Non-invasive prenatal testing of beta-hemoglobinopathies using next generation sequencing, in-silico sequence size selection, and haplotyping.

IF 1.5 4区医学 Q2 MEDICINE, GENERAL & INTERNAL

Croatian Medical Journal Pub Date : 2024-06-13

Henry A Erlich, Lily Ko, Jiyae Lee, Katrina Eaton, Cassandra D Calloway, Ashutosh Lal, Reena Das, Manu Jamwal, Christian Lopez-Pena, Steven J Mack

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引用次数: 0

Abstract

Aim: To develop a non-invasive prenatal test for beta-hemoglobinopathies based on analyzing maternal plasma by using next generation sequencing.

Methods: We applied next generation sequencing (NGS) of maternal plasma to the non-invasive prenatal testing (NIPT) of autosomal recessive diseases, sickle cell disease and beta-thalassemia. Using the Illumina MiSeq, we sequenced plasma libraries obtained via a Twist Bioscience probe capture panel covering 4 Kb of chromosome 11, including the beta-globin (HBB) gene and >450 genomic single-nucleotide polymorphisms (SNPs) used to estimate the fetal fraction (FF). The FF is estimated by counting paternally transmitted allelic sequence reads present in the plasma but absent in the mother. We inferred fetal beta-globin genotypes by comparing the observed mutation (Mut) and reference (Ref) read ratios to those expected for the three possible fetal genotypes (Mut/Mut; Mut/Ref; Ref/Ref), based on the FF.

Results: We bioinformatically enriched the FF by excluding reads over a specified length via in-silico size selection (ISS), favoring the shorter fetal reads, which increased fetal genotype prediction accuracy. Finally, we determined the parental HBB haplotypes, which allowed us to use the read ratios observed at linked SNPs to help predict the fetal genotype at the mutation site(s). We determined HBB haplotypes via Oxford Nanopore MinION sequencing of a 2.2 kb amplicon and aligned these sequences using Soft Genetics' NextGENe LR software.

Conclusion: The combined use of ISS and HBB haplotypes enabled us to correctly predict fetal genotypes in cases where the prediction based on variant read ratios alone was incorrect.

本刊更多论文

利用下一代测序技术、校内序列大小选择和单倍型技术对β-血红蛋白病进行无创产前检查。

目的：利用新一代测序技术，在分析母体血浆的基础上，开发一种针对β-血红蛋白病的、无创的产前检查方法：我们将母体血浆的新一代测序（NGS）应用于常染色体隐性疾病、镰状细胞病和β-地中海贫血的无创产前检测（NIPT）。我们使用 Illumina MiSeq 对通过 Twist Bioscience 探针捕获面板获得的血浆文库进行了测序，该面板覆盖了 4 Kb 的 11 号染色体，包括β-球蛋白 (HBB) 基因和 >450 个基因组单核苷酸多态性 (SNP)，用于估算胎儿组分 (FF)。FF 是通过计算存在于血浆中但在母体中不存在的父方传播的等位基因序列读数来估算的。我们通过比较观察到的突变（Mut）和参考（Ref）读数比率与三种可能的胎儿基因型（Mut/Mut；Mut/Ref；Ref/Ref）的预期比率，根据FF推断胎儿的β-球蛋白基因型：我们通过生物信息学方法富集了FF，方法是通过样本内大小选择（ISS）排除超过特定长度的读数，使较短的胎儿读数更受青睐，从而提高了胎儿基因型预测的准确性。最后，我们确定了亲本的 HBB 单倍型，这样我们就可以利用在连接的 SNPs 上观察到的读数比来帮助预测突变位点的胎儿基因型。我们通过对 2.2 kb 扩增片段进行牛津纳米孔 MinION 测序确定了 HBB 单倍型，并使用 Soft Genetics 的 NextGENe LR 软件对这些序列进行了比对：综合利用 ISS 和 HBB 单倍型使我们能够在仅根据变异读数比预测不正确的情况下正确预测胎儿基因型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Croatian Medical Journal 医学-医学：内科

CiteScore

3.00

自引率

5.30%

发文量

105

审稿时长

6-12 weeks

期刊介绍： Croatian Medical Journal (CMJ) is an international peer reviewed journal open to scientists from all fields of biomedicine and health related research. Although CMJ welcomes all contributions that increase and expand on medical knowledge, the two areas are of the special interest: topics globally relevant for biomedicine and health and medicine in developing and emerging countries.