Sitemap - 2026 - Kiin Bio Weekly

Stanford's Proteo-R1, Hamburg's ActivityFinder, and NUS's ProteinConformers

🧬 scConcept: Why Your Cell Embeddings Don't Work

Helmholtz's RegVelo, Calico's TTM, and NIH's Path2Space

🧬 Adaptyv: Closing the Loop on Protein Design

Oxford's MolJSON, DTU's PlaTITO, and OpenBind's Dataset Release

🧬Sable Bio: Building the Safety Layer Drug Discovery Has Been Missing

Stanford's dEVA, McMaster's SyntheMol-RL, and SNU's Expression Rescue

🧪 Rowan: Computational Chemistry Without the Code

Yale's HEIST, A-Alpha Bio's SEPIA, and Harvard's Apollo

🥼 Luvida: Bringing the Whole of a Patient’s Life Into Clinical Trials

Loschmidt Labs' TmProt, UVA's YuelDesign, and Caltech's DISCO

🏥 Our Future Health: Building the World's Largest Health Research Programme

Stanford's GATSBI, ProtiCell and MIT's StriMap

🧬A Primer on AI Protein Design

Modena's G4REP, Harvard's evedesign, and Purdue's Peptide-Protein Docking Review

Stanford's CellVoyager, Oxford's MacroGuide, and Arc Institute's BioReason-Pro

Stanford's Eubiota, NVIDIA's Fold-CP, and Xaira's X-Cell

🧪A Primer on Peptide Cheminformatics

Glasgow’s ExplainBind, UIUC’s 4D Whole-Cell Model, and Cambridge’s MACE-POLAR-1

🧬 A Primer on AI Agents in Drug Discovery

TU Eindhoven's STRIPES, Harvard/UIUC's TrialBench, and FSU Jena's ChemAudit

Arc Institute's MULTI-evolve, EleutherAI's Deep Ignorance, and UPenn/Stanford's iSight

🥼 A Primer on the State of Clinical AI

EMBL-EBI’s Enzyme Motif Miner, Arc Institute's RESPLICE, and Harvard’s MEDEA

EPFL’s GLDP, UO's CyclicMPNN, and UHN’s EchoJEPA

⬡ SureChEMBL 2.0: Rebuilding Patent Chemistry for the AI Era

Seoul National University’s FoldMason, NIH’s RNAnneal, and Harvard’s ARK

🔬BinderFlow: Making Protein Binder Design Work in Real Labs

Absci’s Origin-1, JKU Linz’s MolecularIQ, and Genesis’s PEARL

🧬 A Primer on Structural Biology

ETH Zurich’s AMP-BMS/MM, CTU Prague’s OPIA, and Planck’s AlphaDIA

CNRS Lyon’s FoldScript, Tsinghau's DrugCLIP, and YCU's ChemTSv3

🧬 MOLECULE: Why Protein Motion Changes How We Classify Drug Action

UHN’s ECG-FM, Lorraine’s DynamicGT, and Weill Cornell’s HTS-Oracle

UCL’s ProFam, TU Berlin’s AS4Km, and Stockholm University’s EvoBind

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