409.06744 • code
Benchmarking Generative Models for Antibody Design & Exploring Log-Likelihood for Sequence Ranking
Talip Uçar, Cedric Malherbe, Ferran Gonzalez
bioRxiv 2024.10.07.617023 • code
Towards Robust Evaluation of Protein Generative Models: A Systematic Analysis of Metrics
Pavel Strashnov, Andrey Shevtsov, Viacheslav Meshchaninov, Maria Ivanova, Fedor Nikolaev, Olga Kardymon, Dmitry Vetrov
bioRxiv 2024.10.25.620213
A list of suggested protein databases, more lists at CNCB.
Database | Description |
---|---|
PDB | The Protein Data Bank (PDB) is a database of 3D structural data of large biological molecules, such as proteins and nucleic acids. These data are gathered using experimental methods such as X-ray crystallography, NMR spectroscopy, or cryo-electron microscopy |
AlphaFoldDB | AlphaFoldDB is a database of protein structure predictions produced by DeepMind's AlphaFold system. It provides highly accurate predictions of protein 3D structures |
PDBbind | PDBbind is a comprehensive collection of the binding data of all types of biomolecular complexes in the PDB database. It is primarily used for the development and validation of computational methods for predicting molecular interactions |
AB-Bind | AB-Bind is a database for antibody binding affinity data. It offers a curated set of experimental binding data and corresponding antibody-protein complex structures |
AntigenDB | AntigenDB is a manually curated database of experimentally verified antigens that includes detailed information about the antigen, the source organism, and the associated antibodies |
CAMEO | CAMEO (Continuous Automated Model EvaluatiOn) is a project for the automated evaluation of methods predicting macromolecular structure. It continuously assesses the performance of automated protein structure prediction servers |
CAPRI | The Critical Assessment of PRediction of Interactions (CAPRI) is a community-wide experiment to evaluate protein-protein interaction prediction methods |
PIFACE | PIFACE is a web server for the prediction of protein-protein interactions. It identifies potential interaction interfaces on protein surfaces |
SAbDab | The Structural Antibody Database (SAbDab) is an automatically updated resource for the structural information of antibodies from the PDB. It allows for easy access to curated, annotated, and classified antibody structures |
SKEMPI v2.0 | SKEMPI 2.0 is a database of experimental measurements of the change in binding free energy caused by mutations in protein-protein complexes |
ProtCAD | ProtCAD is a suite of tools for the design and engineering of novel protein structures, sequences, and functions. It allows users to build and manipulate complex protein structures, generate and evaluate sequence libraries, and simulate mutational effects. ProtCAD is a suite of tools for the design and engineering of novel protein structures, sequences, and functions. It allows users to build and manipulate complex protein structures, generate and evaluate sequence libraries, and simulate mutational effects. |
Some similar GitHub lists that include papers about protein design using deep learning:
- design_tools
- awesome-AI-based-protein-design
- ProteinStructureWithDL
- List of available bioinformatic tools and services
Guides/Tutorials for beginners on GitHub:
Collection of Protein Design Labs:
Protein design: from computer models to artificial intelligence
Antonella Paladino, Filippo Marchetti, Silvia Rinaldi, Giorgio Colombo
Wiley Interdisciplinary Reviews: Computational Molecular Science 7.5 (2017): e1318
Advances in protein structure prediction and design
Brian Kuhlman, Philip Bradley
Nat Rev Mol Cell Biol 20, 681-697 (2019)
Deep learning in protein structural modeling and design
Wenhao Gao, Sai Pooja Mahajan, Jeremias Sulam, and Jeffrey J. Gray
Patterns 1.9 • 2020
100th anniversary of macromolecular science viewpoint: Data-driven protein design
Ferguson, Andrew L., and Rama Ranganathan
ACS Macro Letters 10.3 (2021)
Artificial intelligence in early drug discovery enabling precision medicine
Fabio Bonioloa, Emilio Dorigattia, Alexander J. Ohnmachta, Dieter Saurb, Benjamin Schuberta, and Michael P. Menden
Expert Opinion on Drug Discovery 16.9 (2021)
Protein design with deep learning
Defresne, Marianne, Sophie Barbe, and Thomas Schiex
International Journal of Molecular Sciences 22.21 (2021)
Protein sequence design with deep generative models
Zachary Wu, Kadina E. Johnston, Frances H. Arnold, Kevin K. Yang
Current Opinion in Chemical Biology 65 • note • 2021
Structure-based protein design with deep learning
Ovchinnikov, Sergey, and Po-Ssu Huang
Current opinion in chemical biology 65 • note • 2021
Deep learning techniques have significantly impacted protein structure prediction and protein design
Pearce, Robin, and Yang Zhang
Current opinion in structural biology 68 (2021)
Recent advances in de novo protein design: Principles, methods, and applications
Pan, Xingjie, and Tanja Kortemme
Journal of Biological Chemistry 296 (2021)
Protein design via deep learning
Wenze Ding, Kenta Nakai, Haipeng Gong
Briefings in Bioinformatics • 25 March 2022
Deep generative modeling for protein design
Strokach, Alexey, and Philip M. Kim
Current Opinion in Structural Biology • 2022
Dawn of a new era for membrane protein design
Sowlati-Hashjin, Shahin, Aanshi Gandhi, and Michael Garton
BioDesign Research (2022)
Deep learning approaches for conformational flexibility and switching properties in protein design
Rudden, Lucas SP, Mahdi Hijazi, and Patrick Barth
Frontiers in Molecular Biosciences
Computational protein design with evolutionary-based and physics-inspired modeling: current and future synergies
Cyril Malbranke, David Bikard, Simona Cocco, Rémi Monasson, Jérôme Tubiana
arXiv:2208.13616v2
From sequence to function through structure: deep learning for protein design
Noelia Ferruz, Michael Heinzinger, Mehmet Akdel, Alexander Goncearenco, Luca Naef, Christian Dallago
bioRxiv 2022.08.31.505981/Computational and Structural Biotechnology Journal Volume 21, 2023 • Supplementary • accompanying list
Computational protein design with data-driven approaches: Recent developments and perspectives
Haiyan Liu, Quan Chen
WIREs Comput Mol Sci. 2022. e1646
Understanding by design: Implementing deep learning from protein structure prediction to protein design
Gao, Yuanxu, Jiangshan Zhan, and Albert CH Yu
MedComm-Future Medicine 1.2 (2022): e22
Diffusion Models in Bioinformatics: A New Wave of Deep Learning Revolution in Action
Zhiye Guo, Jian Liu, Yanli Wang, Mengrui Chen, Duolin Wang, Dong Xu, Jianlin Cheng
arXiv:2302.10907
Machine learning for evolutionary-based and physicsinspired protein design: Current and future synergies
Cyril Malbranke, David Bikard, Simona Cocco, Rémi Monasson, Jérôme Tubiana
Current Opinion in Structural Biology
De novo design of polyhedral protein assemblies: before and after the AI revolution
Bhoomika Basu Mallik, Jenna Stanislaw, Tharindu Madhusankha Alawathurage, and Alena Khmelinskaia
ChemBioChem 2023, e202300117
Research progress of artificial intelligence in protein design
CHEN Zhihang, JI Menglin, QI Yifei
Synthetic Biology Journal (2023)
A Survey on Graph Diffusion Models: Generative AI in Science for Molecule, Protein and Material
Mengchun Zhang, Maryam Qamar, Taegoo Kang, Yuna Jung, Chenshuang Zhang, Sung-Ho Bae, Chaoning Zhang
https://arxiv.org/abs/2304.01565
Exploring the Protein Sequence Space with Global Generative Models
Sergio Romero-Romero, Sebastian Lindner, Noelia Ferruz
arXiv:2305.01941
The Era of Machine Learning for Protein Design, Summarized in Four Key Methods
LucianoSphere
Towards Data Science
Is novelty predictable?
Clara Fannjiang, Jennifer Listgarten
arXiv:2306.00872
Computational protein design - where it goes?
Xu Binbin, Chen Yingjun and Xue Weiwei
Current Medicinal Chemistry 2023
How can the protein design community best support biologists who want to harness AI tools for protein structure prediction and design?
Birte Höcker, Peilong Lu, Anum Glasgow, Debora S. Marks
Pranam Chatterjee, Joanna S.G. Slusky, Ora Schueler-Furman, Possu Huang
Cell Systems 14.8 (2023)
De novo 設計ナノポアの創製
新津藍
生物工学会誌 101.8 (2023)
Generative artificial intelligence for de novo protein design
Adam Winnifrith, Carlos Outeiral, Brian Hie
arXiv:2310.09685
Intelligent Protein Design and Molecular Characterization Techniques: A Comprehensive Review
Jingjing Wang, Chang Chen, Ge Yao, Junjie Ding, Liangliang Wang and Hui Jiang
Molecules 28.23 (2023)
Generative models for protein sequence modeling: recent advances and future directions
Mehrsa Mardikoraem, Zirui Wang, Nathaniel Pascual, Daniel Woldring
Briefings in Bioinformatics
A new age in protein design empowered by deep learning
Hamed Khakzad, Ilia Igashov, Arne Schneuing, Casper Goverde, Michael Bronstein, Bruno Correia
Cell Systems, Volume 14, Issue 11
Deep learning for protein structure prediction and design—progress and applications
Jürgen Jänes and Pedro Beltrao
Mol Syst Biol(2024)
De novo protein design—From new structures to programmable functions
Tanja Kortemme
Cell 187.3 (2024)
Generative models for protein structures and sequences
Chloe Hsu, Clara Fannjiang & Jennifer Listgarten
Nat Biotechnol 42, 196–199 (2024)
What does it take for an ‘AlphaFold Moment’ in functional protein engineering and design?
Roberto A. Chica & Noelia Ferruz
Nat Biotechnol 42, 173–174 (2024)
Protein design: the experts speak
Anne Doerr
Nat Biotechnol 42, 175–178 (2024)
Machine learning for functional protein design
Pascal Notin, Nathan Rollins, Yarin Gal, Chris Sander & Debora Marks
Nat Biotechnol 42, 216–228 (2024)
Sparks of function by de novo protein design
Alexander E. Chu, Tianyu Lu & Po-Ssu Huang
Nat Biotechnol 42, 203–215 (2024) • poster
A Survey of Generative AI for De Novo Drug Design: New Frontiers in Molecule and Protein Generation
Xiangru Tang, Howard Dai, Elizabeth Knight, Fang Wu, Yunyang Li, Tianxiao Li, Mark Gerstein
arXiv:2402.08703
Security challenges by AI-assisted protein design
Philip Hunter
EMBO Rep(2024)
Opportunities and challenges in design and optimization of protein function
Dina Listov, Casper A. Goverde, Bruno E. Correia & Sarel Jacob Fleishman
Nat Rev Mol Cell Biol (2024)
The State-of-the-Art Overview to Application of Deep Learning in Accurate Protein Design and Structure Prediction
Saber Saharkhiz, Mehrnaz Mostafavi, Amin Birashk, Shiva Karimian, Shayan Khalilollah, Sohrab Jaferian, Yalda Yazdani, Iraj Alipourfard, Yun Suk Huh, Marzieh Ramezani Farani & Reza Akhavan-Sigari
Top Curr Chem (Z) 382, 23 (2024)
Computational methods for protein design
Noelia Ferruz, Amelie Stein
Protein Engineering, Design and Selection, Volume 37, 2024
Structure-based protein and small molecule generation using EGNN and diffusion models: A comprehensive review
Farzan Soleymani, Eric Paquet, Herna Lydia Viktor, Wojtek Michalowski
Computational and Structural Biotechnology Journal (2024)
Machine learning in biological physics: From biomolecular prediction to design
Jonathan Martin, Marcos Lequerica Mateos, José N. Onuchic, and Faruck Morcos
Proceedings of the National Academy of Sciences 121.27 (2024)
AI has dreamt up a blizzard of new proteins. Do any of them actually work?
Ewen Callaway
Nature 634.8034 (2024)
Five protein-design questions that still challenge AI
Sara Reardon
Nature 635.8037 (2024)
De novo protein design in the age of artificial intelligence
Nan Liu, Xiaocheng Jin, Chongzhou Yang, Ziyang Wang, Xiaoping Min, Shengxiang Ge
Sheng Wu Gong Cheng Xue Bao
Generative Models in Protein Engineering: A Comprehensive Survey
Chen Xinhui, Yiwen Yuan, Joseph Liu, Chak Tou Leong, Xiaoye Zhu, Jiaqi Chen
Neurips 2024 Workshop
A review of deep learning methods for antibodies
Jordan Graves, Jacob Byerly, Eduardo Priego, Naren Makkapati , S. Vince Parish, Brenda Medellin and Monica Berrondo
Antibodies 9.2 (2020)
Progress and challenges for the machine learning-based design of fit-for-purpose monoclonal antibodies
Rahmad Akbar, Habib Bashour, Puneet Rawat, Philippe A. Robert, Eva Smorodina, Tudor-Stefan Cotet, Karine Flem-Karlsen, Robert Frank, Brij Bhushan Mehta, Mai Ha Vu, Talip Zengin, Jose Gutierrez-Marcos, Fridtjof Lund-Johansen, Jan Terje Andersen, and Victor Greif
Mabs. Vol. 14. No. 1. Taylor & Francis, 2022
Advances in computational structure-based antibody design
Hummer, Alissa M., Brennan Abanades, and Charlotte M. Deane
Current Opinion in Structural Biology 74 (2022)
Computational and artificial intelligence-based methods for antibody development
Jisun Kim, Matthew McFee, Qiao Fang, Osama Abdin, Philip M. Kim
Trends in Pharmacological Sciences (2023)
Leveraging deep learning to improve vaccine design
Andrew P. Hederman, Margaret E. Ackerman
Trends in immunology (2023)
In Silico Approaches to Deliver Better Antibodies by Design: The Past, the Present and the Future
Andreas Evers, Shipra Malhotra, Vanita D. Sood
arXiv:2305.07488
AI Models for Protein Design are Driving Antibody Engineering
Michael Chungyoun, Jeffrey J. Gray
Current Opinion in Biomedical Engineering (2023): 100473
Computational Methods in Immunology and Vaccinology: Design and Development of Antibodies and Immunogens
Federica Guarra and Giorgio Colombo
Journal of Chemical Theory and Computation (2023)
Simplifying complex antibody engineering using machine learning
Makowski, Emily K., Hsin-Ting Chen, and Peter M. Tessier
Cell Systems 14.8 (2023)/2022 AIChE Annual Meeting. AIChE, 2022.
AI driven B-cell Immunotherapy Design
Bruna Moreira da Silva, David B. Ascher, Nicholas Geard, Douglas E. V. Pires
arXiv:2309.01122
Best practices for machine learning in antibody discovery and development
Leonard Wossnig, Norbert Furtmann, Andrew Buchanan, Sandeep Kumar, Victor Greiff
arXiv:2312.08470/Drug Discovery Today (2024)
Next generation of multispecific antibody engineering
Daniel Keri, Matt Walker, Isha Singh, Kyle Nishikawa, Fernando Garces
Antibody Therapeutics (2023): tbad027
A primer on ML in antibody engineering
ABHISHAIKE MAHAJAN
Substack • blog
Antibody design using deep learning: from sequence and structure design to affinity maturation
Sara Joubbi, Alessio Micheli, Paolo Milazzo, Giuseppe Maccari, Giorgio Ciano, Dario Cardamone, Duccio Medini
Briefings in Bioinformatics, Volume 25, Issue 4, July 2024, bbae307
AI-accelerated therapeutic antibody development: practical insights
Luca Santuari, Marianne Bachmann Salvy, Ioannis Xenarios, Bulak Arpat
Frontiers in Drug Discovery 4 (2024)
AI-driven antibody design with generative diffusion models: current insights and future directions
Xin-heng He, Jun-rui Li, James Xu, Hong Shan, Shi-yi Shen, Si-han Gao & H. Eric Xu
Acta Pharmacologica Sinica (2024)
Deep generative models for peptide design
Wan, Fangping, Daphne Kontogiorgos-Heintz, and Cesar de la Fuente-Nunez
Digital Discovery (2022)
Design of protein segments and peptides for binding to protein targets
Gupta, Suchetana, Noora Azadvari, and Parisa Hosseinzadeh
BioDesign Research 2022 (2022)
Revolutionizing peptide-based drug discovery: Advances in the post-AlphaFold era
Liwei Chang, Arup Mondal, Bhumika Singh, Yisel Martínez-Noa, Alberto Perez
Wiley Interdisciplinary Reviews: Computational Molecular Science
Peptide-based drug discovery through artificial intelligence: towards an autonomous design of therapeutic peptides
Montserrat Goles, Anamaría Daza, Gabriel Cabas-Mora, Lindybeth Sarmiento-Varón, Julieta Sepúlveda-Yañez, Hoda Anvari-Kazemabad, Mehdi D Davari, Roberto Uribe-Paredes, Álvaro Olivera-Nappa, Marcelo A Navarrete, David Medina-Ortiz
Briefings in Bioinformatics 25.4 (2024)
Improving de novo Protein Binder Design with Deep Learning
Nathaniel Bennett, Brian Coventry, Inna Goreshnik, Buwei Huang, Aza Allen, Dionne Vafeados, Ying Po Peng, Justas Dauparas, Minkyung Baek, Lance Stewart, Frank DiMaio, Steven De Munck, Savvas Savvides, David Baker
bioRxiv 2022.06.15.495993/Nat Commun 14, 2625 (2023) • code • news
A review of enzyme design in catalytic stability by artificial intelligence
Yongfan Ming, Wenkang Wang, Rui Yin, Min Zeng, Li Tang, Shizhe Tang, Min Li
Briefings in Bioinformatics, 2023
Application of "foldability" in the intelligent of enzymes engineering and design: take AlphaFold2 for example
MENG Qiaozhen, GUO Fei
Synthetic Biology Journal (2023)
AlphaFold2 and Deep Learning for Elucidating Enzyme Conformational Flexibility and Its Application for Design
Casadevall, Guillem, Cristina Duran, and Sílvia Osuna
JACS Au (2023)
Accelerating Biocatalysis Discovery with Machine Learning: A Paradigm Shift in Enzyme Engineering, Discovery, and Design
Braun Markus, Gruber Christian C, Krassnigg Andreas, Kummer Arkadij, Lutz Stefan, Oberdorfer Gustav, Siirola Elina, and Snajdrova Radka
ACS Catal. 2023
Building Enzymes through Design and Evolution
Hossack, Euan J., Florence J. Hardy, and Anthony P. Green
ACS Catalysis 13.19 (2023)
Advances in generative modeling methods and datasets to design novel enzymes for renewable chemicals and fuels
Rana A Barghout, Zhiqing Xu, Siddharth Betala, Radhakrishnan Mahadevan
Current Opinion in Biotechnology, Volume 84, 2023
Opportunites and Challenges for Machine Learning-Assisted Enzyme Engineering
Jason Yang, Francesca-Zhoufan Li, Frances H. Arnold
ACS Central Science (2024)
Navigating the landscape of enzyme design: from molecular simulations to machine learning
Jiahui Zhoua, Meilan Huang
Chemical Society Reviews (2024)
Structure Prediction and Computational Protein Design for Efficient Biocatalysts and Bioactive Proteins
Rebecca Buller, Jiri Damborsky, Donald Hilvert, Uwe Bornscheuer
Angewandte Chemie (International ed. in English)
Invert trained models with optimize algorithms through iterations for sequence design. Inverted structure prediction models are known as Hallucination.
Design of proteins presenting discontinuous functional sites using deep learning
Doug Tischer, Sidney Lisanza, Jue Wang, Runze Dong, View ORCID ProfileIvan Anishchenko, Lukas F. Milles, Sergey Ovchinnikov, David Baker
bioRxiv (2020)
Fast differentiable DNA and protein sequence optimization for molecular design
Linder, Johannes, and Georg Seelig
arXiv preprint arXiv:2005.11275 (2020)
De novo protein design by deep network hallucination
Ivan Anishchenko, Samuel J. Pellock, Tamuka M. Chidyausiku, Theresa A. Ramelot, Sergey Ovchinnikov, Jingzhou Hao, Khushboo Bafna, Christoffer Norn, Alex Kang, Asim K. Bera, Frank DiMaio, Lauren Carter, Cameron M. Chow, Gaetano T. Montelione & David Baker
Nature (2021) • code • trRosetta
Protein sequence design by conformational landscape optimization
Christoffer Norn, Basile I. M. Wicky, David Juergens, and Sergey Ovchinnikov
Proceedings of the National Academy of Sciences 118.11 (2021) • code
De novo design of small beta barrel proteins
David E. Kim, Davin R. Jensen, David Feldman, Doug Tischer and Ayesha Saleem, Cameron M. Chow, Xinting Li, Lauren Carter, Lukas Milles, Hannah Nguyen, Alex Kang, Asim K. Bera, Francis C. Peterson, Brian F. Volkman, Sergey Ovchinnikov, David Baker
PNAS(2023),e2207974120 • code
Exploring "dark matter" protein folds using deep learning
Zander Harteveld, Alexandra Van Hall-Beauvais, Irina Morozova, Joshua Southern, Casper Alexander Goverde, Sandrine Georgeon, Stephane Rosset, Andreas Loukas, Pierre Vandergheynst, Michael Bronstein, Bruno Correia
bioRxiv 2023.08.30.555621/Cell Systems • Suppplymentary • code
Carving out a Glycoside Hydrolase Active Site for Incorporation into a New Protein Scaffold Using Deep Network Hallucination
Anders Lønstrup Hansen, Frederik Friis Theisen, Ramon Crehuet, Enrique Marcos, Nushin Aghajari, and Martin Willemoës
ACS Synth. Biol. 2024
End-to-end learning of multiple sequence alignments with differentiable Smith-Waterman
Petti, Samantha, Bhattacharya, Nicholas, Rao, Roshan, Dauparas, Justas, Thomas, Neil, Zhou, Juannan, Rush, Alexander M, Koo, Peter K, Ovchinnikov, Sergey
bioRxiv (2021)/Bioinformatics, 2022;, btac724 • ColabDesign, SMURF, AF2 back propagation • our notes1, notes2 • lecture1, lecture2 • Discord
AlphaDesign: A de novo protein design framework based on AlphaFold
Jendrusch, Michael, Jan O. Korbel, and S. Kashif Sadiq
bioRxiv (2021)
Using AlphaFold for Rapid and Accurate Fixed Backbone Protein Design
Moffat, Lewis, Joe G. Greener, and David T. Jones
bioRxiv (2021)
State-of-the-art estimation of protein model accuracy using AlphaFold
James P. Roney, Sergey Ovchinnikov
bioRxiv 2022.03.11.484043/Physical Review Letters 129.23 (2022) • code
Solubility-aware protein binding peptide design using AlphaFold
Takatsugu Kosugi, Masahito Ohue
bioRxiv 2022.05.14.491955/Biomedicines 10.7 (2022) • Supplemental Materials • code
Hallucinating protein assemblies
Basile I M Wicky, Lukas F Milles, Alexis Courbet, Robert J Ragotte, Justas Dauparas, Elias Kinfu, Sam Tipps, Ryan D Kibler, Minkyung Baek, Frank DiMaio, Xinting Li, Lauren Carter, Alex Kang, Hannah Nguyen, Asim K Bera, David Baker
bioRxiv 2022.06.09.493773/Science (2022) • related slides • our notes • news
EvoBind: in silico directed evolution of peptide binders with AlphaFold
Patrick Bryant, Arne Elofsson
bioRxiv 2022.07.23.501214 • code
Hallucination of closed repeat proteins containing central pockets
Linna An, Derrick R Hicks, Dmitri Zorine, Justas Dauparas, Basile I. M. Wicky, Lukas F Milles, Alexis Courbet, Asim K. Bera, Hannah Nguyen, Alex Kang, Lauren Carter, David Baker
bioRxiv 2022.09.01.506251/Nat Struct Mol Biol 30, 1755-1760 (2023) • Supplementary data
Predicting the structure of large protein complexes using AlphaFold and Monte Carlo tree search
Patrick Bryant, Gabriele Pozzati, Wensi Zhu, Aditi Shenoy, Petras Kundrotas & Arne Elofsson
Nature communications 13.1 (2022) • gitlba, github • Supplementary data1, Supplementary data2
De novo protein design by inversion of the AlphaFold structure prediction network
Casper Goverde, Benedict Wolf, Hamed Khakzad, Stephane Rosset, Bruno E Correia
bioRxiv 2022.12.13.520346 • code • lecture1 • lecture2
Code of OpenComplex
Jingcheng, Yu and Zhaoming, Chen and Zhaoqun, Li and Mingliang, Zeng and Wenjun, Lin and He, Huang and Qiwei, Ye
code
Efficient and scalable de novo protein design using a relaxed sequence space
Christopher Josef Frank, Ali Khoshouei, Yosta de Stigter, Dominik Schiewitz, Shihao Feng, Sergey Ovchinnikov, Hendrik Dietz
bioRxiv 2023.02.24.529906 • code
Cyclic peptide structure prediction and design using AlphaFold
Stephen A. Rettie, Katelyn V. Campbell, Asim K. Bera, Alex Kang, Simon Kozlov, Joshmyn De La Cruz, Victor Adebomi, Guangfeng Zhou, Frank DiMaio, Sergey Ovchinnikov, Gaurav Bhardwaj
bioRxiv • Code • Supplementary
De novo design of luciferases using deep learning
Andy Hsien-Wei Yeh, Christoffer Norn, Yakov Kipnis, Doug Tischer, Samuel J. Pellock, Declan Evans, Pengchen Ma, Gyu Rie Lee, Jason Z. Zhang, Ivan Anishchenko, Brian Coventry, Longxing Cao, Justas Dauparas, Samer Halabiya, Michelle DeWitt, Lauren Carter, K. N. Houk & David Baker
Nature • Code • Supplementary Materials
In silico evolution of protein binders with deep learning models for structure prediction and sequence design
Odessa J Goudy, Amrita Nallathambi, Tomoaki Kinjo, Nicholas Randolph, Brian Kuhlman
bioRxiv 2023.05.03.539278 • Supplementary • code
Computational design of soluble analogues of integral membrane protein structures
Casper Alexander Goverde, Martin Pacesa, Lars Jeremy Dornfeld, Sandrine Georgeon, Stephane Rosset, Justas Dauparas, Christian Shellhaas, Simon Kozlov, David Baker, Sergey Ovchinnikov, Bruno Correia
bioRxiv 2023.05.09.540044/Nature (2024) • code • Supplementary
Antibody Complementarity-Determining Region Sequence Design using AlphaFold2 and Binding Affinity Prediction Model
Takafumi Ueki, Masahito Ohue
bioRxiv 2023.06.02.543382
Context-Dependent Design of Induced-fit Enzymes using Deep Learning Generates Well Expressed, Thermally Stable and Active Enzymes
Lior Zimmerman, Noga Alon, Itay Levin, Anna Koganitsky, Nufar Shpigel, Chen Brestel, Gideon David Lapidoth
bioRxiv 2023.07.27.550799 • Supplementary
Highly accurate and robust protein sequence design with CarbonDesign/Accurate and robust protein sequence design with CarbonDesign
Milong Ren, Chungong Yu, Dongbo Bu, Haicang Zhang
bioRxiv 2023.08.07.552204/Nat Mach Intell 6, 536–547 (2024) • code
Design of Cyclic Peptides Targeting Protein-Protein Interactions using AlphaFold
Takatsugu Kosugi, Masahito Ohue
bioRxiv 2023.08.20.554056 • Supplementary • code
MetaPPI: In Silico Screen for Novel CRBN-based Substrates
neoxbio
website • news • masif-based • commercial
AlphaFold Distillation for Protein Design
Anonymous
ICLR 2024 • code
High-throughput computational discovery of inhibitory protein fragments with AlphaFold
Andrew Savinov, Sebastian Swanson, Amy E. Keating, Gene-Wei Li
bioRxiv 2023.12.19.572389 • code
An integrative approach to protein sequence design through multiobjective optimization
Lu Hong, Tanja Kortemme
bioRxiv 2024.03.01.582670/PLOS Computational Biology 20(7) • code • Supplementary
Protein Design Using Structure-Prediction Networks: AlphaFold and RoseTTAFold as Protein Structure Foundation Models
Jue Wang, Joseph L. Watson and Sidney L. Lisanza
Cold Spring Harbor Perspectives in Biology(2024)
Context-dependent design of induced-fit enzymes using deep learning generates well-expressed, thermally stable and active enzymes
Lior Zimmerman, Noga Alon, Itay Levin, and Gideon D. Lapidoth
Proceedings of the National Academy of Sciences 121.11(2024)
Design of Repeat Alpha-Beta Proteins with Capping Helices
Dmitri Zorine, David Baker
bioRxiv 2024.06.15.590358 • code
Design of linear and cyclic peptide binders of different lengths only from a protein target sequence
Qiuzhen Li, Efstathios Nikolaos Vlachos, Patrick Bryant
bioRxiv 2024.06.20.599739 • code • Supplementary
BindCraft: one-shot design of functional protein binders
Martin Pacesa, Lennart Nickel, Joseph Schmidt, Ekaterina Pyatova, Christian Schellhaas, Lucas Kissling, Ana Alcaraz-Serna, Yehlin Cho, Kourosh H. Ghamary, Laura Vinue, Brahm J. Yachnin, Andrew M. Wollacott, Stephen Buckley, Sandrine Georgeon, Casper A. Goverde, Georgios N. Hatzopoulos, Pierre Gonczy, Yannick D. Muller, Gerald Schwank, Sergey Ovchinnikov, Bruno E. Correia
bioRxiv 2024.09.30.615802 • code
Design of linear and cyclic peptide binders of different lengths from protein sequence information
Qiuzhen Li, Efstathios Nikolaos Vlachos, Patrick Bryant
bioRxiv 2024.06.20.599739 • code
Scalable protein design using optimization in a relaxed sequence space
Christopher Frank, Ali Khoshouei , Lara Fub , Dominik Schiwietz , Dominik Putz, Lara Weber, Zhixuan Zhao, Motoyuki Hattori, Shihao Feng, Yosta de Stigter, Sergey Ovchinnikov, Hendrik Dietz
Science386,439-445(2024) • code
Alphafold2 refinement improves designability of large de novo proteins
Christopher Josef Frank, Dominik Schiwietz, Lara Fuss, Sergey Ovchinnikov, Hendrik Dietz
bioRxiv 2024.11.21.624687 • colab
Design in the DARK: Learning Deep Generative Models for De Novo Protein Design
Moffat, Lewis, Shaun M. Kandathil, and David T. Jones
bioRxiv (2022) • DMPfold2
AutoFoldFinder: An Automated Adaptive Optimization Toolkit for De Novo Protein Fold Design
Shuhao Zhang, Youjun Xu, Jianfeng Pei, Luhua Lai
NeurIPS 2021
Protein language models trained on multiple sequence alignments learn phylogenetic relationships
Damiano Sgarbossa, Umberto Lupo, Anne-Florence Bitbol
arXiv preprint arXiv:2203.15465 (2022)/bioRxiv 2022.04.14.488405
EvoOpt: an MSA-guided, fully unsupervised sequence optimization pipeline for protein design
Hideki Yamaguchi, Yutaka Saito
NeurIPS 2022
Generative power of a protein language model trained on multiple sequence alignments
Sgarbossa, Damiano, Umberto Lupo, and Anne-Florence Bitbol
Elife 12 (2023): e79854 • code
Towards deep learning models for target-specific antibody design
Sai Pooja Mahajan, Jeffrey Ruffolo, Rahel Frick, Jeffrey J. Gray
Biophysical Journal 121.3 (2022) • DeepAb • lecture
Hallucinating structure-conditioned antibody libraries for target-specific binders
Sai Pooja Mahajan, Jeffrey A Ruffolo, Rahel Frick, Jeffrey J. Gray
bioRxiv 2022.06.06.494991/Front. Immunol. 13:999034 • Supplementary • code
News of TRDesign
TIANRANG XLab
paper unavailable • slides • website • commercial • news
Multi-segment preserving sampling for deep manifold sampler
Daniel Berenberg, Jae Hyeon Lee, Simon Kelow, Ji Won Park, Andrew Watkins, Vladimir Gligorijević, Richard Bonneau, Stephen Ra, Kyunghyun Cho
arXiv preprint arXiv:2205.04259 (2022)
Preference optimization of protein language models as a multi-objective binder design paradigm
Pouria Mistani, Venkatesh Mysore
arXiv:2403.04187
HMAMP: Hypervolume-Driven Multi-Objective Antimicrobial Peptides Design
Li Wang, Yiping Li, Xiangzheng Fu, Xiucai Ye, Junfeng Shi, Gary G. Yen, Xiangxiang Zeng
arXiv:2405.00753
Generating novel protein sequences using Gibbs sampling of masked language models
Sean R. Johnson, Sarah Monaco, Kenneth Massie, Zaid Syed
bioRxiv 2021.01.26.428322 • code
A high-level programming language for generative protein design
Brian Hie, Salvatore Candido, Zeming Lin, Ori Kabeli, Roshan Rao, Nikita Smetanin, Tom Sercu, Alexander Rives
bioRxiv 2022.12.21.521526
Language models generalize beyond natural proteins
Robert Verkuil, Ori Kabeli, Yilun Du, Basile IM Wicky, Lukas F Milles, Justas Dauparas, David Baker, Sergey Ovchinnikov, Tom Sercu, Alexander Rives
bioRxiv 2022.12.21.521521
ESMFold Hallucinates Native-Like Protein Sequences
Jeliazko R Jeliazkov, Diego del Alamo, Joel D Karpiak
bioRxiv 2023.05.23.541774
Protein Language Model Supervised Precise and Efficient Protein Backbone Design Method
Bo Zhang, Kexin Liu, Zhuoqi Zheng, Yunfeiyang Liu, Junxi Mu, Ting Wei, Hai-Feng Chen
bioRxiv 2023.10.26.564121 • code • Supplementary
Unexplored regions of the protein sequence-structure map revealed at scale by a library of foldtuned language models
Arjuna M. Subramanian, Matt Thomson
bioRxiv 2023.12.22.573145
Computational scoring and experimental evaluation of enzymes generated by neural networks
Sean R. Johnson, Xiaozhi Fu, Sandra Viknander, Clara Goldin, Sarah Monaco, Aleksej Zelezniak & Kevin K. Yang
Nature Biotechnology (2024) • code
Exploring Latent Space for Generating Peptide Analogs Using Protein Language Models
Po-Yu Liang, Xueting Huang, Tibo Duran, Andrew J. Wiemer, Jun Bai
arXiv:2408.08341 • code
Designing diverse and high-performance proteins with a large language model in the loop
Carlos A. Gomez-Uribe, Japheth Gado, Meiirbek Islamov
bioRxiv 2024.10.25.620340
AdaLead: A simple and robust adaptive greedy search algorithm for sequence design
Sam Sinai, Richard Wang, Alexander Whatley, Stewart Slocum, Elina Locane, Eric D. Kelsic
arXiv preprint arXiv:2010.02141 (2020) • code
Autofocused oracles for model-based design
Fannjiang, Clara, and Jennifer Listgarten
Advances in Neural Information Processing Systems 33 (2020)
An Efficient MCMC Approach to Energy Function Optimization in Protein Structure Prediction
Lakshmi A. Ghantasala, Risi Jaiswal, Supriyo Datta
arXiv:2211.03193
Plug & Play Directed Evolution of Proteins with Gradient-based Discrete MCMC
Patrick Emami, Aidan Perreault, Jeffrey Law, David Biagioni, Peter St. Joh
NeurIPS 2022/arXiv:2212.09925
Importance Weighted Expectation-Maximization for Protein Sequence Design
Zhenqiao Song, Lei Li
arXiv:2305.00386 • Supplementary
Simultaneous enhancement of multiple functional properties using evolution-informed protein design
Benjamin Fram, Ian Truebridge, Yang Su, Adam J. Riesselman, John B. Ingraham, Alessandro Passera, Eve Napier, Nicole N. Thadani, Samuel Lim, Kristen Roberts, Gurleen Kaur, Michael Stiffler, Debora S. Marks, Christopher D. Bahl, Amir R. Khan, Chris Sander, Nicholas P. Gauthier
bioRxiv (2023): 2023-05
Optimizing protein fitness using Gibbs sampling with Graph-based Smoothing
Andrew Kirjner, Jason Yim, Raman Samusevich, Tommi Jaakkola, Regina Barzilay, Ila Fiete
arXiv:2307.00494 • code
These models design backbone/scaffold/template in Cartesian coordinates, contact maps, distance maps and φ & ψ angles. Including conditional/unconditional generative models.
Generative modeling for protein structures
Anand, Namrata, and Possu Huang
NeurIPS 2018
Fully differentiable full-atom protein backbone generation
Anand Namrata, Raphael Eguchi, and Po-Ssu Huang
OpenReview ICLR 2019 workshop DeepGenStruct • without code
RamaNet: Computational de novo helical protein backbone design using a long short-term memory generative neural network
Sabban, Sari, and Mikhail Markovsky
F1000Research 9 (2020) • code • pyRosetta • tensorflow • maximizaing the fluorescence of a protein
A Generative Model for Creating Path Delineated Helical Proteins
Nicholas B. Woodall, Ryan Kibler, Basile Wicky, Brian Coventry
bioRxiv 2023.05.24.542095 • code
Conditioning by adaptive sampling for robust design
Brookes, David, Hahnbeom Park, and Jennifer Listgarten
International conference on machine learning. PMLR, 2019 • without code
IG-VAE: generative modeling of immunoglobulin proteins by direct 3D coordinate generation
Raphael R. Eguchi, Christian A. Choe, Po-Ssu Huang
Biorxiv (2020) • without code
Generating tertiary protein structures via an interpretative variational autoencoder
Xiaojie Guo, Yuanqi Du, Sivani Tadepalli, Liang Zhao, Amarda Shehu
arXiv preprint arXiv:2004.07119 (2020) • code not available
Deep sharpening of topological features for de novo protein design
Zander Harteveld, Joshua Southern, Michaël Defferrard, Andreas Loukas, Pierre Vandergheynst, Micheal Bronstein, Bruno Correia
ICLR2022 Machine Learning for Drug Discovery. 2022 • code not available
End-to-End deep structure generative model for protein design
Boqiao Lai, matthew McPartlon, Jinbo Xu
bioRxiv 2022.07.09.499440
Deep Generative Design of Epitope-Specific Binding Proteins by Latent Conformation Optimization
Raphael R Eguchi, Christian A Choe, Udit Parekh, Irene S Khalek, Michael D Ward, Neha Vithani, Gregory R Bowman, Joseph G Jardine, Possu Huang
bioRxiv 2022.12.22.521698
Leveraging Deep Generative Model For Computational Protein Design And Optimization
Boqiao Lai
arXiv:2408.17241 • PhD thesis
Function-guided protein design by deep manifold sampling
Vladimir Gligorijevic, Stephen Ra, Daniel Berenberg, Richard Bonneau, Kyunghyun Cho
NeurIPS 2021 • without code
A backbone-centred energy function of neural networks for protein design
Bin Huang, Yang Xu, Xiuhong Hu, Yongrui Liu, Shanhui Liao, Jiahai Zhang, Chengdong Huang, Jingjun Hong, Quan Chen & Haiyan Liu
Nature (2022) • code
De novo Design of Cavity-Containing Proteins with a Backbone-Centered Neural Network Energy Function
Yang Xu, Xiuhong Hu, Chenchen Wang, Yongrui Liu, Quan Chen
Haiyan Liu
Structure (2024)
Diffusion probabilistic modeling of protein backbones in 3D for the motif-scaffolding problem
Brian L. Trippe, Jason Yim, Doug Tischer, Tamara Broderick, David Baker, Regina Barzilay, Tommi Jaakkola
arXiv:2206.04119/NeurIPS 2022/ICLR 2023 • poster • Supplementary • code
ProteinSGM: Score-based generative modeling for de novo protein design
Jin Sub Lee, Philip M Kim
bioRxiv 2022.07.13.499967/Nat Comput Sci (2023) • code
Protein structure generation via folding diffusion
Kevin E. Wu, Kevin K. Yang, Rianne van den Berg, James Y. Zou, Alex X. Lu, Ava P. Amini
arXiv:2209.15611/Nat Commun 15, 1059 (2024) • code
Generating Novel, Designable, and Diverse Protein Structures by Equivariantly Diffusing Oriented Residue Clouds
Yeqing Lin, Mohammed AlQuraishi
arXiv:2301.12485v3 • code • news
SE(3) diffusion model with application to protein backbone generation
Jason Yim, Brian L. Trippe, Valentin De Bortoli, Emile Mathieu, Arnaud Doucet, Regina Barzilay, Tommi Jaakkola
arXiv:2302.02277/ICLR 2023 • code • Supplementary
A Latent Diffusion Model for Protein Structure Generation
Cong Fu, Keqiang Yan, Limei Wang, Wing Yee Au, Michael McThrow, Tao Komikado, Koji Maruhashi, Kanji Uchino, Xiaoning Qian, Shuiwang Ji
arXiv:2305.04120
Practical and Asymptotically Exact Conditional Sampling in Diffusion Models
Luhuan Wu, Brian L. Trippe, Christian A. Naesseth, David M. Blei, John P. Cunningham
arXiv:2306.17775 • code
Dynamics-Informed Protein Design with Structure Conditioning
Simon V. Mathis, Urszula Julia Komorowska, Mateja Jamnik, Pietro Lió
WCBICML2023/ICLR 2024
ForceGen: End-to-end de novo protein generation based on nonlinear mechanical unfolding responses using a protein language diffusion model
Bo Ni and David L. Kaplan and M. Buehler
arXiv:2310.10605/Science Advances 10.6 (2024) • Supplementary • code
DiffSDS: A geometric sequence diffusion model for protein backbone inpainting
Anonymous
ICLR 2024/arXiv:2301.09642
A framework for conditional diffusion modelling with applications in motif scaffolding for protein design
Kieran Didi, Francisco Vargas, Simon V Mathis, Vincent Dutordoir, Emile Mathieu, Urszula J Komorowska, Pietro Lio
arXiv:2312.09236
TopoDiff: Improving Protein Backbone Generation with Topology-aware Latent Encoding
Yuyang Zhang, Zihui (Zinnia) Ma, Haipeng Gong
bioRxiv 2023.12.13.571602
Improved motif-scaffolding with SE(3) flow matching
Jason Yim, Andrew Campbell, Emile Mathieu, Andrew Y. K. Foong, Michael Gastegger, José Jiménez-Luna, Sarah Lewis, Victor Garcia Satorras, Bastiaan S. Veeling, Frank Noé, Regina Barzilay, Tommi S. Jaakkola
arXiv:2401.04082/TMLR • code1,code2
DiffTopo: Fold exploration using coarse grained protein topology representations
Yangyang Miao, Bruno Correia
bioRxiv 2024.02.01.578456/ICLR 2024
Diffusion models in protein structure and docking
Jason Yim, Hannes Stärk, Gabriele Corso, Bowen Jing, Regina Barzilay, Tommi S. Jaakkola
Wiley Interdisciplinary Reviews: Computational Molecular Science 14.2 (2024) • review
De novo antibody design with SE(3) diffusion
Daniel Cutting, Frédéric A. Dreyer, David Errington, Constantin Schneider, Charlotte M. Deane
arXiv:2405.07622
Out of Many, One: Designing and Scaffolding Proteins at the Scale of the Structural Universe with Genie 2
Yeqing Lin, Minji Lee, Zhao Zhang, Mohammed AlQuraishi
arXiv:2405.15489 • code • news
Diffuse StructGen-1 (DSG-1)
the Diffuse team
technical appendix • commercial
Floating Anchor Diffusion Model for Multi-motif Scaffolding
Ke Liu, Weian Mao, Shuaike Shen, Xiaoran Jiao, Zheng Sun, Hao Chen, Chunhua Shen
ICML 2024/arXiv:2406.03141 • code • poster
De novo Design of A Fusion Protein Tool for GPCR Research
Kaixuan Gao, Xin Zhang, Jia Nie, Hengyu Meng, Weishe Zhang, Boxue Tian, Xiangyu Liu
bioRxiv 2024.09.14.613090 • Supplementary • RFdiffusion-based
Text2Protein: A Generative Model for Designated Protein Design on Given Description
Ramtin Hosseini, Siyang Zhang, Pengtao Xie
PREPRINT (Version 1) available at Research Square • code
Improving diffusion-based protein backbone generation with global-geometry-aware latent encoding
Yuyang Zhang, Yuhang Liu, Zinnia Ma, Min Li, Chunfu Xu, Haipeng Gong
bioRxiv 2024.10.05.616664 • code
Diffusion Posterior Sampling via Sequential Monte Carlo for Zero-Shot Scaffolding of Protein Motifs
Young, James Matthew Uygongco, and Omer Deniz Akyildiz
Imperial CollegeofScience, Technology and Medicine, 2024 • code • Master thesis • Genie-based
Protein A-like Peptide Design Based on Diffusion and ESM2 Models
Long Zhao, Qiang He, Huijia Song, Huijia Song,Tianqian Zhou, An Luo, Zhenguo Wen,Teng Wang, and Xiaozhu Lin
Molecules 29.20 (2024) • code
FoldMark: Protecting Protein Generative Models with Watermarking
Zaixi Zhang, Ruofan Jin, Kaidi Fu, Le Cong, Marinka Zitnik, Mengdi Wang
arXiv:2410.20354 • code
ProteinWeaver: A Divide-and-Assembly Approach for Protein Backbone Design
Yiming Ma, Fei Ye, Yi Zhou, Zaixiang Zheng, Dongyu Xue, Quanquan Gu
arXiv:2411.16686
On Diffusion Posterior Sampling via Sequential Monte Carlo for Zero-Shot Scaffolding of Protein Motifs
James Matthew Young, O. Deniz Akyildiz
arXiv:2412.05788 • code
Top-down design of protein nanomaterials with reinforcement learning
Isaac D Lutz, Shunzhi Wang, Christoffer Norn, Andrew J Borst, Yan Ting Zhao, Annie Dosey, Longxing Cao, Zhe Li, Minkyung Baek, Neil P King, Hannele Ruohola-Baker, David Baker
bioRxiv 2022.09.25.509419/Science380, 266-273(2023) • code,code2
Model-based reinforcement learning for protein backbone design
Frederic Renard, Cyprien Courtot, Alfredo Reichlin, Oliver Bent
arXiv:2405.01983
SE(3)-Stochastic Flow Matching for Protein Backbone Generation
Avishek Joey Bose, Tara Akhound-Sadegh, Kilian Fatras, Guillaume Huguet, Jarrid Rector-Brooks, Cheng-Hao Liu, Andrei Cristian Nica, Maksym Korablyov, Michael Bronstein, Alexander Tong
arXiv:2310.02391/ICLR 2024
Fast protein backbone generation with SE(3) flow matching
Jason Yim, Andrew Campbell, Andrew Y. K. Foong, Michael Gastegger, José Jiménez-Luna, Sarah Lewis, Victor Garcia Satorras, Bastiaan S. Veeling, Regina Barzilay, Tommi Jaakkola, Frank Noé
arXiv:2310.05297 • code
Sequence-Augmented SE(3)-Flow Matching For Conditional Protein Backbone Generation
Guillaume Huguet, James Vuckovic, Kilian Fatras, Eric Thibodeau-Laufer, Pablo Lemos, Riashat Islam, Cheng-Hao Liu, Jarrid Rector-Brooks, Tara Akhound-Sadegh, Michael Bronstein, Alexander Tong, Avishek Joey Bose
arXiv:2405.20313/NeurIPS 2024 • website • lecture
Design of Ligand-Binding Proteins with Atomic Flow Matching
Junqi Liu, Shaoning Li, Chence Shi, Zhi Yang, Jian Tang
arXiv:2409.12080
Score-Based Generative Models for Designing Binding Peptide Backbones
John D Boom, Matthew Greenig, Pietro Sormanni, Pietro Liò
arXiv:2310.07051 • code
Building Confidence in Deep Generative Protein Design
Tianyuan Zheng, Alessandro Rondina, Pietro Liò
arXiv:2411.18568 • code
Identify amino sequence from given backbone/scaffold/template constrains: torsion angles(φ & ψ), backbone angles(θ and τ), backbone dihedrals (φ, ψ & ω), backbone atoms (Cα, N, C, & O), Cα − Cα distance, unit direction vectors of Cα−Cα, Cα−N & Cα−C, etc(aka. inverse folding). Referred from here. Energy-based models are also inculded for task of rotamer conformation(χ angles or atom coordinates) recovery.
Protein sequence design on given backbones with deep learning
Yufeng Liu, Haiyan Liu
Protein Engineering, Design and Selection, 2023
Multi-indicator comparative evaluation for deep Learning-Based protein sequence design methods
Jinyu Yu, Junxi Mu, Ting Wei, Hai-Feng Chen
Bioinformatics, 2024;, btae037
Generative AI for Controllable Protein Sequence Design: A Survey
Yiheng Zhu, Zitai Kong, Jialu Wu, Weize Liu, Yuqiang Han, Mingze Yin, Hongxia Xu, Chang-Yu Hsieh, Tingjun Hou
arXiv:2402.10516
3D representations of amino acids-applications to protein sequence comparison and classification
Li, Jie, and Patrice Koehl
Computational and structural biotechnology journal 11.18 (2014) • 2014
Direct prediction of profiles of sequences compatible with a protein structure by neural networks with fragment-based local and energy-based nonlocal profiles
Zhixiu Li, Yuedong Yang, Eshel Faraggi, Jian Zhan, Yaoqi Zhou
Proteins: Structure, Function, and Bioinformatics 82.10 (2014) • code unavailable
SPIN2: Predicting sequence profiles from protein structures using deep neural networks
James O'Connell, Zhixiu Li, Jack Hanson, Rhys Heffernan, James Lyons, Kuldip Paliwal, Abdollah Dehzangi, Yuedong Yang, Yaoqi Zhou
Proteins: Structure, Function, and Bioinformatics 86.6 (2018) • code unavailable
Computational protein design with deep learning neural networks
Jingxue Wang, Huali Cao, John Z. H. Zhang & Yifei Qi
Scientific reports 8.1 (2018) • code unavailable
Ligand-aware protein sequence design using protein self contacts
Jody Mou, Benjamin Fry, Chun-Chen Yao, Nicholas Polizzi
NeurIPS 2022
SeqPredNN: a neural network that generates protein sequences that fold into specified tertiary structures
Lategan, F. Adriaan, Caroline Schreiber, and Hugh G. Patterton
BMC bioinformatics 24.1 (2023) • code
Design of metalloproteins and novel protein folds using variational autoencoders
Greener, Joe G., Lewis Moffat, and David T. Jones
Scientific reports 8.1 (2018)
To improve protein sequence profile prediction through image captioning on pairwise residue distance map
Sheng Chen, Zhe Sun, Lihua Lin, Zifeng Liu, Xun Liu, Yutian Chong, Yutong Lu, Huiying Zhao, and Yuedong Yang
Journal of chemical information and modeling 60.1 (2019) • SPROF
Deep learning of Protein Sequence Design of Protein-protein Interactions
Syrlybaeva, Raulia, and Eva-Maria Strauch
bioRxiv (2022)/Bioinformatics, 2022;, btac733 • Supplementary • code
A structure-based deep learning framework for protein engineering
Raghav Shroff, Austin W. Cole, Barrett R. Morrow, Daniel J. Diaz, Isaac Donnell, Jimmy Gollihar, Andrew D. Ellington, Ross Thyer
bioRxiv (2019)
ProDCoNN: Protein design using a convolutional neural network
Yuan Zhang, Yang Chen, Chenran Wang, Chun-Chao Lo, Xiuwen Liu, Wei Wu, Jinfeng Zhang
Proteins: Structure, Function, and Bioinformatics 88.7 (2020) • code unavailable
Protein sequence design with a learned potential
Namrata Anand, Raphael Eguchi, Irimpan I. Mathews, Carla P. Perez, Alexander Derry, Russ B. Altman & Po-Ssu Huang
Nacture Communications (2022) • code
TIMED-Design: Flexible and Accessible Protein Sequence Design with Convolutional Neural Networks
Leonardo V Castorina, Suleyman Mert Ünal, Kartic Subr, Christopher W Wood
Protein Engineering, Design and Selection, 2024) • code • website
Biosensor and machine learning-aided engineering of an amaryllidaceae enzyme
Simon d’Oelsnitz, Daniel J. Diaz, Wantae Kim, Daniel J. Acosta, Tyler L. Dangerfield, Mason W. Schechter, Matthew B. Minus, James R. Howard, Hannah Do, James M. Loy, Hal S. Alper, Y. Jessie Zhang & Andrew D. Ellington
Nature Communications 15.1 (2024) • code1, code2
OPUS-Design: Designing Protein Sequence from Backbone Structure with 3DCNN and Protein Language Model
Gang Xu, Yulu Yang, Yiqiu Zhang, Qinghua Wang, Jianpeng Ma
bioRxiv 2024.08.20.608889 • code
ProBID-Net: A Deep Learning Model for Protein-Protein Binding Interface Design
Zhihang Chen, Menglin Ji, Jie Qiana, Zhe Zhang, Xiangying Zhang, Haotian Gao, Haojie Wang, Renxiao Wang, Yifei Qi
Chemical Science (2024) • code
Learning from protein structure with geometric vector perceptrons
Bowen Jing, Stephan Eismann, Patricia Suriana, Raphael J.L. Townshend, Ron Dror
arXiv preprint arXiv:2009.01411 (2020)/ICLR(2021) • GVP
Fast and flexible protein design using deep graph neural networks
Alexey Strokach, David Becerra, Carles Corbi-Verge, Albert Perez-Riba, Philip M. Kim
Cell Systems (2020) • code::ProteinSolver
Mimetic Neural Networks: A unified framework for Protein Design and Folding
Moshe Eliasof, Tue Boesen, Eldad Haber, Chen Keasar, Eran Treister
arXiv:2102.03881/Front. Bioinform. 2:715006
TERMinator: A Neural Framework for Structure-Based Protein Design using Tertiary Repeating Motifs
Alex J. Li, Vikram Sundar, Gevorg Grigoryan, Amy E. Keating
NeurIPS 2021 / arXiv (2022)
A neural network model for prediction of amino-acid probability from a protein backbone structure
Shintaro Minami, Koya Sakuma, Naoya Kobayashi
Unpublished yet (June 2021)• GCNdesgin
XENet: Using a new graph convolution to accelerate the timeline for protein design on quantum computers
Jack B Maguire, Daniele Grattarola, Vikram Khipple Mulligan, Eugene Klyshko, Hans Melo
PLoS computational biology 17.9 (2021)
AlphaDesign: A graph protein design method and benchmark on AlphaFoldDB
Gao, Zhangyang, Cheng Tan, and Stan Li
arXiv preprint arXiv:2202.01079 (2022) • code
Generative De Novo Protein Design with Global Context
Cheng Tan, Zhangyao Gao, Jun Xia and Stan Z. Li
arXiv • Apr 2022 • code
Masked inverse folding with sequence transfer for protein representation learning
Kevin K Yang, Hugh Yeh, Niccolò Zanichelli
bioRxiv 2022.05.25.493516/Protein Engineering, Design and Selection 36 (2023) • code • model
Robust deep learning based protein sequence design using ProteinMPNN
Justas Dauparas, Ivan Anishchenko, Nathaniel Bennett, Hua Bai, Robert J. Ragotte, Lukas F. Milles, Basile I. M. Wicky, Alexis Courbet, Robbert J. de Haas, Neville Bethel, Philip J. Y. Leung, Timothy F. Huddy, Sam Pellock, Doug Tischer, Frederick Chan, Brian Koepnick, Hannah Nguyen, Alex Kang, Banumathi Sankaran, Asim Bera, Neil P. King, David Baker
bioRxiv 2022.06.03.494563/Science (2022) • code • hugging face • lecture • colab(in_jax) • ProteinMPNN+ESMFold
Antibody-Antigen Docking and Design via Hierarchical Equivariant Refinement
Jin, Wengong, Regina Barzilay, and Tommi Jaakkola
arXiv preprint arXiv:2207.06616 (2022)/International Conference on Machine Learning. PMLR, 2022 • code • poster
Neural Network-Derived Potts Models for Structure-Based Protein Design using Backbone Atomic Coordinates and Tertiary Motifs
Alex J. Li, Mindren Lu, Israel Desta, Vikram Sundar, Gevorg Grigoryan, and Amy E. Keating
bioRxiv 2022.08.02.501736/Protein Science, 32(2)
SE(3) Equivalent Graph Attention Network as an Energy-Based Model for Protein Side Chain Conformation
Deqin Liu, Sheng Chen, Shuangjia Zheng, Sen Zhang, Yuedong Yang
bioRxiv 2022.09.05.506704 • code
PiFold: Toward effective and efficient protein inverse folding
Zhangyang Gao, Cheng Tan, Stan Z. Li
arXiv:2209.12643v2/ICLR 2023 • github
Protein Sequence Design by Entropy-based Iterative Refinement
Xinyi Zhou, Guangyong Chen, Junjie Ye, Ercheng Wang, Jun Zhang, Cong Mao, Zhanwei Li, Jianye Hao, Xingxu Huang, Jin Tang, Pheng Ann Heng
bioRxiv 2023.02.04.527099
Lightweight Contrastive Protein Structure-Sequence Transformation
Jiangbin Zheng, Ge Wang, Yufei Huang, Bozhen Hu, Siyuan Li, Cheng Tan, Xinwen Fan, Stan Z. Li
arXiv:2303.11783
Modeling Protein Structure Using Geometric Vector Field Networks
Weian Mao, Muzhi Zhu, Hao Chen, Chunhua Shen
bioRxiv 2023.05.07.539736
Knowledge-Design: Pushing the Limit of Protein Deign via Knowledge Refinement
Zhangyang Gao, Cheng Tan, Stan Z. Li
arXiv:2305.15151/ICLR • code
SPIN-CGNN: Improved fixed backbone protein design with contact map-based graph construction and contact graph neural network
Xing Zhang, Hongmei Yin, Fei Ling, Jian Zhan, Yaoqi Zhou
bioRxiv 2023.07.07.548080/PLOS Computational Biology • code
ZetaDesign: an end-to-end deep learning method for protein sequence design and side-chain packing
Junyu Yan and others
Briefings in Bioinformatics, 2023 • code
Contextual protein encodings from equivariant graph transformers
Sai Pooja Mahajan, Jeffrey A. Ruffolo, Jeffrey J. Gray
bioRxiv 2023.07.15.549154 • code
Robust Design of Effective Allosteric Activators for Rsp5 E3 Ligase Using the Machine Learning Tool ProteinMPNN
Hsi-Wen Kao, Wei-Lin Lu, Meng-Ru Ho, Yu-Fong Lin, Yun-Jung Hsieh, Tzu-Ping Ko, Shang-Te Danny Hsu, and Kuen-Phon Wu
ACS Synthetic Biology (2023) • Supplementary
Rapid and automated design of two-component protein nanomaterials using ProteinMPNN
Robbert J. de Haas, Natalie Brunette, Alex Goodson, Justas Dauparas, Sue Y. Yi, Erin C. Yang, Quinton Dowling, Hannah Nguyen, Alex Kang, Asim K. Bera, Banumathi Sankaran, Renko de Vries, David Baker, Neil P. King
bioRxiv 2023.08.04.551935/Proceedings of the National Academy of Sciences 121.(13)
• Supplementary • data
Rationally seeded computational protein design
Katherine I. Albanese, Rokas Petrenas, Fabio Pirro, Elise A. Naudin, Ufuk Borucu, William M. Dawson, D. Arne Scott, Graham J. Leggett, Orion D. Weiner, Thomas A. A. Oliver, Derek N. Woolfson
bioRxiv 2023.08.25.554789 • code
Computational design of sequence-specific DNA-binding proteins
Cameron J Glasscock, Robert Pecoraro, Ryan McHugh, Lindsey A. Doyle, Wei Chen, Olivier Boivin, Beau Lonnquist, Emily Na, Yuliya Politanska, Hugh K Haddox, David Cox, Christoffer Norn, Brian Coventry, Inna Goreshnik, Dionne Vafeados, Gyu Rie Lee, Raluca Gordan, Barry L Stoddard, Frank DiMaio, David Baker
bioRxiv 2023.09.20.558720 • Supplementary
Improving protein expression, stability, and function with ProteinMPNN
Kiera H. Sumida, Reyes Núñez Franco, Indrek Kalvet, Samuel J. Pellock, Basile I. M. Wicky, Lukas F. Milles, Justas Dauparas, Jue Wang, Yakov Kipnis, Noel Jameson, Alex Kang, Joshmyn De La Cruz, Banumathi Sankaran, Asim K Bera, Gonzalo Jimenez Oses, David Baker
bioRxiv 2023.10.03.560713/J. Am. Chem. Soc. 2024 • Supplementary
A Suite of Designed Protein Cages Using Machine Learning Algorithms and Protein Fragment-Based Protocols
Kyle Meador, Roger Castells-Graells, Roman Aguirre, Michael R. Sawaya, Mark A. Arbing, Trent Sherman, Chethaka Senarathne, Todd O. Yeates
bioRxiv 2023.10.09.561468 • code • colab
PROTEIN DESIGNER BASED ON SEQUENCE PROFILE USING ULTRAFAST SHAPE RECOGNITION
Anonymous
ICLR 2024
Inverse folding for antibody sequence design using deep learning
Frédéric A. Dreyer, Daniel Cutting, Constantin Schneider, Henry Kenlay, Charlotte M. Deane
arXiv:2310.19513
De novo design of allosterically switchable protein assemblies
Arvind Pillai, Abbas Idris, Annika Philomin, Connor Weidle, Rebecca Skotheim, Philip J. Y. Leung, Adam Broerman, Cullen Demakis, Andrew J. Borst, Florian Praetorius, David Baker
bioRxiv 2023.11.01.565167/Nature (2024) • code • data
ProRefiner: an entropy-based refining strategy for inverse protein folding with global graph attention
Xinyi Zhou, Guangyong Chen, Junjie Ye, Ercheng Wang, Jun Zhang, Cong Mao, Zhanwei Li, Jianye Hao, Xingxu Huang, Jin Tang, Pheng Ann Heng
Nature Communications • Supplementary • code
Engineered immunogens to elicit antibodies against conserved coronavirus epitopes
A. Brenda Kapingidza, Daniel J. Marston, Caitlin Harris, Daniel Wrapp, Kaitlyn Winters, Dieter Mielke, Lu Xiaozhi, Qi Yin, Andrew Foulger, Rob Parks, Maggie Barr, Amanda Newman, Alexandra Schäfer, Amanda Eaton, Justine Mae Flores, Austin Harner, Nicholas J. Catanzaro Jr., Michael L. Mallory, Melissa D. Mattocks, Christopher Beverly, Brianna Rhodes, Katayoun Mansouri, Elizabeth Van Itallie, Pranay Vure, Brooke Dunn, Taylor Keyes, Sherry Stanfield-Oakley, Christopher W. Woods, Elizabeth A. Petzold, Emmanuel B. Walter, Kevin Wiehe, Robert J. Edwards, David C. Montefiori, Guido Ferrari, Ralph Baric, Derek W. Cain, Kevin O. Saunders, Barton F. Haynes & Mihai L. Azoitei
Nat Commun 14, 7897 (2023) • code
DNDesign: Enhancing Physical Understanding of Protein Inverse Folding Model via Denoising
Youhan Lee, Jaehoon Kim
bioRxiv 2023.12.05.570298
In vitro validated antibody design against multiple therapeutic antigens using generative inverse folding
Amir Shanehsazzadeh, Julian Alverio, George Kasun, Simon Levine, Jibran A Khan, Chelsea Chung, Nicolas Diaz, Breanna K Luton, Ysis Tarter, Cailen McCloskey, Katherine B Bateman, Hayley Carter, Dalton Chapman, Rebecca Consbruck, Alec Jaeger, Christa Kohnert, Gaelin Kopec-Belliveau, John M Sutton, Zheyuan Guo, Gustavo Canales, Kai Ejan, Emily Marsh, Alyssa Ruelos, Rylee Ripley, Brooke Stoddard, Rodante Caguiat, Kyra Chapman, Matthew Saunders, Jared Sharp, Douglas Ganini da Silva, Audree Feltner, Jake Ripley, Megan E Bryant, Danni Castillo, Joshua Meier, Christian M Stegmann, Katherine Moran, Christine Lemke, Shaheed Abdulhaqq, Lillian R Klug, Sharrol Bachas
bioRxiv 2023.12.08.570889
SPDesign: protein sequence designer based on structural sequence profile using ultrafast shape recognition
Hui Wang, Dong Liu, Kailong Zhao, Yajun Wang, Guijun Zhang
bioRxiv 2023.12.14.571651/Briefings in Bioinformatics 25.3 (2024): bbae146 • website
De novo design of diverse small molecule binders and sensors using Shape Complementary Pseudocycles
Linna An, Meerit Said, Long Tran, Sagardip Majumder, Inna Goreshnik, Gyu Rie Lee, David Juergens, Justas Dauparas, Ivan Anishchenko, Brian Coventry, Asim K Bera, Alex Kang, Paul M Levine, Valentina Alvarez, Arvindd Pillai, Christoffer Norn, David Feldman, Dmitri Zorine, Derrick R Hicks, Xinting Li, Mariana Garcia Sanchez, Dionne K Vafeados, Patrick J Salveson, Anastassia A Vorobieva, David Baker
bioRxiv 2023.12.20.572602/Science385,276-282(2024) • code1, code2, code3
Atomic context-conditioned protein sequence design using LigandMPNN
Justas Dauparas, Gyu Rie Lee, Robert Pecoraro, Linna An, Ivan Anishchenko, Cameron Glasscock, D. Baker
bioRxiv 2023.12.22.573103 • code
Structure-conditioned masked language models for protein sequence design generalize beyond the native sequence space
Deniz Akpinaroglu, Kosuke Seki, Amy Guo, Eleanor Zhu, Mark J. S. Kelly, Tanja Kortemme
bioRxiv 2023.12.15.571823 • code
ProteinMPNN Recovers Complex Sequence Properties of Transmembrane β-Barrels
Marissa D Dolorfino, Anastassia A Vorobieva
bioRxiv 2024.01.16.575764 • code
DIProT: A deep learning based interactive toolkit for efficient and effective Protein design
He, Jieling, Wenxu Wu, and Xiaowo Wang
Synthetic and Systems Biotechnology (2024)
Blueprinting extendable nanomaterials with standardized protein blocks
Timothy F. Huddy, Yang Hsia, Ryan D. Kibler, Jinwei Xu, Neville Bethel, Deepesh Nagarajan, Rachel Redler, Philip J. Y. Leung, Connor Weidle, Alexis Courbet, Erin C. Yang, Asim K. Bera, Nicolas Coudray, S. John Calise, Fatima A. Davila-Hernandez, Hannah L. Han, Kenneth D. Carr, Zhe Li, Ryan McHugh, Gabriella Reggiano, Alex Kang, Banumathi Sankaran, Miles S. Dickinson, Brian Coventry, T. J. Brunette, Yulai Liu, Justas Dauparas, Andrew J. Borst, Damian Ekiert, Justin M. Kollman, Gira Bhabha & David Baker
Nature (2024) • RosettaScripts
All-atom protein sequence design based on geometric deep learning
Jiale Liu, Zheng Guo, Changsheng Zhang, Luhua Lai
bioRxiv 2024.03.18.585651/Angew. Chem. Int. Ed. 2024 • code
Graphormer supervised de novo protein design method and function validation
Junxi Mu, Zhengxin Li, Bo Zhang, Qi Zhang, Jamshed Iqbal, Abdul Wadood, Ting Wei, Yan Feng, Hai-Feng Chen
Briefings in Bioinformatics 25.3 (2024): bbae135 • code
The Damietta Server: a comprehensive protein design toolkit
Iwan Grin, Kateryna Maksymenko, Tobias Wörtwein, Mohammad ElGamacy
Nucleic Acids Research, 2024;, gkae297 • website • ProteinMPNN-based • news, news2
Exploring the Potential of Structure-Based Deep Learning Approaches for T cell Receptor Design
Helder V. Ribeiro-Filho, Gabriel E. Jara, João V. S. Guerra, Melyssa Cheung, Nathaniel R. Felbinger, José G. C. Pereira, Brian G. Pierce, Paulo S. Lopes-de-Oliveira
bioRxiv 2024.04.19.590222 • code, code2
SurfPro: Functional Protein Design Based on Continuous Surface
Zhenqiao Song, Tinglin Huang, Lei Li, Wengong Jin
arXiv:2405.06693 • ProteinMPNN-based
Computational Design of Myoglobin-based Carbene Transferases for Monoterpene Derivatization
Yiyang Sun, Yinian Tang, Jing Zhou, Bingchen Guo, Feiyan Yuan, Bo Yao, Yang Yu, Chun Li
Biochemical and Biophysical Research Communications (2024) • code • LigandMPNN-based
UniIF: Unified Molecule Inverse Folding
Zhangyang Gao, Jue Wang, Cheng Tan, Lirong Wu, Yufei Huang, Siyuan Li, Zhirui Ye, Stan Z. Li
arXiv:2405.18968
Integrating MHC Class I visibility targets into the ProteinMPNN protein design process
Hans-Christof Gasser, Diego A. Oyarzún, Javier Antonio Alfaro, Ajitha Rajan
bioRxiv 2024.06.04.597365
A Top-Down Design Approach for Generating a Peptide PROTAC Drug Targeting Androgen Receptor for Androgenetic Alopecia Therapy
Bohan Ma, Donghua Liu, Zhe Wang, Dize Zhang, Yanlin Jian, Kun Zhang, Tianyang Zhou, Yibo Gao, Yizeng Fan, Jian Ma, Yang Gao, Yule Chen, Si Chen, Jing Liu, Xiang Li, and Lei Li
Journal of Medicinal Chemistry (2024)
Improving Inverse Folding models at Protein Stability Prediction without additional Training or Data
Oliver Dutton, Sandro Bottaro, Michele Invernizzi, Istvan Redl, Albert Chung, Carlo Fisicaro, Fabio Airoldi, Stefano Ruschetta, Louie Henderson, Benjamin MJ Owens, Patrik Foerch, Kamil Tamiola
bioRxiv 2024.06.15.599145 • ProteinMPNN/ESMIF-based
Kernel-Based Evaluation of Conditional Biological Sequence Models
Pierre Glaser, Steffanie Paul, Alissa M Hummer, Charlotte Deane, Debora Susan Marks, Alan Nawzad Amin
Proceedings of the 41st International Conference on Machine Learning, PMLR 235:15678-15705, 2024 • ProteinMPNN-based
CodonMPNN for Organism Specific and Codon Optimal Inverse Folding
Hannes Stark, Umesh Padia, Julia Balla, Cameron Diao, George Church
arXiv:2409.17265 • ProteinMPNN-based • code
Exploring the potential of structure-based deep learning approaches for T cell receptor design
Helder V. Ribeiro-Filho, Gabriel E. Jara, João V. S. Guerra, Melyssa Cheung,Nathaniel R. Felbinger, José G. C. Pereira, Brian G. Pierce, Paulo S. Lopes-de-Oliveira
PLoS Comput Biol 20(9) • ProteinMPNN-based • ESM-based
ProteusAI: An Open-Source and User-Friendly Platform for Machine Learning-Guided Protein Design and Engineering
Jonathan Funk, Laura Machado, Samuel A. Bradley, Marta Napiorkowska, Rodrigo Gallegos-Dextre, Liubov Pashkova, Niklas G. Madsen, Henry Webel, Patrick Victor Phaneuf, Timothy P. Jenkins, Carlos G. Acevedo-Rocha Sr
bioRxiv 2024.10.01.616114 • ProteinMPNN-based • ESM-based
Improving Inverse Folding for Peptide Design with Diversity-regularized Direct Preference Optimization
Ryan Park, Darren J. Hsu, C. Brian Roland, Maria Korshunova, Chen Tessler, Shie Mannor, Olivia Viessmann, Bruno Trentini
arXiv:2410.19471
Computational design of developable therapeutic antibodies: efficient traversal of binder landscapes and rescue of escape mutations
Frédéric A. Dreyer, Constantin Schneider, Aleksandr Kovaltsuk, Daniel Cutting, Matthew J. Byrne, Daniel A. Nissley, Newton Wahome, Henry Kenlay, Claire Marks, David Errington, Richard J. Gildea, David Damerell, Pedro Tizei, Wilawan Bunjobpol, John F. Darby, Ieva Drulyte, Daniel L. Hurdiss, Sachin Surade, Douglas E. V. Pires, Charlotte M. Deane
bioRxiv 2024.10.03.616038 • code • AbMPNN-based
State-specific Peptide Design Targeting G Protein-coupled Receptors
Yang Xue, Jun Li, Hong Wang, Jianguo Hu, Zhi Zheng, Jingzhou He, Huanzhang Gong, Xiangqun Li, Xiaonan Zhang, Xiaomin Fang
bioRxiv 2024.11.27.625792 • ProteinMPNN-based
Computer-guided design of Z domain peptides with improved inhibition of VEGF
Carsten Geist, Abibe Useini, Aleksandr Kazimir, Richy Kümpfel, Jens Meiler, Christina Lamers, Stefan Kalkhof, Georg Künze
bioRxiv 2024.11.29.626075 Supplementary • ProteinMPNN-based
HyperMPNN – A general strategy to design thermostable proteins learned from hyperthermophiles
Moritz Ertelt, Phillip Schlegel, Max Beining, Leonard Kaysser, Jens Meiler, Clara T. Schoeder
bioRxiv 2024.11.26.625397 • code • Supplementary
IgDesign: In vitro validated antibody design against multiple therapeutic antigens using inverse folding
Amir Shanehsazzadeh, Julian Alverio, George Kasun, Simon Levine, Ido Calman, Jibran A. Khan, Chelsea Chung, Nicolas Diaz, Breanna K. Luton, Ysis Tarter, Cailen McCloskey, Katherine B. Bateman, Hayley Carter, Dalton Chapman, Rebecca Consbruck, Alec Jaeger, Christa Kohnert, Gaelin Kopec-Belliveau, John M. Sutton, Zheyuan Guo, Gustavo Canales, Kai Ejan, Emily Marsh, Alyssa Ruelos, Rylee Ripley, Brooke Stoddard, Rodante Caguiat, Kyra Chapman, Matthew Saunders, Jared Sharp, Douglas Ganini da Silva, Audree Feltner, Jake Ripley, Megan E. Bryant, Danni Castillo, Joshua Meier, Christian M. Stegmann, Katherine Moran, Christine Lemke, Shaheed Abdulhaqq, Lillian R. Klug, Sharrol Bachas
bioRxiv 2023.12.08.570889 • code
De novo protein design for novel folds using guided conditional Wasserstein generative adversarial networks
Mostafa Karimi, Shaowen Zhu, Yue Cao, Yang Shen
Journal of chemical information and modeling 60.12 (2020) • gcWGAN
HelixGAN: A bidirectional Generative Adversarial Network with search in latent space for generation under constraints
Xuezhi Xie, Philip M. Kim
Machine Learning for Structural Biology Workshop, NeurIPS 2021/Bioinformatics, 2023;, btad036 • code
Deep learning guided design of dynamic proteins
Amy B. Guo, Deniz Akpinaroglu, Mark J.S. Kelly, Tanja Kortemme
bioRxiv 2024.07.17.603962 • code • Supplementary
Generative models for graph-based protein design
John Ingraham, Vikas K Garg, Dr.Regina Barzilay, Tommi Jaakkola
NeurIPS 2019 • GraphTrans
Fold2Seq: A Joint Sequence (1D)-Fold (3D) Embedding-based Generative Model for Protein Design
Yue Cao, Payel Das, Vijil Chenthamarakshan, Pin-Yu Chen, Igor Melnyk, Yang Shen
International Conference on Machine Learning. PMLR, 2021
Rotamer-Free Protein Sequence Design Based on Deep Learning and Self-Consistency
Yufeng Liu, Lu Zhang, Weilun Wang, Min Zhu, Chenchen Wang, Fudong Li, Jiahai Zhang, Houqiang Li, Quan Chen& Haiyan Liu
Nature portfolio (2022)/Nature computational science(2022) • Supplementary • Comment • code
A Deep SE(3)-Equivariant Model for Learning Inverse Protein Folding
Mmatthew McPartlon, Ben Lai, Jinbo Xu
bioRxiv (2022)
Learning inverse folding from millions of predicted structures
Chloe Hsu, Robert Verkuil, Jason Liu, Zeming Lin, Brian Hie, Tom Sercu, Adam Lerer, Alexander Rives
bioRxiv (2022) • esm
Breaking boundaries in protein design with a new AI model that understands interactions with any kind of molecule
LucianoSphere
Towards Data Science
Accurate and efficient protein sequence design through learning concise local environment of residues
Bin Huang, Tingwen Fan, Kaiyue Wang, Haicang Zhang, Chungong Yu, Shuyu Nie, Yangshuo Qi, Wei-Mou Zheng, Jian Han, Zheng Fan, Shiwei Sun, Sheng Ye, Huaiyi Yang, Dongbo Bu
bioRxiv (2022)/Bioinformatics 39.3 (2023) • Supplementary • website • code
PeTriBERT : Augmenting BERT with tridimensional encoding for inverse protein folding and design
Baldwin Dumortier, Antoine Liutkus, Clément Carré, Gabriel Krouk
bioRxiv 2022.08.10.503344
Evolutionary-scale prediction of atomic level protein structure with a language model
Zeming Lin, Halil Akin, Roshan Rao, Brian Hie, Zhongkai Zhu, Wenting Lu, Nikita Smetanin, Robert Verkuil, Ori Kabeli, Yaniv Shmueli, Allan dos Santos Costa, Maryam Fazel-Zarandi, Tom Sercu, Salvatore Candido, Alexander Rives
bioRxiv 2022.07.20.500902 • blog • github
Structure-informed Language Models Are Protein Designers
Zaixiang Zheng, Yifan Deng, Dongyu Xue, Yi Zhou, Fei YE, Quanquan Gu
arXiv:2302.01649 • code::ByProt
Incorporating Pre-training Paradigm for Antibody Sequence-Structure Co-design
Kaiyuan Gao, Lijun Wu, Jinhua Zhu, Tianbo Peng, Yingce Xia, Liang He, Shufang Xie, Tao Qin, Haiguang Liu, Kun He, Tie-Yan Liu
arXiv:2211.08406 • code
A Text-guided Protein Design Framework
Shengchao Liu, Yutao Zhu, Jiarui Lu, Zhao Xu, Weili Nie, Anthony Gitter, Chaowei Xiao, Jian Tang, Hongyu Guo, Anima Anandkumar
arXiv:2302.04611 • code
An end-to-end deep learning method for protein side-chain packing and inverse folding
McPartlon, Matthew, and Jinbo Xu
Proceedings of the National Academy of Sciences 120.23 (2023) • code • Supplementary
Context-aware geometric deep learning for protein sequence design
Lucien Krapp, Fernado Meireles, Luciano Abriata, Matteo Dal Peraro
bioRxiv 2023.06.19.545381/Nature Communications, 2024 • code • News
De Novo Generation and Prioritization of Target-Binding Peptide Motifs from Sequence Alone
Suhaas Bhat, Kalyan Palepu, Vivian Yudistyra, Lauren Hong, Venkata Srikar Kavirayuni, Tianlai Chen, Lin Zhao, Tian Wang, Sophia Vincoff, Pranam Chatterjee
bioRxiv 2023.06.26.546591 • code • colab • Supplementary
ProstT5: Bilingual Language Model for Protein Sequence and Structure Michael Heinzinger
Konstantin Weissenow, Joaquin Gomez Sanchez, Adrian Henkel, Martin Steinegger, Burkhard Rost
bioRxiv 2023.07.23.550085 • Supplementary • code
De novo Protein Sequence Design Based on Deep Learning and Validation on CalB Hydrolase
Junxi Mu, ZhengXin Li, Bo Zhang, Qi Zhang, Jamshed Iqbal, Abdul Wadood, Ting Wei, Yan Feng, Haifeng Chen
bioRxiv 2023.08.01.551444 • code
Invariant point message passing for protein side chain packing and design
Nicholas Z Randolph, Brian Kuhlman
bioRxiv 2023.08.03.551328 • code
Atom-by-atom protein generation and beyond with language models
Daniel Flam-Shepherd, Kevin Zhu, Alán Aspuru-Guzik
arXiv:2308.09482
SaProt: Protein Language Modeling with Structure-aware Vocabulary
Jin Su, Chenchen Han, Yuyang Zhou, Junjie Shan, Xibin Zhou, Fajie Yuan
bioRxiv 2023.10.01.560349 • code
AntiFold: Improved antibody structure design using inverse folding
Magnus Høie, Alissa Hummer, Tobias Olsen, Morten Nielsen, Charlotte Deane
GenBio@NeurIPS2023 Spotlight • code • colab
MMDesign: Multi-Modality Transfer Learning for Generative Protein Design
Jiangbin Zheng, Siyuan Li, Yufei Huang, Zhangyang Gao, Cheng Tan, Bozhen Hu, Jun Xia, Ge Wang, Stan Z. Li
arXiv preprint arXiv:2312.06297 (2023)
ShapeProt: Top-down Protein Design with 3D Protein Shape Generative Model
Lee, Youhan, and Jaehoon Kim
bioRxiv (2023): 2023-12
X-LoRA: Mixture of Low-Rank Adapter Experts, a Flexible Framework for Large Language Models with Applications in Protein Mechanics and Design
Eric L. Buehler, Markus J. Buehler
arXiv:2402.07148 • code • Model & weights
AntiFold: Improved antibody structure-based design using inverse folding
Magnus Haraldson Høie, Alissa Hummer, Tobias H. Olsen, Broncio Aguilar-Sanjuan, Morten Nielsen, Charlotte M. Deane
arXiv:2405.03370 • code • website • ESM-IF-based
Protein Design with StructureGPT: a Deep Learning Model for Protein Structure-to-Sequence Translation
Nicanor Zalba Sr., Pablo Ursua-Medrano Sr., Humberto Bustince Sr
bioRxiv 2024.06.03.597105 • code • Supplementary
Adapting protein language models for structure-conditioned design
Jeffrey A Ruffolo, Aadyot Bhatnagar, Joel Beazer, Stephen Nayfach, Jordan Russ, Emily Hill, Riffat Hussain, Joseph Gallagher, Ali Madani
bioRxiv 2024.08.03.606485 • code • Supplementary • news • lecture
EMOCPD: Efficient Attention-based Models for Computational Protein Design Using Amino Acid Microenvironment
Xiaoqi Ling, Cheng Cai, Demin Kong, Zhisheng Wei, Jing Wu, Lei Wang, Zhaohong Deng
arXiv:2410.21069
Mixture of Experts Enable Efficient and Effective Protein Understanding and Design
Ning Sun, Shuxian Zou, Tianhua Tao, Sazan Mahbub, Dian Li, Yonghao Zhuang, Hongyi Wang, Xingyi Cheng, Le Song, Eric P. Xing
bioRxiv 2024.11.29.625425 • code
DenseCPD: improving the accuracy of neural-network-based computational protein sequence design with DenseNet
Qi, Yifei, and John ZH Zhang
Journal of chemical information and modeling 60.3 (2020) • code unavailable
De novo protein backbone generation based on diffusion with structured priors and adversarial training
Yufeng Liu, Linghui Chen, Haiyan Liu
bioRxiv 2022.12.17.520847/Nat Methods (2024) • code
Generative design of de novo proteins based on secondary-structure constraints using an attention-based diffusion model
Bo Ni, David L. Kaplan, Markus J. Buehler
Chem,(2023) • code • news
Graph Denoising Diffusion for Inverse Protein Folding
Kai Yi, Bingxin Zhou, Yiqing Shen, Pietro Liò, Yu Guang Wang
arXiv:2306.16819/NeurIPS 2023 • code
Conditional Protein Denoising Diffusion Generates Programmable Endonucleases
Bingxin Zhou, Lirong Zheng, Banghao Wu, Kai Yi, Bozitao Zhong, Pietro Lio, Liang Hong
bioRxiv 2023.08.10.552783
Diffusion in a quantized vector space generates non-idealized protein structures and predicts conformational distributions
Liu Haiyan, Liu Yufeng, Chen Linghui
bioRxiv 2023.11.18.567666
Fast non-autoregressive inverse folding with discrete diffusion
John J. Yang, Jason Yim, Regina Barzilay, Tommi Jaakkola
arXiv:2312.02447 • code
Diffusion Language Models Are Versatile Protein Learners
Xinyou Wang, Zaixiang Zheng, Fei Ye, Dongyu Xue, Shujian Huang, Quanquan Gu
arXiv:2402.18567
LéxFusion
Levinthal
paper not available • news • commercial
A conditional protein diffusion model generates artificial programmable endonuclease sequences with enhanced activity
Bingxin Zhou, Lirong Zheng, Banghao Wu, Kai Yi, Bozitao Zhong, Yang Tan, Qian Liu, Pietro Liò, Liang Hong
bioRxiv 2023.08.10.552783/Cell Discovery 10.1 (2024) • code
LaGDif: Latent Graph Diffusion Model for Efficient Protein Inverse Folding with Self-Ensemble
Taoyu Wu, Yu Guang Wang, Yiqing Shen
arXiv:2411.01737 • code
Bridge-IF: Learning Inverse Protein Folding with Markov Bridges
Yiheng Zhu, Jialu Wu, Qiuyi Li, Jiahuan Yan, Mingze Yin, Wei Wu, Mingyang Li, Jieping Ye, Zheng Wang, Jian Wu
arXiv:2411.02120 • code
Mask prior-guided denoising diffusion improves inverse protein folding
Peizhen Bai, Filip Miljković, Xianyuan Liu, Leonardo De Maria, Rebecca Croasdale-Wood, Owen Rackham, Haiping Lu
arXiv:2412.07815 • code
Inverse Protein Folding Using Deep Bayesian Optimization
Natalie Maus, Yimeng Zeng, Daniel Allen Anderson, Phillip Maffettone, Aaron Solomon, Peyton Greenside, Osbert Bastani, Jacob R. Gardner
arXiv:2305.18089 • code
Harmonic Self-Conditioned Flow Matching for Multi-Ligand Docking and Binding Site Design
Hannes Stärk, Bowen Jing, Regina Barzilay, Tommi Jaakkola
arXiv:2310.05764 • code
Fine-Tuning Discrete Diffusion Models via Reward Optimization with Applications to DNA and Protein Design
Chenyu Wang, Masatoshi Uehara, Yichun He, Amy Wang, Tommaso Biancalani, Avantika Lal, Tommi Jaakkola, Sergey Levine, Hanchen Wang, Aviv Regev
arXiv:2410.13643 • code
Reinforcement learning on structure-conditioned categorical diffusion for protein inverse folding
Yasha Ektefaie, Olivia Viessmann, Siddharth Narayanan, Drew Dresser, J. Mark Kim, Armen Mkrtchyan
arXiv:2410.17173 • code
These models generate sequences from expected function.
Antibody complementarity determining region design using high-capacity machine learning
Ge Liu, Haoyang Zeng, Jonas Mueller, Brandon Carter, Ziheng Wang, Jonas Schilz, Geraldine Horny, Michael E Birnbaum, Stefan Ewert, David K Gifford
Bioinformatics 36.7 (2020): 2126-2133 • code
Protein design and variant prediction using autoregressive generative models
Jung-Eun Shin, Adam J. Riesselman, Aaron W. Kollasch, Conor McMahon, Elana Simon, Chris Sander, Aashish Manglik, Andrew C. Kruse & Debora S. Marks
Nature communications 12.1 (2021) • code::SeqDesign • mutation effect prediction • sequence generation • April 2021
Optimization of therapeutic antibodies by predicting antigen specificity from antibody sequence via deep learning
Derek M. Mason, Simon Friedensohn, Cédric R. Weber, Christian Jordi, Bastian Wagner, Simon M. Meng, Roy A. Ehling, Lucia Bonati, Jan Dahinden, Pablo Gainza, Bruno E. Correia & Sai T. Reddy
Nature Biomedical Engineering 5.6 (2021) • code
Accelerated Engineering of ELP‐based Materials through Hybrid Biomimetic‐De Novo Predictive Molecular Design
Timo Laakko, Antti Korkealaakso, Burcu Firatligil Yildirir, Piotr Batys, Ville Liljeström, Ari Hokkanen, Nonappa, Merja Penttilä, Anssi Laukkanen, Ali Miserez, Caj Södergård, Pezhman Mohammadi
Advanced Materials (2024)
Machine learning-aided design and screening of an emergent protein function in synthetic cells
Shunshi Kohyama, Béla P. Frohn, Leon Babl & Petra Schwille
Nature Communications 15, 2010 (2024) • code
Variational auto-encoding of protein sequences
Sam Sinai, Eric Kelsic, George M. Church, Martin A. Nowak
arXiv preprint arXiv:1712.03346 (2017)
Design by adaptive sampling
Brookes, David H., and Jennifer Listgarten
arXiv preprint arXiv:1810.03714 (2018)
Pepcvae: Semi-supervised targeted design of antimicrobial peptide sequences
Payel Das, Kahini Wadhawan, Oscar Chang, Tom Sercu, Cicero Dos Santos, Matthew Riemer, Vijil Chenthamarakshan, Inkit Padhi, Aleksandra Mojsilovic
arXiv preprint arXiv:1810.07743 (2018)
Deep generative models for T cell receptor protein sequences
Kristian Davidsen, Branden J Olson, William S DeWitt III, Jean Feng, Elias Harkins, Philip Bradley, Frederick A Matsen IV
Elife 8 (2019)
How to hallucinate functional proteins
Costello, Zak, and Hector Garcia Martin
arXiv preprint arXiv:1903.00458 (2019)
Convergent selection in antibody repertoires is revealed by deep learning
Simon Friedensohn, Daniel Neumeier, Tarik A Khan, Lucia Csepregi, Cristina Parola, Arthur R Gorter de Vries, Lena Erlach, Derek M Mason, Sai T Reddy
BioRxiv (2020) • Supplementary • code available after publication
Variational autoencoder for generation of antimicrobial peptides
Dean, Scott N., and Scott A. Walper
ACS omega 5.33 (2020)
Generating functional protein variants with variational autoencoders
Alex Hawkins-Hooker, Florence Depardieu, Sebastien Baur, Guillaume Couairon, Arthur Chen, David Bikard
PLoS computational biology 17.2 (2021)
Accelerated antimicrobial discovery via deep generative models and molecular dynamics simulations
Payel Das, Tom Sercu, Kahini Wadhawan, Inkit Padhi, Sebastian Gehrmann, Flaviu Cipcigan, Vijil Chenthamarakshan, Hendrik Strobelt, Cicero dos Santos, Pin-Yu Chen, Yi Yan Yang, Jeremy P. K. Tan, James Hedrick, Jason Crain & Aleksandra Mojsilovic
Nature Biomedical Engineering 5.6 (2021)
Deep generative models create new and diverse protein structures
Zeming, Tom, Yann and Alexander
NeurIPS 2021
PepVAE: variational autoencoder framework for antimicrobial peptide generation and activity prediction
Scott N. Dean, Jerome Anthony E. Alvarez, Dan Zabetakis, Scott A. Walper, and Anthony P. Malanoski
Frontiers in microbiology 12 (2021) • code • Supplementary
HydrAMP: a deep generative model for antimicrobial peptide discovery
Paulina Szymczak, Marcin Możejko, Tomasz Grzegorzek, Marta Bauer, Damian Neubauer, Michał Michalski, Jacek Sroka, Piotr Setny, Wojciech Kamysz, Ewa Szczurek
bioRxiv (2022) • code
Therapeutic enzyme engineering using a generative neural network
Andrew Giessel, Athanasios Dousis, Kanchana Ravichandran, Kevin Smith, Sreyoshi Sur, Iain McFadyen, Wei Zheng & Stuart Licht
Scientific Reports 12.1 (2022)
GM-Pep: A High Efficiency Strategy to De Novo Design Functional Peptide Sequences
Qushuo Chen, Changyan Yang, Yihao Xie, Yuqiang Wang, Xiaoxu Li, Kairong Wang, Jinqi Huang, and Wenjin Yan
Journal of Chemical Information and Modeling (2022) • code
Mean Dimension of Generative Models for Protein Sequences
Christoph Feinauer, Emanuele Borgonovo
bioRxiv 2022.12.12.520028 • code
Prediction of designer-recombinases for DNA editing with generative deep learning
Lukas Theo Schmitt, Maciej Paszkowski-Rogacz, Florian Jug & Frank Buchholz
Nat Commun 13, 7966 (2022) • code • Supplementary
ProT-VAE: Protein Transformer Variational AutoEncoder for Functional Protein Design
Emre Sevgen, Joshua Moller, Adrian Lange, John Parker, Sean Quigley, Jeff Mayer, Poonam Srivastava, Sitaram Gayatri, David Hosfield, Maria Korshunova, Micha Livne, Michelle Gill, Rama Ranganathan, Anthony B Costa, Andrew L Ferguson
bioRxiv 2023.01.23.525232
Target specific peptide design using latent space approximate trajectory collector
Tong Lin, Sijie Chen, Ruchira Basu, Dehu Pei, Xiaolin Cheng, Levent Burak Kara
arXiv:2302.01435
Deep-learning generative models enable design of synthetic orthologs of a signaling protein
Xinran Lian, Niksa Praljak, Andrew L. Ferguson, Rama Ranganathan
Biophysical Journal 122.3 (2023): 311a
Designing a protein with emergent function by combined in silico, in vitro and in vivo screening
Shunshi Kohyama, Bela Paul Frohn, Leon Babl, Petra Schwille
bioRxiv 2023.02.16.528840 • Supplementary
ProteinVAE: Variational AutoEncoder for Translational Protein Design
Suyue Lyu, Shahin Sowlati-Hashjin, Michael Garton
bioRxiv 2023.03.04.531110/Nat Mach Intell (2024) • Supplementary • code
ProtWave-VAE: Integrating autoregressive sampling with latent-based inference for data-driven protein design
Niksa Praljak, Xinran Lian, Rama Ranganathan, Andrew Ferguson
bioRxiv 2023.04.23.537971 • Supplementary • code
Designing meaningful continuous representations of T cell receptor sequences with deep generative models
Allen Y. Leary, Darius Scott, Namita T. Gupta, Janelle C. Waite, Dimitris Skokos, Gurinder S. Atwal, Peter G. Hawkins
bioRxiv 2023.06.17.545423 • code
Utility of language model and physics-based approaches in modifying MHC Class-I immune-visibility for the design of vaccines and therapeutics
Hans-Christof Gasser, Diego Oyarzun, Ajitha Rajan, Javier Alfaro
bioRxiv 2023.07.10.548300
Cell-free biosynthesis combined with deep learning accelerates de novo-development of antimicrobial peptides
Amir Pandi, David Adam, Amir Zare, Van Tuan Trinh, Stefan L. Schaefer, Marie Burt, Björn Klabunde, Elizaveta Bobkova, Manish Kushwaha, Yeganeh Foroughijabbari, Peter Braun, Christoph Spahn, Christian Preußer, Elke Pogge von Strandmann, Helge B. Bode, Heiner von Buttlar, Wilhelm Bertrams, Anna Lena Jung, Frank Abendroth, Bernd Schmeck, Gerhard Hummer, Olalla Vázquez & Tobias J. Erb
Nature Communications 14.1 (2023) • code
Design of target specific peptide inhibitors using generative deep learning and molecular dynamics simulations
Sijie Chen, Tong Lin, Ruchira Basu, Jeremy Ritchey, Shen Wang, Yichuan Luo, Xingcan Li, Dehua Pei, Levent Burak Kara & Xiaolin Cheng
Nat Commun 15, 1611 (2024) • code
Deep-learning-based design of synthetic orthologs of SH3 signaling domains
Xinran Lian, Nikša Praljak, Subu K. Subramanian, Sarah Wasinger, Rama Ranganathan, Andrew L. Ferguson
Cell Systems (2024)
Feedback GAN for DNA optimizes protein functions
Gupta, Anvita, and James Zou
Nature Machine Intelligence 1.2 (2019) • code
Generating protein sequences from antibiotic resistance genes data using Generative Adversarial Networks
Chhibbar, Prabal, and Arpit Joshi
arXiv preprint arXiv:1904.13240 (2019)
ProGAN: Protein solubility generative adversarial nets for data augmentation in DNN framework
Xi Han, Liheng Zhang, Kang Zhou, Xiaonan Wang
Computers & Chemical Engineering 131 (2019)
GANDALF: Peptide Generation for Drug Design using Sequential and Structural Generative Adversarial Networks
Rossetto, Allison, and Wenjin Zhou
Proceedings of the 11th ACM International Conference on Bioinformatics, Computational Biology and Health Informatics. 2020
Designing feature-controlled humanoid antibody discovery libraries using generative adversarial networks
Tileli Amimeur, Jeremy M. Shaver, Randal R. Ketchem, J. Alex Taylor, Rutilio H. Clark, Josh Smith, Danielle Van Citters, Christine C. Siska, Pauline Smidt, Megan Sprague, Bruce A. Kerwin, Dean Pettit
BioRxiv (2020)
Generating ampicillin-level antimicrobial peptides with activity-aware generative adversarial networks
Andrejs Tucs, Duy Phuoc Tran, Akiko Yumoto, Yoshihiro Ito, Takanori Uzawa, and Koji Tsuda
ACS omega 5.36 (2020) • code
Conditional Generative Modeling for De Novo Protein Design with Hierarchical Functions
Kucera, Tim, Matteo Togninalli, and Laetitia Meng-Papaxanthos
bioRxiv (2021)/Bioinformatics 38.13 (2022) • code
Expanding functional protein sequence spaces using generative adversarial networks
Donatas Repecka, Vykintas Jauniskis, Laurynas Karpus, Elzbieta Rembeza, Irmantas Rokaitis, Jan Zrimec, Simona Poviloniene, Audrius Laurynenas, Sandra Viknander, Wissam Abuajwa, Otto Savolainen, Rolandas Meskys, Martin K. M. Engqvist & Aleksej Zelezniak
Nature Machine Intelligence 3.4 (2021) • code
A Generative Approach toward Precision Antimicrobial Peptide Design.
Jonathon B. Ferrell, Jacob M. Remington, Colin M. Van Oort, Mona Sharafi, Reem Aboushousha, Yvonne Janssen-Heininger, Severin T. Schneebeli, Matthew J. Wargo, Safwan Wshah, Jianing Li
BioRxiv (2021) • code
AMPGAN v2: Machine Learning-Guided Design of Antimicrobial Peptides
Colin M. Van Oort, Jonathon B. Ferrell, Jacob M. Remington, Safwan Wshah, and Jianing Li
Journal of chemical information and modeling 61.5 (2021)
DeepImmuno: deep learning-empowered prediction and generation of immunogenic peptides for T-cell immunity
Guangyuan Li, Balaji Iyer, V B Surya Prasath, Yizhao Ni, Nathan Salomonis
Briefings in bioinformatics 22.6 (2021) • code • web
PandoraGAN: Generating antiviral peptides using Generative Adversarial Network
Shraddha Surana, Pooja Arora, Divye Singh, Deepti Sahasrabuddhe, Jayaraman Valadi
bioRxiv (2021)
Feedback-AVPGAN: Feedback-guided generative adversarial network for generating antiviral peptides
Kano Hasegawa, Yoshitaka Moriwaki, Tohru Terada, Cao Wei, and Kentaro Shimizu
Journal of Bioinformatics and Computational Biology (2022) • code
Designing antimicrobial peptides using deep learning and molecular dynamic simulations
Qiushi Cao, Cheng Ge, Xuejie Wang, Peta J Harvey, Zixuan Zhang, Yuan Ma, Xianghong Wang, Xinying Jia, Mehdi Mobli, David J Craik, Tao Jiang, Jinbo Yang, Zhiqiang Wei, Yan Wang, Shan Chang, Rilei Yu
Briefings in Bioinformatics (2023)
Generative β-Hairpin Design Using a Residue-Based Physicochemical Property Landscape
Vardhan Satalkar and Gemechis D. Degaga and Wei Li and Yui Tik Pang and Andrew C. McShan and James C. Gumbart and Julie C. Mitchell and Matthew P. Torres
Biophysical Journal(2024) • code
De Novo Antimicrobial Peptide Design with Feedback Generative Adversarial Networks
Michaela Areti Zervou, Effrosyni Doutsi, Yannis Pantazis, Panagiotis Tsakalides
International Journal of Molecular Sciences 25.10 (2024) • code
Binary Discriminator Facilitates GPT-based Protein Design
Zishuo Zeng, Rufang Xu, Jin Guo, Xiaozhou Luo
bioRxiv 2023.11.20.567789 • code • Supplementary
Including protein large language models(pLLM) and autoregressive language models.
Progen: Language modeling for protein generation / Large language models generate functional protein sequences across diverse families
Ali Madani, Bryan McCann, Nikhil Naik, Nitish Shirish Keskar, Namrata Anand, Raphael R. Eguchi, Po-Ssu Huang, Richard Socher
arXiv preprint arXiv:2004.03497 (2020)/Nat Biotechnol (2023) • ProGen, CTRL
Signal peptides generated by attention-based neural networks
Zachary Wu, Kevin K. Yang, Michael J. Liszka, Alycia Lee, Alina Batzilla, David Wernick, David P. Weiner, and Frances H. Arnold
ACS Synthetic Biology 9.8 (2020)
ProtTrans: towards cracking the language of Life's code through self-supervised deep learning and high performance computing
Ahmed Elnaggar, Michael Heinzinger, Christian Dallago, Ghalia Rehawi, Yu Wang, Llion Jones, Tom Gibbs, Tamas Feher, Christoph Angerer, Martin Steinegger,Debsindhu Bhowmik, and Burkhard Rost
arXiv preprint arXiv:2007.06225 (2020) • code
Generative Language Modeling for Antibody Design
Shuai, Richard W., Jeffrey A. Ruffolo, and Jeffrey J. Gray
bioRxiv (2021)/Cell Systems • Supplementary • code
Deep neural language modeling enables functional protein generation across families
Ali Madani, Ben Krause, Eric R. Greene, Subu Subramanian, Benjamin P. Mohr, James M. Holton, Jose Luis Olmos Jr., Caiming Xiong, Zachary Z. Sun, Richard Socher, James S. Fraser, Nikhil Naik
bioRxiv (2021)
Protein sequence sampling and prediction from structural data
Gabriel A. Orellana, Javier Caceres-Delpiano, Roberto Ibañez, Michael P. Dunne, Leonardo Alvarez
bioRxiv 2021.09.06.459171
Transformer-based protein generation with regularized latent space optimization
Egbert Castro, Abhinav Godavarthi, Julian Rubinfien, Kevin Givechian, Dhananjay Bhaskar & Smita Krishnaswamy
Nat Mach Intell (2022)/arXiv:2201.09948 • code
BioPhi: A platform for antibody design, humanization, and humanness evaluation based on natural antibody repertoires and deep learning
David Prihoda, Jad Maamary, Andrew Waight, Veronica Juan, Laurence Fayadat-Dilman, Daniel Svozil, Danny A. Bitton
mAbs. Vol. 14. No. 1. Taylor & Francis, 2022
Guided Generative Protein Design using Regularized Transformers
Egbert Castro, Abhinav Godavarthi, Julian Rubinfien, Kevin B. Givechian, Dhananjay Bhaskar, Smita Krishnaswamy
arXiv preprint arXiv:2201.09948 (2022)
Towards Controllable Protein design with Conditional Transformers
Noelia Ferruz, Birte Höcker
arXiv preprint arXiv:2201.07338 (2022)/Nature Machine Intelligence (2022) • review of Heading 5.4
ProtGPT2 is a deep unsupervised language model for protein design
Noelia Ferruz, View ProfileSteffen Schmidt, View ProfileBirte Höcker
bioRxiv/Nature Communications • model::huggingface datasets::hugingface • lecture • research highlights • news
Few Shot Protein Generation
Ram, Soumya, and Tristan Bepler
arXiv preprint arXiv:2204.01168 (2022)
RITA: a Study on Scaling Up Generative Protein Sequence Models
Daniel Hesslow, Niccoló Zanichelli, Pascal Notin, Iacopo Poli, Debora Marks
arXiv preprint arXiv:2205.05789 (2022) • code
ProGen2: Exploring the Boundaries of Protein Language Models
Erik Nijkamp, Jeffrey Ruffolo, Eli N. Weinstein, Nikhil Naik, Ali Madani
arXiv:2206.13517 • code • guide
AbLang: an antibody language model for completing antibody sequences
Tobias H Olsen, Iain H Moal, Charlotte M Deane
Bioinformatics Advances, Volume 2, Issue 1, 2022, vbac046
Reprogramming Pretrained Language Models for Antibody Sequence Infilling
Igor Melnyk, Vijil Chenthamarakshan, Pin-Yu Chen, Payel Das, Amit Dhurandhar, Inkit Padhi, Devleena Das
arXiv:2210.07144 • code
AbBERT: Learning Antibody Humanness via Masked Language Modeling
Denis Vashchenko, Sam Nguyen, Andre Goncalves, Felipe Leno da Silva, Brenden Petersen, Thomas Desautels, Daniel Faissol
bioRxiv 2022.08.02.502236
Accelerating Antibody Design with Active Learning
Seung-woo Seo, Min Woo Kwak, Eunji Kang, Chaeun Kim, Eunyoung Park, Tae Hyun Kang, Jinhan Kim
bioRxiv 2022.09.12.507690
Reprogramming Large Pretrained Language Models for Antibody Sequence Infilling
Igor Melnyk, Vijil Chenthamarakshan, Pin-Yu Chen, Payel Das, Amit Dhurandhar, Inkit Padhi, Devleena Das
ICLR 2023/arXiv:2210.07144
Machine Learning Optimization of Candidate Antibodies Yields Highly Diverse Sub-nanomolar Affinity Antibody Libraries
Lin Li, Esther Gupta, John Spaeth, Leslie Shing, Rafael Jaimes, Rajmonda Sulo Caceres, Tristan Bepler, Matthew E. Walsh
bioRxiv 2022.10.07.502662 • Supplementary • code will be available
ZymCTRL: a conditional language model for the contollable generation of artificial enzymes
Noelia Ferruz
NeurIPS 2022/bioRxiv 2024.05.03.592223 • hugging face • poster
Generative Antibody Design for Complementary Chain Pairing Sequences through Encoder-Decoder Language Model
Chu, Simon, and Kathy Wei
NeurIPS 2023 Generative AI and Biology (GenBio) Workshop. 2023/arXiv:2301.02748
Unlocking de novo antibody design with generative artificial intelligence
Amir Shanehsazzadeh, Matt McPartlon, George Kasun, Andrea K. Steiger, John M. Sutton, Edriss Yassine, Cailen McCloskey, Robel Haile, Richard Shuai, Julian Alverio, Goran Rakocevic, Simon Levine, Jovan Cejovic, Jahir M. Gutierrez, Alex Morehead, Oleksii Dubrovskyi, Chelsea Chung, Breanna K. Luton, Nicolas Diaz, Christa Kohnert, Rebecca Consbruck, Hayley Carter, Chase LaCombe, Itti Bist, Phetsamay Vilaychack, Zahra Anderson, Lichen Xiu, Paul Bringas, Kimberly Alarcon, Bailey Knight, Macey Radach, Katherine Bateman, Gaelin Kopec-Belliveau, Dalton Chapman, Joshua Bennett, Abigail B. Ventura, Gustavo M. Canales, Muttappa Gowda, Kerianne A. Jackson, Rodante Caguiat, Amber Brown, Douglas Ganini da Silva, Zheyuan Guo, Shaheed Abdulhaqq, Lillian R. Klug, Miles Gander, Engin Yapici, Joshua Meier, Sharrol Bachas
bioRxiv (2023): 2023-01 • data • news • blog • commercial
A universal deep-learning model for zinc finger design enables transcription factor reprogramming
David M. Ichikawa, Osama Abdin, Nader Alerasool, Manjunatha Kogenaru, April L. Mueller, Han Wen, David O. Giganti, Gregory W. Goldberg, Samantha Adams, Jeffrey M. Spencer, Rozita Razavi, Satra Nim, Hong Zheng, Courtney Gionco, Finnegan T. Clark, Alexey Strokach, Timothy R. Hughes, Timothee Lionnet, Mikko Taipale, Philip M. Kim & Marcus B. Noyes
Nat Biotechnol (2023)
XuperNovo®/ProteinGPT
XtalPi
news • news2 • website • commercial
Evaluating Prompt Tuning for Conditional Protein Sequence Generation
Andrea Nathansen, Kevin Klein, Bernhard Y. Renard, Melania Nowicka, Jakub M. Bartoszewicz
bioRxiv 2023.02.28.530492 • code
AB-Gen: Antibody Library Design with Generative Pre-trained Transformer and Deep Reinforcement Learning
Xiaopeng Xu, Tiantian Xu, Juexiao Zhou, Xingyu Liao, Ruochi Zhang, Yu Wang, Lu Zhang, Xin Gao
bioRxiv 2023.03.17.533102 • code • Supplementary • data
Unsupervised cross-domain translation via deep learning and adversarial attention neural networks and application to music-inspired protein designs
Buehler, Markus J
Patterns 4.3 (2023) • code
ProtFIM: Fill-in-Middle Protein Sequence Design via Protein Language Models
Lee, Youhan, and Hasun Yu
arXiv preprint arXiv:2303.16452 (2023)/ICLR 2023
REXzyme: A Translation Machine for the Generation of New-to-Nature Enzymes
Sebastian Lindner, Michael Heinzinger, Noelia Ferruz
paper coming soon • hugging face
MPM4: AI Text2Protein Breakthrough Tackles the Molecule Programming Challenge
310.ai
news • repo • commercial
De Novo Design of Peptide Binders to Conformationally Diverse Targets with Contrastive Language Modeling
Suhaas Bhat, Kalyan Palepu, Lauren Hong, Joey Mao, Tianzheng Ye, Rema Iyer, Lin Zhao, Tianlai Chen, Sophia Vincoff, Rio Watson, Tian Wang, Divya Srijay, Venkata Srikar Kavirayuni, Kseniia Kholina, Shrey Goel, Pranay Vure, Aniruddha H Desphande, Scott Soderling, Matthew DeLisa, Pranam Chatterjee
bioRxiv 2023.06.26.546591 • code • Supplementary
xTrimoPGLM: Unified 100B-Scale Pre-trained Transformer for Deciphering the Language of Protein
Bo Chen, Xingyi Cheng, Li-ao Gengyang, Shen Li, Xin Zeng, Boyan Wang, Gong Jing, Chiming Liu, Aohan Zeng, Yuxiao Dong, Jie Tang, Le Song
bioRxiv 2023.07.05.547496 • news • website • commercial
TULIP - a Transformer based Unsupervised Language model for Interacting Peptides and T-cell receptors that generalizes to unseen epitopes
Barthelemy Meynard-Piganeau, Christoph Feinauer, Martin Weigt, Aleksandra M Walczak, Thierry Mora
bioRxiv 2023.07.19.549669 • code
Efficient and accurate sequence generation with small-scale protein language models
Yaiza Serrano, Sergi Roda, Victor Guallar, Alexis Molina
bioRxiv 2023.08.04.551626
IMPROVING ANTIBODY AFFINITY USING LABORATORY DATA WITH LANGUAGE MODEL GUIDED DESIGN
Ben Krause, Subu Subramanian, Tom Yuan, Marisa Yang, Aaron Sato, Nikhil Naik
bioRxiv 2023.09.13.557505
NL2ProGPT: Taming Large Language Model for Conversational Protein Design
Anonymous
ICLR 2024
PepMLM: Target Sequence-Conditioned Generation of Peptide Binders via Masked Language Modeling
Tianlai Chen, Sarah Pertsemlidis, Rio Watson, Venkata Srikar Kavirayuni, Ashley Hsu, Pranay Vure, Rishab Pulugurta, Sophia Vincoff, Lauren Hong, Tian Wang, Vivian Yudistyra, Elena Haarer, Lin Zhao, Pranam Chatterjee
arXiv:2310.03842 • code
De novo generation of antibody CDRH3 with a pre-trained generative large language model
HaoHuai He, Bing He, Lei Guan, Yu Zhao, Guanxing Chen, Qingge Zhu, Calvin Yu-Chian Chen, Ting Li, Jianhua Yao
bioRxiv 2023.10.17.562827/Nature Communications 15.1 (2024) • code • data
SaLT&PepPr is an interface-predicting language model for designing peptide-guided protein degraders
Garyk Brixi, Tianzheng Ye, Lauren Hong, Tian Wang, Connor Monticello, Natalia Lopez-Barbosa, Sophia Vincoff, Vivian Yudistyra, Lin Zhao, Elena Haarer, Tianlai Chen, Sarah Pertsemlidis, Kalyan Palepu, Suhaas Bhat, Jayani Christopher, Xinning Li, Tong Liu, Sue Zhang, Lillian Petersen, Matthew P. DeLisa & Pranam Chatterjee
Commun Biol 6, 1081 (2023) • code
ProteinNPT: Improving Protein Property Prediction and Design with Non-Parametric Transformers
Pascal Notin, Ruben Weitzman, Debora S Marks, Yarin Gal
bioRxiv 2023.12.06.570473 • code
The promises of large language models for protein design and modeling
Giorgio Valentini, Dario Malchiodi, Jessica Gliozzo, Marco Mesiti, Mauricio Soto-Gomez, Alberto Cabri, Justin Reese, Elena Casiraghi, and Peter N. Robinson
Frontiers in Bioinformatics 3 (2023)
Conversational Drug Editing Using Retrieval and Domain Feedback
Shengchao Liu, Jiongxiao Wang, Yijin Yang, Chengpeng Wang, Ling Liu, Hongyu Guo, Chaowei Xiao
ICLR (2024) • code • website
ProtAgents: Protein discovery via large language model multi-agent collaborations combining physics and machine learning
Alireza Ghafarollahi, Markus J. Buehler
arXiv:2402.04268 • code
Designing proteins with language models
Ruffolo, J.A., Madani, A
Nat Biotechnol 42, 200–202 (2024) • review
ProLLaMA: A Protein Large Language Model for Multi-Task Protein Language Processing
Liuzhenghao Lv, Zongying Lin, Hao Li, Yuyang Liu, Jiaxi Cui, Calvin Yu-Chian Chen, Li Yuan, Yonghong Tian
arXiv:2402.16445 • code
Combining machine learning with structure-based protein design to predict and engineer post-translational modifications of proteins
Moritz Ertelt, Vikram Khipple Mulligan, Jack B. Maguire, Sergey Lyskov, Rocco Moretti, Torben Schiffner, Jens Meiler, Clara T. Schoeder
PLOS Computational Biology 20(3): e1011939 • code
Combining Rosetta Sequence Design with Protein Language Model Predictions Using Evolutionary Scale Modeling (ESM) as Restraint
Moritz Ertelt, Jens Meiler, and Clara T. Schoeder
ACS Synth. Biol. 2024 • code
Design of Antigen-Specific Antibody CDRH3 Sequences Using AI and Germline-Based Templates
Toma M. Marinov, Alexandra A. Abu-Shmais, Alexis K. Janke, Ivelin S. Georgiev
bioRxiv 2024.03.22.586241
Design of highly functional genome editors by modeling the universe of CRISPR-Cas sequences
Jeffrey A. Ruffolo, Stephen Nayfach, Joseph Gallagher, Aadyot Bhatnagar, Joel Beazer, Riffat Hussain, Jordan Russ, Jennifer Yip, Emily Hill, Martin Pacesa, Alexander J. Meeske, Peter Cameron, Ali Madani
bioRxiv 2024.04.22.590591 • code
Functional Protein Design with Local Domain Alignment
Chaohao Yuan, Songyou Li, Geyan Ye, Yikun Zhang, Long-Kai Huang, Wenbing Huang, Wei Liu, Jianhua Yao, Yu Rong
arXiv:2404.16866
The Continuous Language of Protein Structure
Lukas Billera, Anton Oresten, Aron Stålmarck, Kenta Sato, Mateusz Kaduk, Ben Murrell
bioRxiv 2024.05.11.593685 • code
Generative Enzyme Design Guided by Functionally Important Sites and Small-Molecule Substrates
Zhenqiao Song, Yunlong Zhao, Wenxian Shi, Wengong Jin, Yang Yang, Lei Li
arXiv:2405.08205/ICML 2024 • code
A generative foundation model for antibody sequence understanding
Justin Barton, Aretas Gaspariunas, David A Yadin, Jorge Dias, Francesca L Nice, Danielle H Minns, Olivia Snudden, Chelsea Povall, Sara Valle Tomas, Harry Dobson, James HR Farmery, Jinwoo Leem, Jacob D Galson
bioRxiv 2024.05.22.594943 • huggingface
Decoupled Sequence and Structure Generation for Realistic Antibody Design
Nayoung Kim, Minsu Kim, Sungsoo Ahn, Jinkyoo Park
arXiv:2402.05982/Under review for TMLR • code
Addressing the antibody germline bias and its effect on language models for improved antibody design
Tobias H. Olsen, Iain H. Moal, Charlotte M. Deane
bioRxiv 2024.02.02.578678/Bioinformatics (2024): btae618 • code
MoFormer: Multi-objective Antimicrobial Peptide Generation Based on Conditional Transformer Joint Multi-modal Fusion Descriptor
Li Wang, Xiangzheng Fu, Jiahao Yang, Xinyi Zhang, Xiucai Ye, Yiping Liu, Tetsuya Sakurai, Xiangxiang Zeng
arXiv:2406.00735
HELM-GPT: de novo macrocyclic peptide design using generative pre-trained transformer
Xiaopeng Xu, Chencheng Xu, Wenjia He, Lesong Wei, Haoyang Li, Juexiao Zhou, Ruochi Zhang, Yu Wang, Yuanpeng Xiong, Xin Gao
Bioinformatics (2024): btae364 • code
Unifying Sequences, Structures, and Descriptions for Any-to-Any Protein Generation with the Large Multimodal Model HelixProtX
Zhiyuan Chen, Tianhao Chen, Chenggang Xie, Yang Xue, Xiaonan Zhang, Jingbo Zhou, Xiaomin Fang
arXiv:2407.09274 • code
A foundation model approach to guide antimicrobial peptide design in the era of artificial intelligence driven scientific discovery
Jike Wang, Jianwen Feng, Yu Kang, Peichen Pan, Jingxuan Ge, Yan Wang, Mingyang Wang, Zhenxing Wu, Xingcai Zhang, Jiameng Yu, Xujun Zhang, Tianyue Wang, Lirong Wen, Guangning Yan, Yafeng Deng, Hui Shi, Chang-Yu Hsieh, Zhihui Jiang, Tingjun Hou
arXiv:2407.12296 • code
Conditional Sequence-Structure Integration: A Novel Approach for Precision Antibody Engineering and Affinity Optimization
Benyamin Jamialahmadi, Mahmood Chamankhah, Mohammad Kohandel, Ali Ghodsi
bioRxiv 2024.07.16.603820 • blog
moPPIt: De Novo Generation of Motif-Specific Binders with Protein Language Models
Tong Chen, Yinuo Zhang, Pranam Chatterjee
bioRxiv 2024.07.31.606098 • code
Toward De Novo Protein Design from Natural Language
Fengyuan Dai, Yuliang Fan, Jin Su, Chentong Wang, Chenchen Han, Xibin Zhou, Jianming Liu, Hui Qian, Shunzhi Wang, Anping Zeng, Yajie Wang, Fajie Yuan
bioRxiv 2024.08.01.606258 • demo
Design Proteins Using Large Language Models: Enhancements and Comparative Analyses
Kamyar Zeinalipour, Neda Jamshidi, Monica Bianchini, Marco Maggini, Marco Gori
arXiv:2408.06396 • code
Miniaturizing, Modifying, and Augmenting Nature's Proteins with Raygun
Kapil Devkota, Daichi Shonai, Joey Mao, Scott H Soderling, Rohit Singh
bioRxiv 2024.08.13.607858 • code
TourSynbio: A Multi-Modal Large Model and Agent Framework to Bridge Text and Protein Sequences for Protein Engineering
Yiqing Shen, Zan Chen, Michail Mamalakis, Yungeng Liu, Tianbin Li, Yanzhou Su, Junjun He, Pietro Liò, Yu Guang Wang
arXiv:2408.15299 • code • model • website • news • commercial
AbGPT: De Novo Antibody Design via Generative Language Modeling
Desmond Kuan, Amir Barati Farimani
arXiv:2409.06090 • code
PepINVENT: Generative peptide design beyond the natural amino acids
Gökçe Geylan, Jon Paul Janet, Alessandro Tibo, Jiazhen He, Atanas Patronov, Mikhail Kabeshov, Florian David, Werngard Czechtizky, Ola Engkvist, Leonardo De Maria
arXiv:2409.14040
Conditional Enzyme Generation Using Protein Language Models with Adapters
Jason Yang, Aadyot Bhatnagar, Jeffrey A. Ruffolo, Ali Madani
arXiv:2410.03634 • code
Re-examining Metrics for Success in Machine Learning, from Fairness and Interpretability to Protein Design
Frances Ding
Diss. University of California, Berkeley, 2024 • Phd thesis
Computational design of target-specific linear peptide binders with TransformerBeta
Haowen Zhao, Francesco A. Aprile, Barbara Bravi
arXiv:2410.16302 • code
Structure Language Models for Protein Conformation Generation
Jiarui Lu, Xiaoyin Chen, Stephen Zhewen Lu, Chence Shi, Hongyu Guo, Yoshua Bengio, Jian Tang
arXiv:2410.18403 • code
Peptide-GPT: Generative Design of Peptides using Generative Pre-trained Transformers and Bio-informatic Supervision
Aayush Shah, Chakradhar Guntuboina, Amir Barati Farimani
arXiv:2410.19222 • code
An adaptive autoregressive diffusion approach to design active humanized antibody and nanobody
Jian Ma, Fandi Wu, Tingyang Xu, Shaoyong Xu, Wei Liu, Divin Yan, Qifeng Bai, Jianhua Yao
bioRxiv 2024.10.22.619416 • code
Concept Bottleneck Language Models For protein design
Aya Abdelsalam Ismail, Tuomas Oikarinen, Amy Wang, Julius Adebayo, Samuel Stanton, Taylor Joren, Joseph Kleinhenz, Allen Goodman, Héctor Corrada Bravo, Kyunghyun Cho, Nathan C. Frey
arXiv:2411.06090
De novo design of triosephosphate isomerases using generative language models
Sergio Romero-Romero, Alexander E. Braun, Timo Kossendey, Noelia Ferruz, Steffen Schmidt, Birte Höcker
bioRxiv 2024.11.10.622869
Natural Language Prompts Guide the Design of Novel Functional Protein Sequences
Nikša Praljak, Hugh Yeh, Miranda Moore, Michael Socolich, Rama Ranganathan, Andrew L. Ferguson
bioRxiv 2024.11.11.622734
Multi-purpose controllable protein generation via prompted language models
Zeyuan Wang, Binbin Chen, Keyan Ding, Jiawen Cao, Ming Qin, Yadan Niu, Xiang Zhuang, Xiaotong Li, Kehua Feng, Tong Xu, Ningyu Zhang, Haoran Yu, Qiang Zhang, Huajun Chen
bioRxiv 2024.11.17.624051
Antiviral Peptide-Generative Pre-Trained Transformer (AVP-GPT): A Deep Learning-Powered Model for Antiviral Peptide Design with High-Throughput Discovery and Exceptional Potency
Huajian Zhao, Gengshen Song
Viruses 16.11 (2024)
Pan-protein Design Learning Enables Task-adaptive Generalization for Low-resource Enzyme Design
Jiangbin Zheng, Ge Wang, Han Zhang, Stan Z. Li
arXiv:2411.17795
ProtDAT: A Unified Framework for Protein Sequence Design from Any Protein Text Description
Xiao-Yu Guo, Yi-Fan Li, Yuan Liu, Xiaoyong Pan, Hong-Bin Shen
arXiv:2412.04069 • code
Annotation-guided Protein Design with Multi-Level Domain Alignment
Chaohao Yuan, Songyou Li, Geyan Ye, Yikun Zhang, Long-Kai Huang, Wenbing Huang, Wei Liu, Jianhua Yao, Yu Rong
arXiv:2404.16866
Open-Source Protein Language Models for Function Prediction and Protein Design
Shivasankaran Vanaja Pandi, Bharath Ramsundar
arXiv:2412.13519
Discovery and language model-guided design of hyperactive transposase
Marc Güell, Dimitrije Ivančić, Alejandro Agudelo, Jonathan Lindstrom-Vautri, Jessica Jaraba-Wallace, Maria Gallo, Alejandro Ragel, Irene Higueras, Federico Billeci, Marta Sanvicente, Paolo Petazzi, Noelia Ferruz, Avencia Sánchez-Mejías, Ravi Das
preprint • code • Progen2-based
Optimistic Games for Combinatorial Bayesian Optimization with Applications to Protein Design
Melis Ilayda Bal, Pier Giuseppe Sessa, Mojmir Mutny, Andreas Krause
NeurIPS 2023 Workshop on Adaptive Experimental Design and Active Learning in the Real World, 2023/arXiv:2409.18582
Discovering de novo peptide substrates for enzymes using machine learning
Lorillee Tallorin, JiaLei Wang, Woojoo E. Kim, Swagat Sahu, Nicolas M. Kosa, Pu Yang, Matthew Thompson, Michael K. Gilson, Peter I. Frazier, Michael D. Burkart & Nathan C. Gianneschi
Nature communications 9.1 (2018) • code
Biological Sequences Design using Batched Bayesian Optimization
David Belanger, Suhani Vora, Zelda Mariet, Ramya Deshpande, David Dohan, Christof Angermueller, Kevin Murphy, Olivier Chapelle, Lucy Colwell
Machine Learning and the Physical Sciences Workshop (NeurIPS 2019)
Lattice protein design using Bayesian learning
Takahashi, Tomoei, George Chikenji, and Kei Tokita
arXiv:2003.06601/Physical Review E 104.1 (2021): 014404
Now What Sequence? Pre-trained Ensembles for Bayesian Optimization of Protein Sequences
Ziyue Yang, Katarina A Milas, Andrew D White
bioRxiv 2022.08.05.502972 • code • Supplementary • Colab
AntBO: Towards Real-World Automated Antibody Design with Combinatorial Bayesian Optimisation
Asif Khan, Alexander I. Cowen-Rivers, Antoine Grosnit, Derrick-Goh-Xin Deik, Philippe A. Robert, Victor Greiff, Eva Smorodina, Puneet Rawat, Kamil Dreczkowski, Rahmad Akbar, Rasul Tutunov, Dany Bou-Ammar, Jun Wang, Amos Storkey, Haitham Bou-Ammar
arXiv preprint (2022)/Cell Reports Methods (2023): 100374
Accelerating Bayesian Optimization for Biological Sequence Design with Denoising Autoencoders
Samuel Stanton, Wesley Maddox, Nate Gruver, Phillip Maffettone, Emily Delaney, Peyton Greenside, Andrew Gordon Wilson
ICML 2022 • code
Statistical Mechanics of Protein Design
Takahashi, Tomoei, George Chikenji, and Kei Tokita
arXiv preprint arXiv:2205.03696 (2022)
PropertyDAG: Multi-objective Bayesian optimization of partially ordered, mixed-variable properties for biological sequence design
Ji Won Park, Samuel Stanton, Saeed Saremi, Andrew Watkins, Henri Dwyer, Vladimir Gligorijevic, Richard Bonneau, Stephen Ra, Kyunghyun Cho
arXiv:2210.04096
A probabilistic view of protein stability, conformational specificity, and design
Jacob A. Stern, Tyler J. Free, Kimberlee L. Stern, Spencer Gardiner, Nicholas A. Dalley, Bradley C. Bundy, Joshua L. Price, David Wingate, Dennis Della Corte
bioRxiv 2022.12.28.521825/Scientific Reports 13.1 (2023) • code • Supplementary
Design of antimicrobial peptides containing non-proteinogenic amino acids using multi-objective Bayesian optimisation
Murakami Y, Ishida S, Demizu Y, Terayama K
ChemRxiv. Cambridge: Cambridge Open Engage; 2023 • code
Vaxformer: Antigenicity-controlled Transformer for Vaccine Design Against SARS-CoV-2
Aryo Pradipta Gema, Michał Kobiela, Achille Fraisse, Ajitha Rajan, Diego A. Oyarzún, Javier Antonio Alfaro
arXiv:2305.11194 • code
Sample-efficient Antibody Design through Protein Language Model for Risk-aware Batch Bayesian Optimization
Yanzheng Wang, Boyue Wang, Tianyu Shi, Jie Fu, Yi Zhou, Zhizhuo Zhang
bioRxiv 2023.11.06.565922
Integrating Protein Structure Prediction and Bayesian Optimization for Peptide Design
Negin Manshour, Fei He, Duolin Wang, Dong Xu
NeurIPS 2023 Generative AI and Biology (GenBio) Workshop. 2023
Bayesian Optimisation for Protein Sequence Design: Gaussian Processes with Zero-Shot Protein Language Model Prior Mean
Carolin Benjamins, Shikha Surana, Oliver Bent, Marius Lindauer, Paul Duckworth
Machine Learning for Structural Biology Workshop, NeurIPS 2024
Model-based reinforcement learning for biological sequence design
Christof Angermueller, David Dohan, David Belanger, Ramya Deshpande, Kevin Murphy, Lucy Colwell
International conference on learning representations. 2019
Structured Q-learning For Antibody Design
Alexander I. Cowen-Rivers, Philip John Gorinski, Aivar Sootla, Asif Khan, Liu Furui, Jun Wang, Jan Peters, Haitham Bou Ammar
arXiv preprint arXiv:2209.04698 (2022)
Protein Sequence Design in a Latent Space via Model-based Reinforcement Learning
Minji Lee, Luiz Felipe Vecchietti, Hyunkyu Jung, Hyunjoo Ro, Ho Min Kim, Meeyoung Cha
ICLR 2023/NeurIPS 2022 • Supplementary
Designing Biological Sequences via Meta-Reinforcement Learning and Bayesian Optimization
Leo Feng, Padideh Nouri, Aneri Muni, Yoshua Bengio, Pierre-Luc Bacon
arXiv:2209.06259/NeurIPS 2022 • poster
Self-play reinforcement learning guides protein engineering
Yi Wang, Hui Tang, Lichao Huang, Lulu Pan, Lixiang Yang, Huanming Yang, Feng Mu & Meng Yang
Nature Machine Intelligence (2023) • code
Curiosity Driven Protein Sequence Generation via Reinforcement Learning
Anonymous
ICLR 2024
Stable Online and Offline Reinforcement Learning for Antibody CDRH3 Design
Yannick Vogt, Mehdi Naouar, Maria Kalweit, Christoph Cornelius Miething, Justus Duyster, Roland Mertelsmann, Gabriel Kalweit, Joschka Boedecker
arXiv:2401.05341
Peptide Vaccine Design by Evolutionary Multi-Objective Optimization
Dan-Xuan Liu, Yi-Heng Xu, Chao Qian
arXiv:2406.05743
Reinforcement Learning for Sequence Design Leveraging Protein Language Models
Jithendaraa Subramanian, Shivakanth Sujit, Niloy Irtisam, Umong Sain, Derek Nowrouzezahrai, Samira Ebrahimi Kahou, Riashat Islam
arXiv:2407.03154
BetterBodies: Reinforcement Learning guided Diffusion for Antibody Sequence Design
Yannick Vogt, Mehdi Naouar, Maria Kalweit, Christoph Cornelius Miething, Justus Duyster, Joschka Boedecker, Gabriel Kalweit
arXiv:2409.16298
Reinforcement learning-driven exploration of peptide space: accelerating generation of drug-like peptides
Qian Wang, Xiaotong Hu, Zhiqiang Wei, Hao Lu, Hao Liu
Briefings in Bioinformatics 25.5 (2024): bbae444 • code
Guiding Generative Protein Language Models with Reinforcement Learning
Filippo Stocco, Maria Artigues-Lleixa, Andrea Hunklinger, Talal Widatalla, Marc Guell, Noelia Ferruz
arXiv:2412.12979 • code
Biological Sequence Design with GFlowNets
Moksh Jain, Emmanuel Bengio, Alex-Hernandez Garcia, Jarrid Rector-Brooks, Bonaventure F. P. Dossou, Chanakya Ekbote, Jie Fu, Tianyu Zhang, Micheal Kilgour, Dinghuai Zhang, Lena Simine, Payel Das, Yoshua Bengio
arXiv preprint arXiv:2203.04115 (2022) • lecture
Deep learning to design nuclear-targeting abiotic miniproteins
Carly K. Schissel, Somesh Mohapatra, Justin M. Wolfe, Colin M. Fadzen, Kamela Bellovoda, Chia-Ling Wu, Jenna A. Wood, Annika B. Malmberg, Andrei Loas, Rafael Gómez-Bombarelli & Bradley L. Pentelute
Nature Chemistry 13.10 (2021) • code
Recurrent neural network model for constructive peptide design
Müller, Alex T., Jan A. Hiss, and Gisbert Schneider
Journal of chemical information and modeling 58.2 (2018)
Machine learning designs non-hemolytic antimicrobial peptides
Alice Capecchi, Xingguang Cai, Hippolyte Personne, Thilo Köhler, Christian van Delden, and Jean-Louis Reymond
Chemical Science 12.26 (2021)
Using molecular dynamics simulations to prioritize and understand AI-generated cell penetrating peptides
Duy Phuoc Tran, Seiichi Tada, Akiko Yumoto, Akio Kitao, Yoshihiro Ito, Takanori Uzawa & Koji Tsuda
Scientific reports 11.1 (2021)
De novo antioxidant peptide design via machine learning and DFT studies
Parsa Hesamzadeh, Abdolvahab Seif, Kazem Mahmoudzadeh, Mokhtar Ganjali Koli, Amrollah Mostafazadeh, Kosar Nayeri, Zohreh Mirjafary & Hamid Saeidian
Scientific Reports 14.1 (2024) • code
Computational antimicrobial peptide design and evaluation against multidrug-resistant clinical isolates of bacteria
Deepesh Nagarajan, Tushar Nagarajan, Natasha Roy, Omkar Kulkarni, Sathyabaarathi Ravichandran, Madhulika Mishra
Dipshikha Chakravortty, Nagasuma Chandra
Journal of Biological Chemistry 293.10 (2018)
Deep learning enables the design of functional de novo antimicrobial proteins
Javier Caceres-Delpiano, Roberto Ibañez, Patricio Alegre, Cynthia Sanhueza, Romualdo Paz-Fiblas, Simon Correa, Pedro Retamal, Juan Cristóbal Jiménez, Leonardo Álvarez
bioRxiv (2020)
ECNet is an evolutionary context-integrated deep learning framework for protein engineering
Yunan Luo, Guangde Jiang, Tianhao Yu, Yang Liu, Lam Vo, Hantian Ding, Yufeng Su, Wesley Wei Qian, Huimin Zhao & Jian Peng
Nature communications 12.1 (2021)
Deep learning for novel antimicrobial peptide design
Wang, Christina, Sam Garlick, and Mire Zloh
Biomolecules 11.3 (2021)
Antibody design using LSTM based deep generative model from phage display library for affinity maturation
Koichiro Saka, Taro Kakuzaki, Shoichi Metsugi, Daiki Kashiwagi, Kenji Yoshida, Manabu Wada, Hiroyuki Tsunoda & Reiji Teramoto
Scientific reports 11.1 (2021)
In silico proof of principle of machine learning-based antibody design at unconstrained scale
Akbar, Rahmad, et al
Mabs. Vol. 14. No. 1. Taylor & Francis, 2022 • code
Large-scale design and refinement of stable proteins using sequence-only models
Jedediah M. Singer , Scott Novotney, Devin Strickland, Hugh K. Haddox, Nicholas Leiby, Gabriel J. Rocklin, Cameron M. Chow, Anindya Roy, Asim K. Bera, Francis C. Motta, Longxing Cao, Eva-Maria Strauch, Tamuka M. Chidyausiku, Alex Ford, Ethan Ho, Alexander Zaitzeff, Craig O. Mackenzie, Hamed Eramian, Frank DiMaio, Gevorg Grigoryan, Matthew Vaughn, Lance J. Stewart, David Baker, Eric Klavins
PloS one 17.3 (2022) • code
Deep-learning based bioactive therapeutic peptides generation and screening
Haiping Zhang, Konda Mani Saravanan, Yanjie Wei, Yang Jiao, Yang Yang, Yi Pan, Xuli Wu, John Z.H. Zhang
bioRxiv 2022.11.14.516530 • code • Supplementary
Deep-learning based bioactive peptides generation and screening against Xanthine oxidase
Haiping Zhang, Konda Mani Saravanan, John Z.H. Zhang, Xuli Wu
bioRxiv 2023.01.11.523536
Deep Learning-Based Bioactive Therapeutic Peptide Generation and Screening
Haiping Zhang, Konda Mani Saravanan, Yanjie Wei, Yang Jiao, Yang Yang, Yi Pan, Xuli Wu, and John Z. H. Zhang
Journal of Chemical Information and Modeling 63.3 (2023) • code
Bio-xLSTM: Generative modeling, representation and in-context learning of biological and chemical sequences
Niklas Schmidinger, Lisa Schneckenreiter, Philipp Seidl, Johannes Schimunek, Pieter-Jan Hoedt, Johannes Brandstetter, Andreas Mayr, Sohvi Luukkonen, Sepp Hochreiter, Günter Klambauer
arXiv:2411.04165
Efficient generative modeling of protein sequences using simple autoregressive models
Jeanne Trinquier, Guido Uguzzoni, Andrea Pagnani, Francesco Zamponi & Martin Weigt
Nature communications 12.1 (2021): 1-11 • code
Conformal prediction for the design problem
Clara Fannjiang, Stephen Bates, Anastasios N. Angelopoulos, Jennifer Listgarten, Michael I. Jordan
arXiv:2202.03613v4 • code
How pairwise coevolutionary models capture the collective residue variability in proteins?
Figliuzzi, Matteo, Pierre Barrat-Charlaix, and Martin Weigt
Molecular biology and evolution 35.4 (2018): 1018-1027 • code
A Pareto-optimal compositional energy-based model for sampling and optimization of protein sequences
Nataša Tagasovska, Nathan C. Frey, Andreas Loukas, Isidro Hötzel, Julien Lafrance-Vanasse, Ryan Lewis Kelly, Yan Wu, Arvind Rajpal, Richard Bonneau, Kyunghyun Cho, Stephen Ra, Vladimir Gligorijević
arXiv:2210.10838 • slides
Computational design of novel Cas9 PAM-interacting domains using evolution-based modelling and structural quality assessment
Cyril Malbranke, William Rostain, Florence Depardieu, Simona Cocco, Remi Monasson, David Bikard
bioRxiv 2023.03.20.533501 • code • Supplementary
Protein Discovery with Discrete Walk-Jump Sampling
Nathan C. Frey, Daniel Berenberg, Karina Zadorozhny, Joseph Kleinhenz, Julien Lafrance-Vanasse, Isidro Hotzel, Yan Wu, Stephen Ra, Richard Bonneau, Kyunghyun Cho, Andreas Loukas, Vladimir Gligorijevic, Saeed Saremi
arXiv:2306.12360/ICLR 2024 • code • lecture
denoising-diffusion-protein-sequence
Zhangzhi Peng
Paper unavailable • github
Protein Design with Guided Discrete Diffusion
Nate Gruver, Samuel Stanton, Nathan C. Frey, Tim G. J. Rudner, Isidro Hotzel, Julien Lafrance-Vanasse, Arvind Rajpal, Kyunghyun Cho, Andrew Gordon Wilson
arXiv:2305.20009/Advances in neural information processing systems, 2024 • code • lecture
PRO-LDM: Protein Sequence Generation with Conditional Latent Diffusion Models
Zixuan Jiang, Sitao Zhang, Rundong Huang, Shaoxun Mo, Letao Zhu, Peiheng Li, Ziyi Zhang, Xi Chen, Yunfei Long, Renjing Xu, Rui Qing
bioRxiv 2023.08.22.554145 • Supplementary
Protein generation with evolutionary diffusion: sequence is all you need
Sarah Alamdari, Nitya Thakkar, Rianne van den Berg, Alex Xijie Lu, Nicolo Fusi, Ava Pardis Amini, Kevin K Yang
bioRxiv 2023.09.11.556673 • code • data • lecture, lecture2
AntiBARTy Diffusion for Property Guided Antibody Design
Jordan Venderley
arXiv:2309.13129
PD-1 Targeted Antibody Discovery Using AI Protein Diffusion
Colby T. Ford
bioRxiv 2024.01.18.576323 • code
ProT-Diff: A Modularized and Efficient Approach to De Novo Generation of Antimicrobial Peptide Sequences through Integration of Protein Language Model and Diffusion Model
Xue-Fei Wang, Jing-Ya Tang, Han Liang, Jing Sun, Sonam Dorje, Bo Peng, Xu-Wo Ji, Zhe Li, Xian-En Zhang, Dian-Bing Wang
bioRxiv 2024.02.22.581480 • Supplementary
TaxDiff: Taxonomic-Guided Diffusion Model for Protein Sequence Generation
Lin Zongying, Li Hao, Lv Liuzhenghao, Lin Bin, Zhang Junwu, Chen Calvin Yu-Chian, Yuan Li, Tian Yonghong
arXiv:2402.17156 • code
Diffusion on language model embeddings for protein sequence generation
Viacheslav Meshchaninov, Pavel Strashnov, Andrey Shevtsov, Fedor Nikolaev, Nikita Ivanisenko, Olga Kardymon, Dmitry Vetrov
arXiv:2403.03726
AMP-Diffusion: Integrating Latent Diffusion with Protein Language Models for Antimicrobial Peptide Generation
Tianlai Chen, Pranay Vure, Rishab Pulugurta, Pranam Chatterjee
bioRxiv 2024.03.03.583201
Atomically accurate de novo design of single-domain antibodies
Nathaniel R. Bennett, Joseph L. Watson, Robert J. Ragotte, Andrew J. Borst, DeJenae L. See, Connor Weidle, Riti Biswas, Ellen L. Shrock, Philip J. Y. Leung, Buwei Huang, Inna Goreshnik, Russell Ault, Kenneth D. Carr, Benedikt Singer, Cameron Criswell, Dionne Vafeados, Mariana Garcia Sanchez, Ho Min Kim, Susana Vazquez Torres, Sidney Chan, David Baker
bioRxiv 2024.03.14.585103 • Supplementary
Complex-based Ligand-Binding Proteins Redesign by Equivariant Diffusion-based Generative Models
Viet Thanh Duy Nguyen, Nhan Nguyen, Truong Son Hy
bioRxiv 2024.04.17.589997 • code
Cytochrome P450 Enzyme Design by Constraining Catalytic Pocket in Diffusion model
Qian Wang, Xiaonan Liu, Hejian Zhang, Huanyu Chu, Chao Shi, Lei Zhang, Jie Bai, Pi Liu, Jing Li, Xiaoxi Zhu, Yuwan Liu, Zhangxin Chen, Rong Huang, Hong Chang, Tian Liu, Zhenzhan Chang , Jian Cheng , and Huifeng Jiang
Research (2024) • code
Context-Guided Diffusion for Out-of-Distribution Molecular and Protein Design
Leo Klarner, Tim G. J. Rudner, Garrett M. Morris, Charlotte M. Deane, Yee Whye Teh
arXiv:2407.11942 • code
Secondary Structure-Guided Novel Protein Sequence Generation with Latent Graph Diffusion
Yutong Hu, Yang Tan, Andi Han, Lirong Zheng, Liang Hong, Bingxin Zhou
arXiv:2407.07443 • code
AI-generated small binder improves prime editing
Ju-Chan Park, Heesoo Uhm, Yong-Woo Kim, Ye Eun Oh, Sangsu Bae
bioRxiv 2024.09.11.612443 • Supplementary
MeMDLM: De Novo Membrane Protein Design with Masked Discrete Diffusion Protein Language Models
Shrey Goel, Vishrut Thoutam, Edgar Mariano Marroquin, Aaron Gokaslan, Arash Firouzbakht, Sophia Vincoff, Volodymyr Kuleshov, Huong T. Kratochvil, Pranam Chatterjee
arXiv:2410.16735
Retrieval Augmented Diffusion Model for Structure-informed Antibody Design and Optimization
Zichen Wang, Yaokun Ji, Jianing Tian, Shuangjia Zheng
arXiv:2410.15040
ProtDiff: Function-Conditioned Masked Diffusion Models for Robust Directed Protein Generation
Vishrut Thoutam, Yair Schiff, Sergey Ovchinnikov, Pranam Chatterjee
Neurips 2024 Workshop Foundation Models for Science: Progress, Opportunities, and Challenges
Generative Pretrained Autoregressive Transformer Graph Neural Network applied to the Analysis and Discovery of Novel Proteins
Markus J. Buehler
arXiv:2305.04934 • code
Microdroplet screening rapidly profiles a biocatalyst to enable its AI-assisted engineering
Maximilian Gantz, Simon V. Mathis, Friederike E. H. Nintzel, Paul J. Zurek, Tanja Knaus, Elie Patel, Daniel Boros, Friedrich-Maximilian Weberling, Matthew R. A. Kenneth, Oskar J. Klein, Elliot J. Medcalf, Jacob Moss, Michael Herger, Tomasz S. Kaminski, Francesco G. Mutti, Pietro Lio, Florian Hollfelder
bioRxiv (2024.04.08)
Bootstrapped Training of Score-Conditioned Generator for Offline Design of Biological Sequences
Minsu Kim, Federico Berto, Sungsoo Ahn, Jinkyoo Park
arXiv:2306.03111 • code
These models generate protein structures(including side chains) from expected function or recover a part of protein structures(aka. inpainting)
Towards deep learning sequence-structure co-generation for protein design
Chentong Wang, Sarah Alamdari, Carles Domingo-Enrich, Ava Amini, Kevin K. Yang
arXiv:2410.01773
One-sided design of protein-protein interaction motifs using deep learning
Syrlybaeva, Raulia, and Eva-Maria Strauch
bioRxiv (2022) • code • our notes • lecture
Protein Structure and Sequence Generation with Equivariant Denoising Diffusion Probabilistic Models
Namrata Anand, Tudor Achim
GitHub (2022)/arXiv (2022) • our notes • lecture
Antigen-Specific Antibody Design and Optimization with Diffusion-Based Generative Models for Protein Structures
Shitong Luo, Yufeng Su, Xingang Peng, Sheng Wang, Jian Peng, Jianzhu Ma
bioRxiv 2022.07.10.499510/ICML (2023) • code • hugging face
Illuminating protein space with a programmable generative model
John Ingraham, Max Baranov, Zak Costello, Vincent Frappier, Ahmed Ismail, Shan Tie, Wujie Wang, Vincent Xue, Fritz Obermeyer, Andrew Beam, Gevorg Grigoryan
Generate Biomedicines Preprint/bioRxiv 2022.12.01.518682/Nature (2023) • website • news • code • colab • commercial
Physics-Inspired Protein Encoder Pre-Training via Siamese Sequence-Structure Diffusion Trajectory Prediction
Zuobai Zhang, Minghao Xu, Aurélie Lozano, Vijil Chenthamarakshan, Payel Das, Jian Tang
arXiv:2301.12068 • code
TRDiffusion
TIANRANG XLab
news • website • commercial
An all-atom protein generative model
Alexander E Chu, Lucy Cheng, Gina El Nesr, Minkai Xu, Po-Ssu Huang
bioRxiv 2023.05.24.542194/Proceedings of the National Academy of Sciences 121.27 (2024) • code
DiffPack: A Torsional Diffusion Model for Autoregressive Protein Side-Chain Packing
Yangtian Zhan, Zuobai Zhang, Bozitao Zhong, Sanchit Misra, Jian Tang
arxiv 2023.06.01 • code
AbDiffuser: Full-Atom Generation of In-Vitro Functioning Antibodies
Karolis Martinkus, Jan Ludwiczak, Kyunghyun Cho, Wei-Ching Lian, Julien Lafrance-Vanasse, Isidro Hotzel, Arvind Rajpal, Yan Wu, Richard Bonneau, Vladimir Gligorijevic, Andreas Loukas
arXiv:2308.05027 • lecture
Generative Diffusion Models for Antibody Design, Docking, and Optimization
Zhangzhi Peng, Chenchen Han, Xiaohan Wang, Dapeng Li, Fajiie Yuan
bioRxiv 2023.09.25.559190 • code • website
Bridging Sequence and Structure: Latent Diffusion for Conditional Protein Generation
Anonymous
ICLR 2024
Guiding diffusion models for antibody sequence and structure co-design with developability properties
Amelia Villegas-Morcillo, Jana M. Weber, Marcel J.T. Reinders
bioRxiv 2023.11.22.568230/NeurIPS 2023 Generative AI and Biology Workshop • code
A Multi-Modal Contrastive Diffusion Model for Therapeutic Peptide Generation
Yongkang Wang, Xuan Liu, Feng Huang, Zhankun Xiong, Wen Zhang
arXiv:2312.15665 • code
Towards Joint Sequence-Structure Generation of Nucleic Acid and Protein Complexes with SE(3)-Discrete Diffusion
Alex Morehead, Jeffrey Ruffolo, Aadyot Bhatnagar, Ali Madani
arXiv:2401.06151 • code
Proteus: exploring protein structure generation for enhanced designability and efficiency
Chentong Wang, Yannan Qu, Zhangzhi Peng, Yukai Wang, Hongli Zhu, Dachuan Chen, Longxing Cao
bioRxiv 2024.02.10.579791 • code
Full-Atom Peptide Design with Geometric Latent Diffusion
Xiangzhe Kong, Wenbing Huang, Yang Liu
arXiv:2402.13555
A Hybrid Diffusion Model for Stable, Affinity-Driven, Receptor-Aware Peptide Generation
R Vishva Saravanan, Soham Choudhuri, Bhaswar Ghosh
bioRxiv 2024.03.14.584934 • code • dataset
Antigen-Specific Antibody Design via Direct Energy-based Preference Optimization
Xiangxin Zhou, Dongyu Xue, Ruizhe Chen, Zaixiang Zheng, Liang Wang, Quanquan Gu
arXiv:2403.16576
HelixDiff, a Score-Based Diffusion Model for Generating All-Atom α-Helical Structures
Xuezhi Xie, Pedro A Valiente, Jisun Kim, and Philip M Kim
ACS Central Science (2024) • code
Combining transformer and 3DCNN models to achieve co-design of structures and sequences of antibodies in a diffusional manner
Yue Hu, Feng Tao, Jun Wen Lan, Jing Zhang
bioRxiv 2024.04.25.587828 • code
Target-Specific De Novo Peptide Binder Design with DiffPepBuilder
Fanhao Wang, Yuzhe Wang, Laiyi Feng, Changsheng Zhang, Luhua Lai
arXiv:2405.00128/J. Chem. Inf. Model. 2024 • code
Improving Antibody Design with Force-Guided Sampling in Diffusion Models
Paulina Kulytė, Francisco Vargas, Simon Valentin Mathis, Yu Guang Wang, José Miguel Hernández-Lobato, Pietro Liò
arXiv:2406.05832
Antibody Design Using a Score-based Diffusion Model Guided by Evolutionary, Physical and Geometric Constraints
Tian Zhu, Milong Ren, Haicang Zhang
ICML 2024 • code
Antibody-SGM, a Score-Based Generative Model for Antibody Heavy-Chain Design
Xuezhi Xie, Pedro A. Valiente, Jin Sub Lee, Jisun Kim, Philip M. Kim
Journal of Chemical Information and Modeling (2024) • code
Hybrid Diffusion Model for Stable, Affinity-Driven, Receptor-Aware Peptide Generation
Vishva Saravanan R, Soham Choudhuri, Bhaswar Ghosh
J. Chem. Inf. Model. 2024 • code
De novo design of high-affinity protein binders with AlphaProteo
Vinicius Zambaldi, David La, Alexander E. Chu, Harshnira Patani, Amy E. Danson, Tristan O. C., Kwan, Thomas Frerix, Rosalia G. Schneider, David Saxton, Ashok Thillaisundaram, Zachary Wu, Isabel Moraes, Oskar Lange, Eliseo Papa, Gabriella Stanton, Victor Martin, Sukhdeep Singh, Lai H. Wong, Russ Bates, Simon A. Kohl, Josh Abramson, Andrew W. Senior, Yilmaz Alguel, Mary Y. Wu, Irene M. Aspalter, Katie Bentley, David L.V. Bauer, Peter Cherepanov, Demis Hassabis, Pushmeet Kohli, Rob Fergus, and Jue Wang
DeepMind Preprint/arXiv:2409.08022 • blog
DPLM-2: A Multimodal Diffusion Protein Language Model
Xinyou Wang, Zaixiang Zheng, Fei Ye, Dongyu Xue, Shujian Huang, Quanquan Gu
arXiv:2410.13782 • code • website
E(3)-invaraint diffusion model for pocket-aware peptide generation
Po-Yu Liang, Jun Bai
arXiv:2410.21335 • code
Generating All-Atom Protein Structure from Sequence-Only Training Data
Amy X. Lu, Wilson Yan, Sarah A. Robinson, Kevin K. Yang, Vladimir Gligorijevic, Kyunghyun Cho, Richard Bonneau, Pieter Abbeel, Nathan Frey
bioRxiv 2024.12.02.626353 • code
Deep learning methods for designing proteins scaffolding functional sites / Scaffolding protein functional sites using deep learning
Jue Wang, Sidney Lisanza, David Juergens, Doug Tischer, Ivan Anishchenko, Minkyung Baek, Joseph L. Watson, Jung Ho Chun, Lukas F. Milles, Justas Dauparas, Marc Expòsit, Wei Yang, Amijai Saragovi, Sergey Ovchinnikov, David Baker
bioRxiv(2021)/Science(2022) • RFDesign • our notes • lecture • RoseTTAFold • Supplementary, Other Supplementary
Broadly applicable and accurate protein design by integrating structure prediction networks and diffusion generative models / De novo design of protein structure and function with RFdiffusion
Joseph L. Watson, David Juergens, Nathaniel R. Bennett, Brian L. Trippe, Jason Yim, Helen E. Eisenach, Woody Ahern, Andrew J. Borst, Robert J. Ragotte, Lukas F. Milles, Basile I. M. Wicky, Nikita Hanikel, Samuel J. Pellock, Alexis Courbet, William Sheffler, Jue Wang, Preetham Venkatesh, Isaac Sappington, Susana Vázquez Torres, Anna Lauko, Valentin De Bortoli, Emile Mathieu, Regina Barzilay, Tommi S. Jaakkola, Frank DiMaio, Minkyung Baek, David Baker
Bakerlab Preprint/bioRxiv 2022.12.09.519842/Nature (2023) • news, news2, news3 • Supplementary • lecture, lecture2 • RFdiffusion:code, Colab • blog
De novo design of high-affinity protein binders to bioactive helical peptides
Susana Vázquez Torres, Philip J. Y. Leung, Isaac D. Lutz, Preetham Venkatesh, Joseph L Watson, Fabian Hink, Huu-Hien Huynh, Andy Hsien-Wei Yeh, David Juergens, Nathaniel R. Bennett, Andrew N. Hoofnagle, Eric Huang, Michael J. MacCoss, Marc Expòsit, Gyu Rie Lee, Elif Nihal Korkmaz, Jeff Nivala, Lance Stewart, Joseph M. Rodgers, David Baker
bioRxiv 2022.12.10.519862/Nature (2023) • Supplementary
Joint Generation of Protein Sequence and Structure with RoseTTAFold Sequence Space Diffusion
Sidney Lyayuga Lisanza, Jacob Merle Gershon, Sam Wayne Kenmore Tipps, Lucas Arnoldt, Samuel Hendel, Jeremiah Nelson Sims, Xinting Li, David Baker
bioRxiv 2023.05.08.539766/Nat Biotechnol (2024) • code • hugging face • lecture
The structural landscape of the immunoglobulin fold by large-scale de novo design
Jorge Roel-Touris, Lourdes Carcelen, Enrique Marcos
bioRxiv 2023.10.03.560637/Protein Science (2024) • Supplementary • code • data
Generalized Biomolecular Modeling and Design with RoseTTAFold All-Atom
Rohith Krishna, Jue Wang, Woody Ahern, Pascal Sturmfels, Preetham Venkatesh, Indrek Kalvet, Gyu Rie Lee, Felix S Morey-Burrows, Ivan Anishchenko, Ian R Humphreys, Ryan McHugh, Dionne Vafeados, Xinting Li, George A Sutherland, Andrew Hitchcock, C Neil Hunter, Minkyung Baek, Frank DiMaio, David Baker
bioRxiv 2023.10.09.561603/Science • Supplementary • code
Amalga: Designable Protein Backbone Generation with Folding and Inverse Folding Guidance
Shugao Chen, Ziyao Li, Xiangxiang Zeng, Guolin Ke
bioRxiv 2023.11.07.565939
Accurate single domain scaffolding of three non-overlapping protein epitopes using deep learning
Karla M Castro, Joseph L Watson, Jue Wang, Joshua Southern, Reyhaneh Ayardulabi, Sandrine Georgeon, Stephane Rosset, David Baker, Bruno E Correia
bioRxiv 2024.05.07.592871 • Supplementary
Diversifying de novo TIM barrels by hallucination
Beck, Julian, Sooruban Shanmugaratnam, and Birte Höcker
Protein Science 33.6 (2024)
De novo designed proteins neutralize lethal snake venom toxins
Susana Vázquez Torres, Melisa Benard Valle, Stephen P. Mackessy, Stefanie K. Menzies, Nicholas R. Casewell, Shirin Ahmadi, Nick J. Burlet, Edin Muratspahić, Isaac Sappington, Max D.Overath, Esperanza Rivera-de-Torre, Jann Ledergerber, Andreas H. Laustsen, Kim Boddum, Asim K.Bera, Alex Kang,Evans Brackenbrough, Iara A. Cardoso, Edouard P. Crittenden, Rebecca J.Edge, Justin Decarreau, Robert J. Ragotte, Arvind S. Pillai, Mohamad Abedi, Hannah L. Han,Stacey R. Gerben, Analisa Murray, Rebecca Skotheim, Lynda Stuart, Lance Stewart, Thomas J.A. Fryer, Timothy P. Jenkins, David Baker
PREPRINT (Version 1) available at Research Square
Controlling semiconductor growth with structured de novo protein interfaces
Amijai Saragovi, Harley Pyles, Paul Kwon, Nikita Hanikel, Fátima A. Dávila-Hernández, Asim K. Bera, Alex Kang, Evans Brackenbrough, Dionne K. Vafeados, Aza Allen, Lance Stewart, David Baker
bioRxiv 2024.06.24.600095 • Supplementary
Diffusing protein binders to intrinsically disordered proteins
Caixuan Liu, Kejia Wu, Hojun Choi, Hannah Han, Xueli Zhang, Joseph L Watson, Sara Shijo, Asim K Bera, Alex Kang, Evans Brackenbrough, Brian Coventry, Derrick R Hick, Andrew N Hoofnagle, Ping Zhu, Xingting Li, Justin Decarreau, Stacey R Gerben, Wei Yang, Xinru Wang, Mila Lamp, Analisa Murray, Magnus Bauer, David Baker
bioRxiv 2024.07.16.603789 • Supplementary
Parametrically guided design of beta barrels and transmembrane nanopores using deep learning
David E. Kim, Joseph L. Watson, David Juergens, Sagardip Majumder, Stacey R. Gerben, Alex Kang, Asim K. Bera, Xinting Li, David Baker
bioRxiv 2024.07.22.604663 • Supplementary • code1, code2
Computational design of highly active de novo enzymes
Markus Braun, Adrian Tripp, Morakot Chakatok, Sigrid Kaltenbrunner, Massimo G. Totaro, David Stoll, Aleksandar Bijelic, Wael Elaily, Shlomo Yakir Yakir Hoch, Matteo Aleotti, Melanie Hall, Gustav Oberdorfer
bioRxiv 2024.08.02.606416 • Supplementary
Computational design of serine hydrolases
Anna Lauko, Samuel J Pellock, Ivan Anischanka, Kiera H Sumida, David Juergens, Woody Ahern, Alex Shida, Andrew Hunt, Indrek Kalvet, Christoffer Norn, Ian R Humphreys, Cooper S Jamieson, Alex Kang, Evans Brackenbrough, Banumathi Sankaran, K N Houk, David Baker
bioRxiv 2024.08.29.610411
De novo design of Ras isoform selective binders
Jason Zhaoxing Zhang, Xinting Li, Caixuan Liu, Hanlun Jiang, Kejia Wu, David Baker
bioRxiv 2024.08.29.610300
Improved protein binder design using beta-pairing targeted RFdiffusion
Isaac Sappington, Martin Toul, David S. Lee, Stephanie A. Robinson, Inna Goreshnik, Clara McCurdy, Tung Ching Chan, Nic Buchholz, Buwei Huang, Dionne Vafeados, Mariana Garcia-Sanchez, Nicole Roullier, Matthias Glögl, Chris Kim, Joseph L. Watson, Susana Vázquez Torres, Koen H. G. Verschueren, Kenneth Verstraete, Cynthia S. Hinck, Melisa Benard-Valle, Brian Coventry, Jeremiah Nelson Sims, Green Ahn, Xinru Wang, Andrew P. Hinck, Timothy P. Jenkins, Hannele Ruohola-Baker, Steven M. Banik, Savvas N. Savvides, David Baker
bioRxiv 2024.10.11.617496 • Supplementary
Afpdb–an efficient structure manipulation package for AI protein design
Yingyao Zhou, Jiayi Cox, Bin Zhou, Steven Zhu, Yang Zhong, Glen Spraggon
Bioinformatics (2024): btae654 • code • website
GRACE: Generative Redesign in Artificial Computational Enzymology
Ruei-En, HuChi-Hua, Yu I-Son Ng
ACS Synthetic Biology (2024) • code
Computational Design of Metallohydrolases
Donghyo Kim, Seth M. Woodbury, Woody Ahern, Indrek Kalvet, Nikita Hanikel, Saman Salike, Samuel J. Pellock, Anna Lauko, Donald Hilvert, David Baker
bioRxiv 2024.11.13.623507 • Supplementary
Design of facilitated dissociation enables control over cytokine signaling duration
Adam J. Broerman, Christoph Pollmann, Mauriz A. Lichtenstein, Mark D. Jackson, Maxx H. Tessmer, Won Hee Ryu, Mohamad H. Abedi, Danny D. Sahtoe, Aza Allen, Alex Kang, Joshmyn De La Cruz, Evans Brackenbrough, Banumathi Sankaran, Asim K. Bera, Daniel M. Zuckerman, Stefan Stoll, Florian Praetorius, Jacob Piehler, David Baker
bioRxiv 2024.11.15.623900 • Supplementary
Accurate de novo design of high-affinity protein binding macrocycles using deep learning
Stephen A. Rettie, David Juergens, Victor Adebomi, Yensi Flores Bueso, Qinqin Zhao, Alexandria N. Leveille, Andi Liu, Asim K. Bera, Joana A. Wilms, Alina Üffing, Alex Kang, Evans Brackenbrough, Mila Lamb, Stacey R. Gerben, Analisa Murray, Paul M. Levine, Maika Schneider, Vibha Vasireddy, Sergey Ovchinnikov, Oliver H. Weiergräber, Dieter Willbold, Joshua A. Kritzer, Joseph D. Mougous, David Baker, Frank DiMaio, Gaurav Bhardwaj
bioRxiv 2024.11.18.622547 • Supplementary
Engineering de novo binder CAR-T cell therapies with generative AI
Markus Mergen, Daniela Abele, Naile Koleci, Alba Schmahl Fernandez, Maya Sugden, Noah Holzleitner, Andreas Carr, Leonie Rieger, Valentina Leone, Maximilian Reichert, Karl-Ludwig Laugwitz, Florian Bassermann, Dirk H. Busch, Julian Grünewald, Andrea Schmidts
bioRxiv 2024.11.25.625151 • RFDiffusion/ProteinMPNN-based
CycleDesigner: Leveraging RFdiffusion and HighFold to Design Cyclic Peptide Binders for Specific Targets
Chenhao Zhang, Zhenyu Xu, Kang Lin, Chengyun Zhang, Wen Xu, Hongliang Duan
bioRxiv 2024.11.27.625581 • RFDiffusion/ProteinMPNN-based
De novo designed pMHC binders facilitate T cell induced killing of cancer cells
Kristoffer Haurum Johansen, Darian Stephan Wolff, Beatrice Scapolo, Monica L. Fernández Quintero, Charlotte Risager Christensen, Johannes R. Loeffler, Esperanza Rivera-de-Torre, Max D. Overath, Kamilla Kjærgaard Munk, Oliver Morell, Marie Christine Viuff, Alberte T. Damm Englund, Mathilde Due, Stefano Forli, Emma Qingjie Andersen, Jordan Sylvester Fernandes, Suthimon Thumtecho, Andrew B. Ward, Maria Ormhøj, Sine Reker Hadrup, Timothy P. Jenkins
bioRxiv 2024.11.27.624796 • Supplementary
Target-conditioned diffusion generates potent TNFR superfamily antagonists and agonists
Matthias Glögl, Aditya Krishnakumar, Robert J. Ragotte, Inna Goreshnik, Brian Coventry, Asim K. Bera, Alex Kang, Emily Joyce, Green Ahn, Buwei Huang, Wei Yang, Wei Chen, Mariana Garcia Sanchez, Brian Koepnick, David Baker
Science 386.6726 (2024)
Design of a Water-Soluble CD20 Antigen with Computational Epitope Scaffolding
Zhiyuan Yao, Brian Kuhlman
bioRxiv 2024.12.05.627087 • Supplementary • code • RFDiffusion-based
Inhibiting heme-piracy by pathogenic Escherichia coli using de novo-designed proteins
Daniel R Fox, Kazem Asadollahi, Imogen G Samuels, Bradley Spicer, Ashleigh Kropp, Chris Lupton, Kevin Lim, Chunxiao Wang, Hariprasad Venugopal, Marija Dramicanin, Gavin J Knott, Rhys Grinter
bioRxiv 2024.12.05.626953 • RFDiffusion/ProteinMPNN-based
De novo design of potent CRISPR-Cas13 inhibitors
Cyntia Taveneau, Her Xiang Chai, Jovita D'Silva, Rebecca S Bamert, Brooke K Hayes, Roland W Calvert, Daniel J Curwen, Fabian Munder, Lisandra L Martin, Jeremy J Barr, Rhys Grinter, Gavin J Knott
bioRxiv 2024.12.05.626932 • Supplementary • RFDiffusion/ProteinMPNN-based
Development of a De Novo Protein Binder that Inhibits the Alpha Kinase eEF2K
Kody A Klupt, Ethan Belrose, Zongchao Jia
bioRxiv 2024.12.10.627789 • Supplementary • RFDiffusion/ProteinMPNN-based
Generating and evaluating diverse sequences for protein backbones
Yo Akiyama, Sergey Ovchinnikov
Machine Learning for Structural Biology Workshop, NeurIPS 2024 • RFDiffusion/ProteinMPNN-based
De novo design and structure of a peptide-centric TCR mimic binding module
Karsten D. Householder, Xinyu Xiang, Kevin M. Jude, Arthur Deng, Matthias Obenaus, Steven C. Wilson, Xiaojing Chen, Nan Wang, K. Christopher Garcia
bioRxiv 2024.12.16.628822 • Supplementary • RFDiffusion/ProteinMPNN-based
De Novo Design of Site-specific Protein Binders Using Surface Fingerprints
Pablo Gainza, Sarah Wehrle, Alexandra Van Hall-Beauvais, Anthony Marchand, Andreas Scheck, Zander Harteveld, Stephen Buckley, Dongchun Ni, Shuguang Tan, Freyr Sverrisson, Casper Goverde, Priscilla Turelli, Charlène Raclot, Alexandra Teslenko, Martin Pacesa, Stéphane Rosset, Sandrine Georgeon, Jane Marsden, Aaron Petruzzella, Kefang Liu, Zepeng Xu, Yan Chai, Pu Han, George F. Gao, Elisa Oricchio, Beat Fierz, Didier Trono, Henning Stahlberg, Michael Bronstein, Bruno E. Correia
Protein Science 30.CONF (2021)/bioRxiv (2022)/Nature (2023) • Supplementary • masif_seed • masif • lecture
Targeting protein-ligand neosurfaces using a generalizable deep learning approach
Anthony Marchand, Stephen Buckley, Arne Schneuing, Martin Pacesa, Pablo Gainza, Evgenia Elizarova, Rebecca Manuela Neeser, Pao-Wan Lee, Luc Reymond, Maddalena Elia, Leo Scheller, Sandrine Georgeon, Joseph Schmidt, Philippe Schwaller, Sebastian Josef Maerkl, Michael Bronstein, Bruno Emmanuel Correia
bioRxiv 2024.03.25.585721 • Supplementary • code
Mapping targetable sites on the human surfaceome for the design of novel binders
Petra E. M. Balbi, Ahmed Sadek, Anthony Marchand, Ta-Yi Yu, Jovan Damjanovic, Sandrine Georgeon, Joseph Schmidt, Simone Fulle, Che Yang, Hamed Khakzad, Bruno E. Correia
bioRxiv 2024.12.16.628626• code
Design of pseudosymmetric protein hetero-oligomers
Ryan D. Kibler, Sangmin Lee, Madison A. Kennedy, Basile I. M. Wicky, Stella M. Lai, Marius M. Kostelic, Ann Carr, Xinting Li, Cameron M. Chow, Tina K. Nguyen, Lauren Carter, Vicki H. Wysocki, Barry L. Stoddard & David Baker
Nat Commun 15, 10684 (2024) • code
Iterative refinement graph neural network for antibody sequence-structure co-design
Wengong Jin, Jeremy Wohlwend, Regina Barzilay, Tommi Jaakkola
arXiv preprint arXiv:2110.04624 (2021) • RefineGNN • lecture1, lecture2
Antibody Complementarity Determining Regions (CDRs) design using Constrained Energy Model
Fu, Tianfan, and Jimeng Sun
Proceedings of the 28th ACM SIGKDD Conference on Knowledge Discovery and Data Mining. 2022 • code
Conditional Antibody Design as 3D Equivariant Graph Translation
Xiangzhe Kong, Wenbing Huang, Yang Liu
ICLR 2023/arXiv:2208.06073
End-to-End Full-Atom Antibody Design
Xiangzhe Kong, Wenbing Huang, Yang Liu
arXiv:2302.00203 • code
AbODE: Ab Initio Antibody Design using Conjoined ODEs
Yogesh Verma, Markus Heinonen, Vikas Garg
arXiv:2306.01005
Joint Design of Protein Sequence and Structure based on Motifs
Zhenqiao Song, Yunlong Zhao, Yufei Song, Wenxian Shi, Yang Yang, Lei Li
arXiv:2310.02546
De novo protein design using geometric vector field networks
Weian Mao, Muzhi Zhu, Zheng Sun, Shuaike Shen, Lin Yuanbo Wu, Hao Chen, Chunhua Shen
arXiv:2310.11802/ICLR 2024
A Survey of Geometric Graph Neural Networks: Data Structures, Models and Applications
Jiaqi Han, Jiacheng Cen, Liming Wu, Zongzhao Li, Xiangzhe Kong, Rui Jiao, Ziyang Yu, Tingyang Xu, Fandi Wu, Zihe Wang, Hongteng Xu, Zhewei Wei, Yang Liu, Yu Rong, Wenbing Huang
arXiv:2403.00485 • review
GeoAB: Towards Realistic Antibody Design and Reliable Affinity Maturation
Haitao LIN, Lirong Wu, Huang Yufei, Yunfan Liu, Odin Zhang, Yuanqing Zhou, Rui Sun, Stan Z Li
bioRxiv 2024.05.15.594274/ICML 2024 • code
Topological Neural Networks go Persistent, Equivariant, and Continuous
Yogesh Verma, Amauri H Souza, Vikas Garg
arXiv:2406.03164 • code
Protein Sequence and Structure Co-Design with Equivariant Translation
Chence Shi, Chuanrui Wang, Jiarui Lu, Bozitao Zhong, Jian Tang
arXiv:2210.08761/ICLR 2023 • Supplementary • code
Deep Learning for Flexible and Site-Specific Protein Docking and Design
Matt McPartlon, Jinbo Xu
bioRxiv 2023.04.01.535079 • code
Full-Atom Protein Pocket Design via Iterative Refinement
Zaixi Zhang, Zepu Lu, Zhongkai Hao, Marinka Zitnik, Qi Liu
arXiv:2310.02553 • code
Functional Geometry Guided Protein Sequence and Backbone Structure Co-Design
Anonymous
ICLR 2024
Fast and accurate modeling and design of antibody-antigen complex using tFold
Fandi Wu, Yu Zhao, Jiaxiang Wu, Biaobin Jiang, Bing He, Longkai Huang, Chenchen Qin, Fan Yang, Ningqiao Huang, Yang Xiao, Rubo Wang, Huaxian Jia, Yu Rong, Yuyi Liu, Houtim Lai, Tingyang Xu, Wei Liu, Peilin Zhao, Jianhua Yao
bioRxiv 2024.02.05.578892 • website
PocketGen: Generating Full-Atom Ligand-Binding Protein Pockets
Zhang Zaixi, Wanxiang Shen, Qi Liu, Marinka Zitnik
bioRxiv 2024.02.25.581968/Nature Machine Intelligence, 2024 • code • website
Simulating 500 million years of evolution with a language model
Thomas Hayes, Roshan Rao, Halil Akin, Nicholas James Sofroniew, Deniz Oktay, Zeming Lin, Robert Verkuil, Vincent Quy Tran, Jonathan Deaton, Marius Wiggert, Rohil Badkundri, Irhum Shafkat, Jun Gong, Alexander Derry, Raul Santiago Molina, Neil Thomas, Yousuf Khan, Chetan Mishra, Carolyn Kim, Liam J. Bartie, Patrick D. Hsu, Tom Sercu, Salvatore Candido, Alexander Rives
preprint/bioRxiv 2024.07.01.600583 • website • code • colab • news
Protein Complex Invariant Embedding with Cross-Gate MLP is A One-Shot Antibody Designer
Cheng Tan, Zhangyang Gao, Stan Z. Li
arXiv:2305.09480
Hotspot-Driven Peptide Design via Multi-Fragment Autoregressive Extension
Jiahan Li, Tong Chen, Shitong Luo, Chaoran Cheng, Jiaqi Guan, Ruihan Guo, Sheng Wang, Ge Liu, Jian Peng, Jianzhu Ma
arXiv:2411.18463
Generative Flows on Discrete State-Spaces: Enabling Multimodal Flows with Applications to Protein Co-Design
Andrew Campbell, Jason Yim, Regina Barzilay, Tom Rainforth, Tommi Jaakkola
arXiv:2402.04997 • code • lecture
PPFlow: Target-Aware Peptide Design with Torsional Flow Matching
Haitao Lin, Odin Zhang, Huifeng Zhao, Dejun Jiang, Lirong Wu, Zicheng Liu, Yufei Huang, Stan Z. Li
bioRxiv 2024.03.07.583831/arXiv:2405.06642 • Supplementary • code
Full-Atom Peptide Design based on Multi-modal Flow Matching
Jiahan Li, Chaoran Cheng, Zuofan Wu, Ruihan Guo, Shitong Luo, Zhizhou Ren, Jian Peng, Jianzhu Ma
arXiv:2406.00735 • code
AntibodyFlow: Normalizing Flow Model for Designing Antibody Complementarity-Determining Regions
Bohao Xu, Yanbo Wang, Wenyu Chen, Shimin Shan
arXiv:2406.13162
Generalized Protein Pocket Generation with Prior-Informed Flow Matching
Zaixi Zhang, Marinka Zitnik, Qi Liu
arXiv:2409.19520
D-Flow: Multi-modality Flow Matching for D-peptide Design
Fang Wu, Tinson Xu, Shuting Jin, Xiangru Tang, Zerui Xu, James Zou, Brian Hie
arXiv:2411.10618 • code
Reaction-conditioned De Novo Enzyme Design with GENzyme
Chenqing Hua, Jiarui Lu, Yong Liu, Odin Zhang, Jian Tang, Rex Ying, Wengong Jin, Guy Wolf, Doina Precup, Shuangjia Zheng
arXiv:2411.16694 • code
ProteinZen: combining latent and SE(3) flow matching for all-atom protein generation
Alex Li, Tanja Kortemme
Machine Learning for Structural Biology Workshop, NeurIPS 2024
HelixFlow, SE(3)–equivariant Full-atom Design of Peptides With Flow-matching Models
Xuezhi Xie, Pedro A Valiente, Jisun Kim, Jin Sub Lee, Philip Kim
Machine Learning for Structural Biology Workshop, NeurIPS 2024
IgFlow: Flow Matching for De Novo Antibody Design
Sanjay Nagaraj, Amir Shanehsazzadeh, Hyun Park, Jonathan King, Simon Levine
Machine Learning for Structural Biology Workshop, NeurIPS 2024
CarbonNovo: Joint Design of Protein Structure and Sequence Using a Unified Energy-based Model
Ren, Milong, Tian Zhu, and Haicang Zhang
ICML 2024 • code
P(all-atom) Is Unlocking New Path For Protein Design
Wei Qu, Jiawei Guan, Rui Ma, Ke Zhai, Weikun Wu, Haobo Wang
bioRxiv 2024.08.16.608235 • code • news
EnzymeFlow: Generating Reaction-specific Enzyme Catalytic Pockets through Flow-Matching and Co-Evolutionary Dynamics
Chenqing Hua
paper not available • code
IgGM: A Generative Model for Functional Antibody and Nanobody Design
Rubo Wang, Fandi Wu, Xingyu Gao, Jiaxiang Wu, Peilin Zhao, Jianhua Yao
bioRxiv 2024.09.19.613838 • code
Deep generative models of genetic variation capture the effects of mutations
Adam J. Riesselman, John B. Ingraham & Debora S. Marks
Nature Methods • code::DeepSequence • Oct 2018
Deciphering protein evolution and fitness landscapes with latent space models
Xinqiang Ding, Zhengting Zou & Charles L. Brooks III
Nature Communications • code::PEVAE • Dec 2019
Is transfer learning necessary for protein landscape prediction?
Shanehsazzadeh, Amir, David Belanger, and David Dohan
arXiv preprint arXiv:2011.03443 (2020)
Epistatic Net allows the sparse spectral regularization of deep neural networks for inferring fitness functions
Amirali Aghazadeh, Hunter Nisonoff, Orhan Ocal, David H. Brookes, Yijie Huang, O. Ozan Koyluoglu, Jennifer Listgarten & Kannan Ramchandran
Nature Communications • code • Sep 2021
The generative capacity of probabilistic protein sequence models
Francisco McGee, Sandro Hauri, Quentin Novinger, Slobodan Vucetic, Ronald M. Levy, Vincenzo Carnevale & Allan Haldane
Nature Communications • code::generation_capacity_metrics • code::sVAE • Nov 2021
Learning the local landscape of protein structures with convolutional neural networks
Anastasiya V. Kulikova, Daniel J. Diaz, James M. Loy, Andrew D. Ellington & Claus O. Wilke
Journal of Biological Physics 47.4 (2021)
Neural networks to learn protein sequence-function relationships from deep mutational scanning data
Sam Gelman, Sarah A. Fahlberg, Pete Heinzelman, Philip A. Romero & Anthony Gitter
Proceedings of the National Academy of Sciences • code • Nov 2021
Learning Protein Fitness Models from Evolutionary and Assay-labeled Data
Chloe Hsu, Hunter Nisonoff, Clara Fannjiang, Jennifer Listgarten
Nature Biotechnology (2022) • Supplementary Information • code
Proximal Exploration for Model-guided Protein Sequence Design
Zhizhou Ren, Jiahan Li, Fan Ding, Yuan Zhou, Jianzhu Ma, Jian Peng
BioRxiv (2022) • code • commercial
Efficient evolution of human antibodies from general protein language models and sequence information alone
Brian L. Hie, Duo Xu, Varun R. Shanker, Theodora U.J. Bruun, Payton A. Weidenbacher, Shaogeng Tang, Peter S. Kim
bioRxiv (2022) • code
Tranception: protein fitness prediction with autoregressive transformers and inference-time retrieval
Notin, P., Dias, M., Frazer, J., Marchena-Hurtado, J., Gomez, A., Marks, D.S., Gal, Y
ICML (2022)/arXiv:2205.13760 • code • hugging face
Protein engineering via Bayesian optimization-guided evolutionary algorithm and robotic experiments
Ruyun Hu, Lihao Fu, Yongcan Chen, Junyu Chen, Yu Qiao, Tong Si
bioRxiv 2022.08.11.503535
Antibody optimization enabled by artificial intelligence predictions of binding affinity and naturalness
Sharrol Bachas, Goran Rakocevic, David Spencer, Anand V. Sastry, Robel Haile, John M. Sutton, George Kasun, Andrew Stachyra, Jahir M. Gutierrez, Edriss Yassine, Borka Medjo, Vincent Blay, Christa Kohnert, Jennifer T. Stanton, Alexander Brown, Nebojsa Tijanic, Cailen McCloskey, Rebecca Viazzo, Rebecca Consbruck, Hayley Carter, Simon Levine, Shaheed Abdulhaqq, Jacob Shaul, Abigail B. Ventura, Randal S. Olson, Engin Yapici, Joshua Meier, Sean McClain, Matthew Weinstock, Gregory Hannum, Ariel Schwartz, Miles Gander, Roberto Spreafico
bioRxiv 2022.08.16.504181 • poster
Construction of a Deep Neural Network Energy Function for Protein Physics
Yang, Huan, Zhaoping Xiong, and Francesco Zonta
Journal of Chemical Theory and Computation (2022)
Inferring protein fitness landscapes from laboratory evolution experiments
Sameer D’Costa, Emily C. Hinds, Chase R. Freschlin, Hyebin Song, Philip A. Romero
bioRxiv 2022.09.01.506224 • Supplementary
BayeStab: Predicting Effects of Mutations on Protein Stability with Uncertainty Quantification
Shuyu Wang, Hongzhou Tang, Yuliang Zhao, Lei Zuo
Protein Science (2022) • code • website
Tuned Fitness Landscapes for Benchmarking Model-Guided Protein Design
Neil Thomas, Atish Agarwala, David Belanger, Yun S. Song, Lucy Colwell
bioRxiv 2022.10.28.514293 • code
Protein design using structure-based residue preferences
David Ding, Ada Y Shaw, Sam Sinai, Nathan J Rollins, Noam Prywes, David Savage, Michael T Laub, Debora S Marks
bioRxiv 2022.10.31.514613 • code
Accurate Mutation Effect Prediction using RoseTTAFold
Sanaa Mansoor, Minkyung Baek, David Juergens, Joseph L Watson, David Baker
bioRxiv 2022.11.04.515218
Learning the shape of protein micro-environments with a holographic convolutional neural network
Michael N. Pun, Andrew Ivanov, Quinn Bellamy, Zachary Montague, Colin LaMont, Philip Bradley, Jakub Otwinowski, Armita Nourmohammad
bioRxiv (2022) • code
Infer global, predict local: quantity-quality trade-off in protein fitness predictions from sequence data
Lorenzo Posani, Francesca Rizzato, Rémi Monasson, Simona Cocco
bioRxiv 2022.12.12.520004
Validation of de novo designed water-soluble and transmembrane proteins by in silico folding and melting
Alvaro Martin, Carolin Berner, Sergey Ovchinnikov, Anastassia Andreevna Vorobieva
bioRxiv 2023.06.06.543955 • colab
PoET: A generative model of protein families as sequences-of-sequences
Timothy F. Truong Jr, Tristan Bepler
arXiv:2306.06156 • code
Rapid protein stability prediction using deep learning representations
Lasse M BlaabjergMaher M KassemLydia L GoodNicolas JonssonMatteo CagiadaKristoffer E JohanssonWouter BoomsmaAmelie SteinKresten Lindorff-Larsen
eLife 12:e82593 • code
A general Temperature-Guided Language model to engineer enhanced Stability and Activity in Proteins
Pan Tan, Mingchen Li, Yuanxi Yu, Fan Jiang, Lirong Zheng, Banghao Wu, Xinyu Sun, Liqi Kang, Jie Song, Liang Zhang, Yi Xiong, Wanli Ouyang, Zhiqiang Hu, Guisheng Fan, Yufeng Pei, Liang Hong
arXiv:2307.12682
Transfer learning to leverage larger datasets for improved prediction of protein stability changes
Henry Dieckhaus, Michael Brocidiacono, Nicholas Randolph, Brian Kuhlman
bioRxiv 2023.07.27.550881 • code • Supplementary
Structure-based self-supervised learning enables ultrafast prediction of stability changes upon mutation at the protein universe scale
Jinyuan Sun, Tong Zhu, Yinglu Cui, Bian Wu
bioRxiv 2023.08.09.552725 • code
Boosting AND/OR-Based Computational Protein Design: Dynamic Heuristics and Generalizable UFO
Bobak Pezeshki, Radu Marinescu, Alexander Ihler, Rina Dechter
arXiv:2309.00408
Zero-shot Mutation Effect Prediction on Protein Stability and Function using RoseTTAFold
Sanaa Mansoor, Minkyung Baek, David Juergens, Joseph L. Watson, David Baker
Protein Science • dissertation
Accurate proteome-wide missense variant effect prediction with AlphaMissense
Jun Cheng, Guido Novati, Joshua Pan, Clare Bycroft, Akvile Žemgulyte, Taylor Applebaum, Alexander Pritzel, Lai Hong Wong, Michal Zielinski, Tobias Sargeant, Rosalia G. Schneider, Andrew W. Senior, John Jumper, Demis Hassabis, Pushmeet Kohli, Žiga Avsec
Science0,eadg7492DOI:10.1126/science.adg7492 • code • data
Enzyme structure correlates with variant effect predictability
Floris Julian van der Flier, Dave Estell, Sina Pricelius, Lydia Dankmeyer, Sander van Stigt Thans, Harm Mulder, Rei Otsuka, Frits Goedegebuur, Laurens Lammerts, Diego Staphorst, Aalt D.J. van Dijk, Dick de Ridder, Henning Redestig
bioRxiv 2023.09.25.559319/Computational and Structural Biotechnology Journal (2024) • code
Fast, accurate ranking of engineered proteins by target binding propensity using structure modeling
Xiaozhe Ding, Xinhong Chen, Erin E. Sullivan, Timothy F. Shay, Viviana Gradinaru
bioRxiv 2023.01.11.523680/Molecular Therapy (2024) • code • colab
Neural network extrapolation to distant regions of the protein fitness landscape
Sarah A Fahlberg, Chase R Freschlin, Pete Heinzelman, Philip A Romero
bioRxiv 2023.11.08.566287 • Supplementary
Accelerating protein engineering with fitness landscape modeling and reinforcement learning
Haoran Sun, Liang He, Pan Deng, Guoqing Liu, Haiguang Liu, Chuan Cao, Fusong Ju, Lijun Wu, Tao Qin, Tie-Yan Liu
bioRxiv 2023.11.16.565910
Protein Design by Directed Evolution Guided by Large Language Models
Trong Thanh Tran, Truong Son Hy
bioRxiv 2023.11.29.568945 • Supplementary • code
High-throughput ML-guided design of diverse single-domain antibodies against SARS-CoV-2
Christof Angermueller, Zelda Marie, Benjamin Jester, Emily Engelhart, Ryan Emerson, Babak Alipanahi, Zachary Ryan McCaw, Jim Roberts, Randolph M Lopez, David Younger, Lucy Colwell
bioRxiv 2023.12.01.569227
Efficiently Predicting Protein Stability Changes Upon Single-point Mutation with Large Language Models
Yijie Zhang, Zhangyang Gao, Cheng Tan, Stan Z.Li
arXiv preprint arXiv:2312.04019 (2023)
DSMBind: SE(3) denoising score matching for unsupervised binding energy prediction and nanobody design
Wengong Jin, Xun Chen, Amrita Vetticaden, Siranush Sarzikova, Raktima Raychowdhury, Caroline Uhler, Nir Hacohen
bioRxiv 2023.12.10.570461 • Supplementary1 • Supplementary2
Inverse folding of protein complexes with a structure-informed language model enables unsupervised antibody evolution
Varun R. Shanker, Theodora U.J. Bruun, Brian L. Hie, Peter S. Kim
bioRxiv 2023.12.19.572475
EvolMPNN: Predicting Mutational Effect on Homologous Proteins by Evolution Encoding
Zhiqiang Zhong, Davide Mottin
arXiv:2402.13418
Generating mutants of monotone affinity towards stronger protein complexes through adversarial learning
Tian Lan, Shuquan Su, Pengyao Ping, Gyorgy Hutvagner, Tao Liu, Yi Pan & Jinyan Li
Nat Mach Intell 6, 315–325 (2024) • code
Biophysics-based protein language models for protein engineering
Sam Gelman, Bryce Johnson, Chase Freschlin, Sameer D'Costa, Anthony Gitter & Philip A. Romero
bioRxiv 2024.03.15.585128 • code
Latent-based Directed Evolution accelerated by Gradient Ascent for Protein Sequence Design
Nhat Khang Ngo, Thanh V. T. Tran, Viet Thanh Duy Nguyen, Truong Son Hy
bioRxiv 2024.04.13.589381/NeurIPS 2024 • code
AAVDiff: Experimental Validation of Enhanced Viability and Diversity in Recombinant Adeno-Associated Virus (AAV) Capsids through Diffusion Generation
Lijun Liu, Jiali Yang, Jianfei Song, Xinglin Yang, Lele Niu, Zeqi Cai, Hui Shi, Tingjun Hou, Chang-yu Hsieh, Weiran Shen, Yafeng Deng
arXiv:2404.10573
Protein engineering with lightweight graph denoising neural networks
Bingxin Zhou, Lirong Zheng, Banghao Wu, Yang Tan, Outongyi Lv, Kai Yi, Guisheng Fan, and Liang Hong
Journal of Chemical Information and Modeling (2024) • code
VespaG: Expert-guided protein Language Models enable accurate and blazingly fast fitness prediction
Celine Marquet, Julius Schlensok, Marina Abakarova, Burkhard Rost, Elodie Laine
bioRxiv 2024.04.24.590982 • code
Interface design of SARS-CoV-2 symmetrical nsp7 dimer and machine learning-guided nsp7 sequence prediction reveals physicochemical properties and hotspots for nsp7 stability, adaptation, and therapeutic design
Amar Jeet Yadav, Shivank Kumar, Shweata Maurya, Khushboo Bhagat, and Aditya K. Padhi
Physical Chemistry Chemical Physics (2024)
Aligning protein generative models with experimental fitness via Direct Preference Optimization
Talal Widatalla, Rafael Rafailov, Brian Hie
bioRxiv 2024.05.20.595026 • code
ProBASS – a language model with sequence and structural features for predicting the effect of mutations on binding affinity
Sagara N.S. Gurusinghe, Yibing Wu, William DeGrado, Julia M. Shifman
bioRxiv 2024.06.21.600041 • code
Unsupervised evolution of protein and antibody complexes with a structure-informed language model
Varun R. Shanker, Theodora U. J. Bruun, Brian L. Hie, Peter S. Kim
Science385,46-53(2024) • code
Enhancing efficiency of protein language models with minimal wet-lab data through few-shot learning
Ziyi Zhou, Liang Zhang, Yuanxi Yu, Banghao Wu, Mingchen Li, Liang Hong & Pan Tan
Nat Commun 15, 5566 (2024) • code
Rapid protein evolution by few-shot learning with a protein language model
Kaiyi Jiang, Zhaoqing Yan, Matteo Di Bernardo, Samantha R. Sgrizzi, Lukas Villiger, Alisan Kayabolen, Byungji Kim, Josephine K. Carscadden, Masahiro Hiraizumi, Hiroshi Nishimasu, Jonathan S. Gootenberg, Omar O. Abudayyeh
bioRxiv 2024.07.17.604015 • code1,code2
Zero-shot prediction of mutation effects with multimodal deep representation learning guides protein engineering
Peng Cheng, Cong Mao, Jin Tang, Sen Yang, Yu Cheng, Wuke Wang, Qiuxi Gu, Wei Han, Hao Chen, Sihan Li, Yaofeng Chen, Jianglin Zhou, Wuju Li, Aimin Pan, Suwen Zhao, Xingxu Huang, Shiqiang Zhu, Jun Zhang, Wenjie Shu & Shengqi Wang
Cell Research (2024) • code
Machine learning-guided co-optimization of fitness and diversity facilitates combinatorial library design in enzyme engineering
Kerr Ding, Michael Chin, Yunlong Zhao, Wei Huang, Binh Khanh Mai, Huanan Wang, Peng Liu, Yang Yang & Yunan Luo
Nature Communications 15.1 (2024) • code, model
Dirichlet latent modelling enables effective learning and sampling of the functional protein design space
Evgenii Lobzaev, Giovanni Stracquadanio
Nat Commun 15, 9309 (2024) • code
MProt-DPO: Breaking the ExaFLOPS Barrier for Multimodal Protein Design Workflows with Direct Preference Optimization
Gautham Dharuman, Kyle Hippe, Alexander Brace, Sam Foreman, Väinö Hatanpää, Varuni K. Sastry, Huihuo Zheng, Logan Ward, Servesh Muralidharan, Archit Vasan, Bharat Kale, Carla M. Mann, Heng Ma, Yun-Hsuan Cheng, Yuliana Zamora, Shengchao Liu, Chaowei Xiao, Murali Emani, Tom Gibbs, Mahidhar Tatineni, Deepak Canchi, Jerome Mitchell, Koichi Yamada, Maria Garzaran, Michael E. Papka, Ian Foster, Rick Stevens, Anima Anandkumar, Venkatram Vishwanath, Arvind Ramanathan
International Conference for High Performance Computing, Networking, Storage and Analysis SC. IEEE Computer Society, 2024
More detailed protein representation learning list: Lirong Wu's awesome-protein-representation-learning
Unified rational protein engineering with sequence-based deep representation learning
Ethan C. Alley, Grigory Khimulya, Surojit Biswas, Mohammed AlQuraishi & George M. Church
Nature methods 16.12 (2019)
Protein Structure Representation Learning by Geometric Pretraining
Zuobai Zhang, Minghao Xu, Arian Jamasb, Vijil Chenthamarakshan, Aurelie Lozano, Payel Das, Jian Tang
arXiv • Jan 2022
Evolutionary velocity with protein language models
Brian L. Hie, Kevin K. Yang, and Peter S. Kim
bioRxiv
Advancing protein language models with linguistics: a roadmap for improved interpretability
Mai Ha Vu, Rahmad Akbar, Philippe A. Robert, Bartlomiej Swiatczak, Victor Greiff, Geir Kjetil Sandve, Dag Trygve Truslew Haug
arXiv:2207.00982
Deciphering the language of antibodies using self-supervised learning
Jinwoo Leem, Laura S. Mitchell, James H.R. Farmery, Justin Barton, Jacob D. Galson
Patterns (2022): 100513 • code
On Pre-training Language Model for Antibody
Anonymous(Paper under double-blind review)
ICLR 2023 • Supplementary
Antibody Representation Learning for Drug Discovery
Lin Li, Esther Gupta, John Spaeth, Leslie Shing, Tristan Bepler, Rajmonda Sulo Caceres
arXiv:2210.02881
Learning Complete Protein Representation by Deep Coupling of Sequence and Structure
Bozhen Hu, Cheng Tan, Jun Xia, Jiangbin Zheng, Yufei Huang, Lirong Wu, Yue Liu, Yongjie Xu, Stan Z. Li
bioRxiv 2023.07.05.547769
Leveraging Ancestral Sequence Reconstruction for Protein Representation Learning
D. S. Matthews, M. A. Spence, A. C. Mater, J. Nichols, S. B. Pulsford, M. Sandhu, J. A. Kaczmarski, C. M. Miton, N. Tokuriki, C. J. Jackson
bioRxiv 2023.12.20.572683 • code
Protein language models are biased by unequal sequence sampling across the tree of life
Frances Ding, Jacob Steinhardt
bioRxiv 2024.03.07.584001
InstructPLM: Aligning Protein Language Models to Follow Protein Structure Instructions
Jiezhong Qiu, Junde Xu, Jie Hu, Hanqun Cao, Liya Hou, Zijun Gao, Xinyi Zhou, Anni Li, Xiujuan Li, Bin Cui, Fei Yang, Shuang Peng, Ning Sun, Fangyu Wang, Aimin Pan, Jie Tang, Jieping Ye, Junyang Lin, Jin Tang, Xingxu Huang, Pheng Ann Heng, Guangyong Chen
bioRxiv 2024.04.17.589642
Unlike function-scaffold-sequence paradigm in protein design, major molecular design models based on paradigm form DL from 3 kinds of level: atom-based, fragment-based, reaction-based, and they can be categorized as Gradient optimization or Optimized sampling(gradient-free). Click here for detail reviewIn consideration of learning more various of generative models for design, these recommended latest models from Molecular Design might be helpful and even be able to be transplanted to protein design. More paper list at :
Differentiable scaffolding tree for molecular optimization
Fu, T., Gao, W., Xiao, C., Yasonik, J., Coley, C. W., & Sun, J
arXiv preprint arXiv:2109.10469 • code • Sept 21
Equivariant Energy-Guided SDE for Inverse Molecular Design
Fan Bao, Min Zhao, Zhongkai Hao, Peiyao Li, Chongxuan Li, Jun Zhu
arXiv:2209.15408
Equivariant Shape-Conditioned Generation of 3D Molecules for Ligand-Based Drug Design
Keir Adams, Connor W. Coley
arXiv:2210.04893 • code
Structure-based Drug Design with Equivariant Diffusion Models
Arne Schneuing, Yuanqi Du, Charles Harris, Arian Jamasb, Ilia Igashov, Weitao Du, Tom Blundell, Pietro Lió, Carla Gomes, Max Welling, Michael Bronstein, Bruno Correia
NeurIPS 2022/arXiv:2210.13695 • code
Generating 3D Molecules for Target Protein Binding
Meng Liu, Youzhi Luo, Kanji Uchino, Koji Maruhashi, Shuiwang Ji
International Conference on Machine Learning 39 (2022) • GraphBP
Pocket2Mol: Efficient Molecular Sampling Based on 3D Protein Pockets
Peng, Xingang, et al
International Conference on Machine Learning 39 (2022) • code
Reinforced Genetic Algorithm for Structure-based Drug Design
Fu, Tianfan, et al
arXiv preprint arXiv:2211.16508 (2022)/ICML22 • code • website
Molecule Generation For Target Protein Binding with Structural Motifs
Zhang, Zaixi, et al
International Conference on Learning Representations 11 (2023) • code
3D Equivariant Diffusion for Target-Aware Molecule Generation and Affinity Prediction
Guan, Jiaqi, et al
International Conference on Learning Representations 11 (2023) • code
De novo design of epitope-specific antibodies against soluble and multipass membrane proteins with high specificity, developability,and function
Nabla Bio
preprint • blog • commercial