Delivery of therapeutic genes is essential for successful gene therapy. Adeno-associated viruses (AAVs) are a prime vector for carrying gene cargoes. However, the limited packaging capacity of AAVs poses a major challenge for large gene transduction. Here, we devised a strategy termed AAV with translocation linkage (AAVLINK), leveraging Cre/lox-mediated intermolecular DNA recombination to overcome cargo size constraints. This AAVLINK strategy enabled superior gene segmentation flexibility, robust gene reconstitution efficiency, and a marked reduction in truncated protein products. AAVLINK drove expression of intact Shank3 or SCN1A and rescued behavior and seizure phenotypes of mutant mice, respectively. Moreover, we generated AAVLINK2.0 with destabilized Cre to address biosafety concerns. Importantly, we used AAVLINK to build a vector bank for 193 large genetic-disorder-associated genes and 5 CRISPR-based tools with verified gene reconstitution. Altogether, our study establishes a robust method to facilitate delivery of large gene cargoes using AAVs.
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