生物
DNA
基因组
核酸外切酶 III
计算生物学
转导(生物物理学)
转基因
基因治疗载体
核酸外切酶
遗传学
腺相关病毒
基因组DNA
DNA测序
分子生物学
核糖核酸
基因组不稳定性
重组DNA
遗传增强
限制性酶
杂交探针
人类基因组
基因组文库
内含子
载体(分子生物学)
互补DNA
报告基因
DNA微阵列
核酸热力学
外源DNA
体外重组
基因
作者
Ling Li,Xinbin Tang,Jenni Firrman,LinShu Liu,Dylan Frabutt,Matthew Chrzanowski,Rongqin Ke,Yong Diao
出处
期刊:RNA
[Cold Spring Harbor Laboratory Press]
日期:2025-10-14
卷期号:32 (1): 37-48
标识
DOI:10.1261/rna.080380.125
摘要
Gene therapy using recombinant adeno-associated viral (AAV) vectors is a promising approach for treating inherited diseases. Precise characterization of AAV vector genomes and transcripts is essential for further optimization of this technique. Current visualization methods require multiple assays for detecting DNA and RNA, often involving mRNA-to-cDNA conversion. This can obscure insights into spatial distributions, particularly when AAV DNA and mRNA exhibit divergent trends. To address this challenge, we developed a padlock probe (PLP)-based rolling-circle amplification (RCA) technique. Using SplintR DNA ligase, which ligates single-stranded DNA splinted by complementary RNA sequences, enabled our method to directly target AAV mRNA without requiring conversion to cDNA, as well as genomic DNA. Incorporation of an intron within the transgene sequence allows probe designs that distinguish transgene DNA from its mRNA. This strategy enables specific detection of AAV single-stranded DNA (+), single-stranded DNA (-), and mRNA, each effectively amplified by PLP-RCA. Furthermore, this approach enables us to differentiate AAV single-stranded from double-stranded DNA by a combined treatment of lambda exonuclease and restriction enzyme digestion, providing the possibility of tracking the AAV genome processing following transduction. In transduced HeLa cells and liver tissues from AAV-injected mice, PLP-RCA revealed distinct temporal patterns of AAV DNA and mRNA localization, uncovering early DNA instability that influences transduction efficiency. This technique provides a robust and versatile platform for spatially resolved, single-cell analysis of AAV genome and transcript dynamics, facilitating a deeper understanding of AAV biology and aiding the optimization of vector-based gene therapies.
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