AI protein design
Jan 22, 2026
•
11 min read
Designing functional enzymes by placing catalytic atoms with RFdiffusion2
Jan 8, 2026
10 min read
How catalytic motifs and protein backbones can be assembled into functional enzymes from scratch
Synthetic Biology
+1
Dec 18, 2025
Designing sequence-specific DNA-binding proteins entirely from scratch
Nov 13, 2025
From target to binder: how machine learning is reinventing the way we make antibodies.
Oct 16, 2025
9 min read
Designing proteins that assemble and fall apart, controlled by light
Sep 25, 2025
BindCraft turns hallucinations into powerful protein-binder designs
Sep 11, 2025
How computational design creates protein-based nanostructures
Aug 14, 2025
Designing fluorescent transmembrane proteins from scratch
Aug 7, 2025
Using AI to decode the hidden movements behind protein behavior
Jul 24, 2025
How computational design is unlocking targets once thought undruggable
Jul 3, 2025
How AI-designed peptides could reshape drug discovery.
Jun 26, 2025
Or how computationally designed proteins can guide tissue regeneration
Jun 5, 2025
8 min read
A new platform tackles the challenge of membrane proteins production
May 29, 2025
Designing Proteins That Respond to Mutations, Ligands, and More
DNA/RNA nanotech
May 22, 2025
AI models create functional RNA that actually works
Apr 17, 2025
Plus: Reusable DNA Circuits and More!
Apr 3, 2025
Plus: superlattices and more!
Mar 20, 2025
7 min read
Plus: DNA nanopores and more!
Feb 20, 2025
Plus: Nucleobodies and more!
Feb 13, 2025
6 min read
Plus: mammalian transposons and more!
Jan 23, 2025
Plus: Supercharged Nanocages and More.
Jan 2, 2025
Plus: Nanopores, Proteins, Sequencing and more!
Dec 26, 2024
Plus: Deep Learning for RNA, and More.
Dec 19, 2024
Plus: color shifting plants, DNA antennas and machine learning nanoclusters.
Nov 14, 2024
Plus: nanotech for climate change, folding proteins in collaboration, and more.
