Locating and Characterizing a Transgene Integration Site by Nanopore Sequencing.
Peter K NichollsDaniel W BellottTing-Jan ChoTatyana PyntikovaDavid C PagePublished in: G3 (Bethesda, Md.) (2019)
The introduction of foreign DNA into cells and organisms has facilitated much of modern biological research, and it promises to become equally important in clinical practice. Locating sites of foreign DNA incorporation in mammalian genomes has proven burdensome, so the genomic location of most transgenes remains unknown. To address this challenge, we applied nanopore sequencing in search of the site of integration of Tg(Pou5f1-EGFP)2Mnn (also known as Oct4:EGFP), a widely used fluorescent reporter in mouse germ line research. Using this nanopore-based approach, we identified the site of Oct4:EGFP transgene integration near the telomere of Chromosome 9. This methodology simultaneously yielded an estimate of transgene copy number, provided direct evidence of transgene inversions, revealed contaminating E. coli genomic DNA within the transgene array, validated the integrity of neighboring genes, and enabled definitive genotyping. We suggest that such an approach provides a rapid, cost-effective method for identifying and analyzing transgene integration sites.
Keyphrases
- copy number
- single molecule
- genome wide
- mitochondrial dna
- circulating tumor
- cell free
- single cell
- clinical practice
- dna methylation
- living cells
- induced apoptosis
- optical coherence tomography
- escherichia coli
- diabetic retinopathy
- gene expression
- quantum dots
- oxidative stress
- radiation therapy
- transcription factor
- locally advanced
- endoplasmic reticulum stress
- loop mediated isothermal amplification