Media

Introducing Evo 2, a predictive and generative genomic AI for all domains of life. (2025), Phys.org

Arc Institute’s new AI can read and write the code of life. (2025), Freethink

The Biggest AI for Biology Yet Writes Genomes From Scratch. (2025), Singularity Hub

A Generative, Foundational AI Model for Genetics. (2025), Lifespan.io

Evo-2, el modelo de Inteligencia Artificial que crea genomas desde cero. (2025), teleSUR

Evo 2 AI allows genome and epigenome modeling of all life domains. (2025), BioWorld

Evo 2 | Changing Our Understanding of Life’s Code. (2025), FMAI Hub

Evo2: One Bio-AI Model to Rule Them All. (2025), SynBioBeta

辉达开发新AI系统Evo 2 盼加速医学与遗传学突破. (2025), RFI (Chinese)

Interpreting Evo 2: Arc Institute’s Next-Generation Genomic Foundation Model. (2025), Goodfire Research

AI can now model and design the genetic code for all domains of life with Evo 2. (2025), Arc Institute

Generative AI tool marks a milestone in biology and accelerates the future of life sciences. (2025), Stanford Engineering

New AI breakthrough can model and design genetic code across all domains of life. (2025), Berkeley Engineering

Massive Foundation Model for Biomolecular Sciences Now Available via NVIDIA BioNeMo. (2025), NVIDIA Blog

Understanding the Language of Life’s Biomolecules Across Evolution at a New Scale with Evo 2. (2025), NVIDIA Technical Blog

Cracking Biology’s Code with Evo 2, an AI Trained on 100K Species. (2025), HPCwire

Scientists develop largest ever biological AI model that ‘thinks in nucleotides’. (2025), Medical Device Network

Nvidia Unveils Powerful AI System For Genetic Research. (2025), Barron’s

Bridge RNAs: ‘Holy Grail’ in Next-Gen Gene Editing Tech?. (2025), WebMD

The 2024 Good Tech Awards. (2024), The New York Times (Awarded to the Arc Institute for Evo Project)

Green steel, thunderstorms and next-generation gene editing: a year of remarkable science. (2024), Nature (News & Views)

Learning the language of DNA. (2024), Science (Perspective)

Programmable DNA rearrangements using bridge RNAs. (2024), Nature Reviews Genetics Research Highlights

Programmable RNA-guided enzymes for next-generation genome editing. (2024), Nature News and Views

No CRISPR: oddball 'jumping gene' enzyme edits genomes without breaking DNA. (2024), Nature Technology Feature

Gene editing breakthrough promises to boost fight against disease. (2024), Financial Times

Arc Institute Scientists Discover Next-Generation System for Programmable Genome Design. (2024), Associated Press (Business Wire)

Come Together: Bridge RNAs Close the Gap to Genome Design. (2024), GEN

Scientists unveil new way to make large changes to genes, and no CRISPR is required. (2024), Endpoints News

DNA-based bacterial parasite uses completely new DNA-editing method. (2024), Ars Technica

'Bridge editing' could be even better at altering DNA than CRISPR. (2024), New Scientist

The next generation of genome editing is making big changes to DNA. (2024), Chemical & Engineering News

Even more powerful gene editing than CRISPR. (2024), New Scientist Weekly Podcast

Bridge RNA: A new gene editing technique that could overcome the limitations of CRISPR. (2024), Labiotech

New techniques open the way for large-scale genome editing. (2024), BioWorld

Neues Werkzeug für die Gentechnik. (2024), Frankfurter Allgemeine Zeitung

New technique opens the door to large-scale DNA editing to cure diseases. (2024), El Pais

Neues Werkzeug zur Genomeditierung. (2024), Science Media Center Germany

Ist diese Methode besser als Crispr?. (2024), Zeit Online

"Brücken-RNA" könnte Durchbruch in Gentechnik möglich machen. (2024), Der Standard

Cientistas descobrem técnica de edição de ADN mais precisa que abre a porta à cura de doenças. (2024), Observador

Открыта система прицельного редактирования больших участков генома. (2024), N+1

Evo: a foundation model for genomics. (2024), Video Summary by Julia Bauman

Evo: DNA foundation modeling from molecular to genome scale. (2024), Arc Institute

New tools for programming biology. (2024), The Century of Biology

Novel recombinases for large DNA insertions. (2022), Nature Biotechnology

Systematic Approach Identifies, Characterizes Dozens of New Large Serine Recombinases. (2022), GenomeWeb

Borrowing from bacterial viruses: New tools for large-scale genome insertions. (2022), Arc Institute

Video Presentation of “A Bioinformatic Analysis of Integrative Mobile Genetic Elements Highlights Their Role in Bacterial Adaptation”. (2020), JRNLClub