Litcius/Paper detail

Engineering a New Generation of Gene Editors: Integrating Synthetic Biology and AI Innovations

Bing Shao Chia, Samantha Seah, Bolun Wang, Kimberle Shen, Diya Srivastava, Wei Leong Chew

2025ACS Synthetic Biology19 citationsDOIOpen Access PDF

Abstract

CRISPR-Cas technology has revolutionized biology by enabling precise DNA and RNA edits with ease. However, significant challenges remain for translating this technology into clinical applications. Traditional protein engineering methods, such as rational design, mutagenesis screens, and directed evolution, have been used to address issues like low efficacy, specificity, and high immunogenicity. These methods are labor-intensive, time-consuming, and resource-intensive and often require detailed structural knowledge. Recently, computational strategies have emerged as powerful solutions to these limitations. Using artificial intelligence (AI) and machine learning (ML), the discovery and design of novel gene-editing enzymes can be streamlined. AI/ML models predict activity, specificity, and immunogenicity while also enhancing mutagenesis screens and directed evolution. These approaches not only accelerate rational design but also create new opportunities for developing safer and more efficient genome-editing tools, which could eventually be translated into the clinic.

Topics & Concepts

Synthetic biologyComputational biologyBiologyMetabolic engineeringGeneComputer scienceBiotechnologyGeneticsCRISPR and Genetic EngineeringGene Regulatory Network AnalysisEvolution and Genetic Dynamics