Naya, Francisco J.Sutton, Hannah Marie2024-09-262024-09-262023https://hdl.handle.net/2144/49337Efficient targeting of genes to either inhibit or increase their expression in specific tissues in vivo remains a challenge. Adeno-Associated Virus (AAV) has emerged as an efficacious delivery method in both humans and murine model systems. AAV is a non-enveloped, single-stranded DNA virus that is non-integrating with long-term expression. Due to its low immunogenicity and various serotypes with specific tissue tropisms, AAV is a preferred choice for organ specific-gene delivery in many experimental settings. This project focused on protocol optimization for high-volume production of AAV plasmids, improved transfection efficiency, and increased viral yield and purity to specifically target noncoding RNAs (ncRNAs) expressed from the imprinted Dlk1-Dio3 locus. Five AAV9 viruses were produced, each containing one of the following transgenes: 1) human Meg3 cDNA for overexpression of this long noncoding RNA, 2) Meg3-specific short hairpin RNA for knockdown analysis, 3) eGFP cDNA to demonstrate AAV9 tissue tropism, 4) Cas9 cDNA, and 5) gene-specific guide RNAs to target the Meg3 proximal promoter. The AAV9 virus production protocol optimized in this project expands the tools available for in vivo study of the Dlk1-Dio3 ncRNA locus.en-USMolecular biologyAdeno associated virusDlk1-Dio3 locusMeg3Noncoding RNAThesis/Dissertation2024-09-25