Computational Design of non-porous, pH-responsive antibody nanoparticles
Presented on March 13th 2024 by Erin Yang abstract: Programming protein nanomaterials to enable selective targeting and respond to environmental changes have profound effects in protein design, health and disease. I will describe a novel protein nanoparticle platform that has been designed to modulate cell-surface target specificity, cargo packaging, and environmentally-dependent release of encapsulated cargo, providing exciting possibilities in biologics delivery.
▶︎
AlphaFold - The Most Useful Thing AI Has Ever Done
▶︎
Computational design of antibody repertoires
▶︎
Design at the Intersection of Technology and Biology | Neri Oxman | TED Talks
▶︎
How AI Cracked the Protein Folding Code and Won a Nobel Prize
▶︎
25 Buddhist Stories for Every Kind of Human Struggle
▶︎
How Proctor’s texts in Karen Read lawsuit could free dangerous criminals
▶︎
Historian Timothy Snyder on ENDING Trump Nightmare FOR GOOD | PoliticsGirl
▶︎
Scott Aaronson - The TRUTH About Quantum Computing
▶︎
What do tech pioneers think about the AI revolution? - The Engineers, BBC World Service
▶︎
How ASML Makes Chips Faster With Its New $400 Million High NA Machine
▶︎
Trump Tries to Catch Reflecting Pool “Vandals” & Miami Gets a Scottish Takeover | The Daily Show
▶︎
How AF3-Style Structure Prediction Models Can Be Used for Design: BoltzDesign and Protein Hunter
▶︎
Lighting in Godot for Beginners
▶︎
Ancient Human Species We Once Co-Existed With
▶︎
🩸Phlebotomy Certification Practice Test – 50 Questions to Help You PASS!
▶︎
Physics-aware agentic artificial intelligence to model, design and discover proteins
▶︎
But what is quantum computing? (Grover's Algorithm)
▶︎
The Truth About Depression - Dr Joanna Moncrieff
▶︎
BoltzGen: Toward Universal Binder Design
▶︎