Revisiting Exome Data Identified Missed Splice Site Variant of the Asparagine Synthetase ( ASNS ) Gene.
Ghalia Al-KasbiFathiya Al-MurshediAmna Al-FutaisiTariq Al-JabryFahad ZadjaliSaid Al-YahyaeeAlmundher Al-MaawaliPublished in: Journal of pediatric genetics (2022)
Next-generation sequencing, such as whole-exome sequencing (WES), is increasingly used in the study of Mendelian disorders, yet many are reported as "negative." Inappropriate variant annotation and filtering steps are reasons for missing the molecular diagnosis. Noncoding variants, including splicing mutations, are examples of variants that can be overlooked. Herein, we report a family of four affected newborns, and all presented with severe congenital microcephaly. Initial research WES analysis identified a damaging homozygous variant in NME1 gene as a possible cause of primary microcephaly phenotype in these patients. However, reanalysis of the exome data uncovered a biallelic splice site variant in asparagine synthetase gene which seems to be the possible cause of the phenotype in these patients. This study highlights the importance of revisiting the exome data and the issue of "negative" exome and the afterward approaches to identify and prove new candidate genes.
Keyphrases
- copy number
- end stage renal disease
- chronic kidney disease
- genome wide
- zika virus
- intellectual disability
- ejection fraction
- prognostic factors
- dna methylation
- electronic health record
- big data
- gene expression
- autism spectrum disorder
- early onset
- deep learning
- patient reported outcomes
- single molecule
- data analysis
- preterm infants
- low birth weight