| Literature DB >> 34293487 |
Qiaowei Liang1, Wanqian Gu2, Ping Chen3, Yuezhen Li4, Yanqiu Liu5, Mao Tian6, Qiaomiao Zhou7, Hongbo Qi8, Yuhong Zhang9, Jun He10, Qing Li11, Lingfang Tang12, Juan Tang13, Yanling Teng1, Yulin Zhou14, Shengwen Huang15, Zongjie Lu16, Mengnan Xu4, Wei Hou3, Ting Huang5, Youqiong Li6, Rong Li8, Lanping Hu10, Shaoying Li11, Qiwei Guo14, Zhaozhen Zhuo15, Yan Mou16, David S Cram17, Lingqian Wu18.
Abstract
The aim of the study was to assess the clinical utility of a third-generation sequencing (TGS) approach termed comprehensive analysis of thalassemia alleles (CATSA) for identifying both α and β thalassemia genetic carrier status. Prospective blood samples (n = 1759) with abnormal hemoglobin parameters were screened for pathogenic thalassemia variants by CATSA on the PacBio TGS platform. In 1159 individuals, a total of 1317 pathogenic thalassemia variants were identified and confirmed by independent PCR-based tests. Of the total thalassemia variants detected, the α-variant --SEA (35.4%) and β-variant c.126_129delCTTT (15%) were the most common. CATSA was also able to detect three types of rare HBA structural variants as well as five rare HBA2, three HBA1, and 10 HBB single-nucleotide variations/insertions and deletions. Compared with standard thalassemia variant PCR panel testing, CATSA identified all panel variants present, with no false-negative results. Carrier assignment was improved through identification of rare variants missed by the panel test. On the basis of allelic coverage, reliability, and accuracy, TGS with long-range PCR presents a comprehensive approach with the potential to provide a universal solution for thalassemia genetic carrier screening. It is proposed that CATSA has immediate clinical utility as an effective carrier screening approach for at-risk couples.Entities:
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Year: 2021 PMID: 34293487 DOI: 10.1016/j.jmoldx.2021.06.008
Source DB: PubMed Journal: J Mol Diagn ISSN: 1525-1578 Impact factor: 5.568