Sitemap - 2025 - Kiin Bio Weekly
Institut Pasteur's scPRINT2, EPFL’s DynaMate, and Harvard’s PROTON
The Human Cytokine Dictionary, St Jude’s Combocat, and Barcelona’s NEMAT
Arc Institute's Virtual Cell Challenge: Are We Modelling Cells or Just Their Fingerprints?
Shandong’s MetaMDA, University of Queensland’s Structome Toolkit, and CMU’s OMTRA
🧬 GenomePAM: Letting the Human Genome Discover PAMs for You
MSD’s Ovo, Helmholtz Munich’s scConcept, and Graz University’s Riff-Diff
🧫 IGLOO: Tokenising the Language of Antibodies
Microsoft’s Adaptive Resampling, IIT Madras’s PURE, and Bose Centre’s PathGennie
Germinal: AI for Epitope-Targeted Antibody Design
⚛️ Nygen’s CyteType, Harvard’s ODesign, and Genentech’s GNEprop
🧩 Reconstructing the Fold: How Bioinspired Variables Fix a 20-Year Problem
🧪 Elnora AI: Learning From the Experiments Science Forgets
UC Berkeley’s NucleusDiff, Genentech’s Nona, and CeMM’s CellWhisperer
🧠 AOP Net: Mapping the Hidden Logic of Toxicity
Boltz's BLOSUM Is All You Learn, DeepMind's Cell2Sentence, and TU Wien's ChemTorch
Dyna-1: Learning protein dynamics from what's missing
RFdiffusion3: Protein design at all-atom resolution
BoltzGen, One Protein Is All You Need, SynFrag, and GEMS
OpenFold3: Building the Next Generation of Open-Source Protein Structure Prediction
AMR: Generative Antibiotic Design
University of Copenhagen’s AF-CALVADOS, CASP’s Distance-AF, and Max Planck’s AlphaDIA
ParameterizANI: AI for parameterization
UT Dallas’ ChemRefine, Merck + NVIDIA’s KERMT, and MIT + UW’s Protein Hunter
Manifold Bio’s mBER, UF’s GatorAffinity, and Google’s PHA
CeMM’s CELLFIE, WEHI’s ProteinDJ, and MPI + Helmholtz’s scPortrait
UW's RFdiffusion3, GRASP, and Stanford + Arc's GERMINAL
Pavia’s MOLECULE, Boston’s CryoPhold, and CNIO’s BinderFlow
Epic's CoMet, Genentech's IGLOO, and Geneva's Bottom-Up CVs for Structure-Aware Biomedicine
MD-LLM-1, Meta's Brain-Aligned DINOv3, and FlowMol3 for Fast 3D Prediction
Riverside's ParameterizANI, Owkin's OwkinZero and EPFL's De Novo Protein Switches
RosettaCommons' RF3, MIT's Antibiotic Designer and Helmholtz's TPM Model
GenomePAM: Hacking the Human Genome
AI in Life Science: Your Weekly Insights
Venomics AI: Unlocking the Antimicrobial Power of Animal Toxins
AI in Life Science: Weekly Insights
CRISPR-GPT: AI for Gene Editing Automation
AI in Life Science: Weekly Insights
Bacformer: Decoding the Language of Bacterial Genomes
AI in Life Science: Weekly Insights
NVIDIA's La-Proteina: Atomistic Protein Generation via Latent Flow Matching
AI in Life Science: Weekly Insights
🧬 Babylon Biosciences: Fine-Tuning AI to Predict Clinical Trial Success
Introducing Chai-2: A Breakthrough Framework for Zero-Shot Antibody Design
AI in Life Science: Weekly Insights
AI in Life Science: Weekly Insights
AI in Life Science: Weekly Insights
AI in Life Science: Weekly Insights
FutureHouse Introduces ether0: A Chemistry Reasoning Model for Molecular Design
Introducing Robin: A Multi-Agent System for Automated Drug Discovery
AI in Life Science: Weekly Insights
AI in Life Science: Weekly Insights
Introducing El Agente Q: An Autonomous Agent for Streamlining Quantum Chemistry in Drug Discovery
ATOMICA: A Universal Database for Decoding Molecular Interactions in Drug Discovery
AI in Life Science: Weekly Insights
BoltzDesign1: A Computational Breakthrough in Protein Binder Design
Revolutionizing Antibody Design with RFdiffusion: A New Era in Computational Drug Discovery
AI in Life Science: Weekly Insights
TxGemma: Google's latest model to advance therapeutics development
AI in Life Science: Weekly Insights
NatureLM: Deciphering the Language of Nature for Scientific Discovery
AI in Life Science: Weekly Insights
DORA AI Scientist from InSilico Medicine
AI in Life Science: Weekly Insights
AI in Life Science: Weekly Insights
BioEmu-1: Revolutionizing Protein Conformational Analysis
Evo 2: Genome-Scale DNA Language Modeling
AI in Life Science: Weekly Insights
AI in Life Science: Weekly Insights
AI in Life Science: Weekly Insights
AI in Life Science: Weekly Insights