Updates and perspectives from our industry experts, scientists and product leaders.
Discover why AAV vectors are key to gene therapy success, offering precise delivery, wide clinical applications, and transformative impact in genetic disease treatment.
Uncover the emerging role of AI in gene therapy and how it is paving the way for groundbreaking advancements.
Discover how Form Bio and Google Cloud’s Multiomics Suite will empower life scientists to accelerate research, development, and pre-clinical studies in personalized medicine and gene therapies.
Learn how predictive modeling can generate synthetic regulatory sequences for safer and more efficacious gene therapies.
We support the commitment of the Biden-Harris Administration to address global issues through biomanufacturing innovation. Learn more.
Recent published research is bringing us one step closer to predicting molecular phenotypes from a DNA sequence. Read this blog to learn more.
Austin Day, PhD
July 26, 2023
2023-07-26
Despite having access to diverse data and a vast number of parameters, new DNA large language models often struggle to learn hard tasks. Our AI expert, Austin, shares his insights on the possible reasons why.
Jill Roughan, PhD
May 29, 2023
2023-05-29
Discover the progression of AI from inception to present-day, and how it powers the efficient analysis of big data, revolutionizes gene therapy development, and advances biomanufacturing.
Claire Aldridge, PhD
May 15, 2023
2023-05-15
Our Chief Strategy Officer, Claire Aldridge, PhD, explores the growing trend of early integration of biomanufacturing design to cut costs and time-to-market while improving patient access to gene therapy.
Sasha Maslova
April 18, 2023
2023-04-18
Get insights from Sasha, our Artificial Intelligence (AI) Scientist, on a newly published article describing the potential undesirable effects of synonymous codon substitution and the role of computational methods to overcome these challenges.
April 4, 2023
2023-04-04
Single-cell analysis techniques and multi-omics are providing a newfound understanding of hidden complexity in biological systems, revolutionizing the biomanufacturing process for cell and gene therapies. Here’s how.
March 22, 2023
2023-03-22
Continuing our blog series on Transformer architectures and their use in gene therapy applications, we explore the latest variants’ size and speed improvements.
Nick Ketz, PhD
March 8, 2023
2023-03-08
Transformer based architectures are uniquely efficient and powerful when used to process structured data. Read this blog to learn how they can be customized, adapted and applied to AAV construct optimization.
February 23, 2023
2023-02-23
In this article, we take a look at the role of viral vectors in gene therapy, including current challenges, clinical trials and leveraging artificial intelligence to advance the field.
February 14, 2023
2023-02-14
Want to know more about the foundational types and common tools to use for RNA-Seq data visualization in gene therapy development? Read this blog to find out.
February 7, 2023
2023-02-07
Since their discovery, CRISPR-Cas systems have changed and evolved. Read about how base, prime, and RNA editing are driving new therapeutic applications.
February 1, 2023
2023-02-01
As gene therapy becomes more prevalent, so too do the challenges associated with ensuring its safety. Learn how to manufacture the purest and most potent AAV based gene therapy.
January 31, 2023
2023-01-31
DeepMind researchers released a large language model (LLM) that uses fewer parameters yet achieves better performance. Read more to understand how this is relevant to your gene therapy programs.
Chris Haas
May 7, 2024
Discover five simple steps to analyze DNA sequence data and uncover valuable insights effortlessly with point and click Form Bio workflows.
Anusha Sriraman, PhD
April 23, 2024
Explore Form Bio's AI models that predict, optimize, and de-risk AAV vector design outcomes.
Angela Anderson
April 18, 2024
Meet the members of Form Bio’s new Scientific Advisory Board, helping to guide our groundbreaking cell and gene therapy innovation.