HBB gene mutation spectrum in an Indian cohort of 1530 cases using an in-house targeted next-generation sequencing assay

AbstractBeta thalassemia major is a common genetic disorder characterized by the reduced production or absence of beta globin, a product of the haemoglobin subunit beta (HBB) gene. Every year, approximately 10,000 –12,000 children with thalassemia major are born in India. Molecular methodologies like ARMS (amplification-refractory mutation system)-PCR (polymerase chain reaction) and capillary sequencing are used to detectHBB gene mutations. It is, however, challenging to achieve comprehensive coverage of theHBB gene by these methods. Next-generation sequencing (NGS) can be used to circumvent these problems. Commercial NGS panels are prohibitively expensive and hence are not routinely implemented in most laboratories. We have developed a cost-effective, highly sensitive and specific, indigenous targeted NGS assay for detecting mutations in theHBB gene. Using this custom NGS assay, we processed 1530 samples (3017 alleles), in which we detected a spectrum of 48 pathogenic/likely pathogenic variants (mutations); IVS-I-5 (c.92+5G>C) was the most common mutation detected (allele frequency (AF) 44.55%), followed by the 619-bp deletion (AF 10.74%), c.92+1G>T (AF 6.99%), c.27_28insG (AF 6.23%), c.47G>A (AF 5.77%) and c.126_129delCTTT (AF 4.71%). Additionally, we discovered a novel mutation (c.7delC) that was submitted to the HbVar database (HbVar ID 3193) as a variant of unknown significance (VUS), probably pathogenic. The targeted NGS assay developed during this study was ...
Source: Journal of Hematopathology - Category: Pathology Source Type: research