Using single molecule Molecular Inversion Probes as a cost-effective, high-throughput sequencing approach to target all genes and loci associated with macular diseases.
Rebekkah J Hitti-MalinClaire-Marie DhaenensDaan M PannemanZelia CorradiMubeen KhanAnneke I den HollanderG Jane FarrarChristian GilissenAlexander HoischenMaartje van de VorstFemke BultsErica G M BoonenPatrick Saundersnull nullSusanne RoosingFrans P M CremersPublished in: Human mutation (2022)
Macular degenerations (MDs) are a subgroup of retinal disorders characterized by central vision loss. Knowledge is still lacking on the extent of genetic and nongenetic factors influencing inherited MD (iMD) and age-related MD (AMD) expression. Single molecule Molecular Inversion Probes (smMIPs) have proven effective in sequencing the ABCA4 gene in patients with Stargardt disease to identify associated coding and noncoding variation, however many MD patients still remain genetically unexplained. We hypothesized that the missing heritability of MDs may be revealed by smMIPs-based sequencing of all MD-associated genes and risk factors. Using 17,394 smMIPs, we sequenced the coding regions of 105 iMD and AMD-associated genes and noncoding or regulatory loci, known pseudo-exons, and the mitochondrial genome in two test cohorts that were previously screened for variants in ABCA4. Following detailed sequencing analysis of 110 probands, a diagnostic yield of 38% was observed. This established an ''MD-smMIPs panel," enabling a genotype-first approach in a high-throughput and cost-effective manner, whilst achieving uniform and high coverage across targets. Further analysis will identify known and novel variants in MD-associated genes to offer an accurate clinical diagnosis to patients. Furthermore, this will reveal new genetic associations for MD and potential genetic overlaps between iMD and AMD.
Keyphrases
- genome wide
- single molecule
- copy number
- molecular dynamics
- dna methylation
- living cells
- end stage renal disease
- single cell
- high throughput
- ejection fraction
- optical coherence tomography
- risk factors
- atomic force microscopy
- newly diagnosed
- chronic kidney disease
- diabetic retinopathy
- genome wide identification
- healthcare
- prognostic factors
- small molecule
- gene expression
- poor prognosis
- peritoneal dialysis
- oxidative stress
- transcription factor
- mass spectrometry
- health insurance
- human health
- long non coding rna
- high speed
- fluorescent probe