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Artificial Intelligence‐Based Approaches for AAV Vector Engineering

Fangzhi Tan, Yue Dong, Jieyu Qi, Wenwu Yu, Renjie Chai

2025Advanced Science26 citationsDOIOpen Access PDF

Abstract

Adeno-associated virus (AAV) has emerged as a leading vector for gene therapy due to its broad host range, low pathogenicity, and ability to facilitate long-term gene expression. However, AAV vectors face limitations, including immunogenicity and insufficient targeting specificity. To enhance the efficacy of gene therapy, researchers have been modifying the AAV vector using various methods. Traditional experimental approaches for optimizing AAV vector are often time-consuming, resource-intensive, and difficult to replicate. The advancement of artificial intelligence (AI), particularly machine learning, offers significant potential to accelerate capsid optimization while reducing development time and manufacturing costs. This review compares traditional and AI-based methods of AAV vector engineering and highlights recent research in AAV engineering using AI algorithms.

Topics & Concepts

Computer scienceImmunogenicityArtificial intelligenceVector (molecular biology)CapsidGenetic enhancementMachine learningMedicineVirologyVirusBiologyGeneRecombinant DNAImmunologyImmune systemBiochemistryVirus-based gene therapy researchAnimal Virus Infections StudiesViral gastroenteritis research and epidemiology
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