基因型、表型和全基因组序列：来自“我的生活，我们的未来”血友病项目的方法。

Genotypes, phenotypes and whole genome sequence: Approaches from the My Life Our Future haemophilia project.

机构信息

Bloodworks Northwest, Seattle, WA, USA.

University of Washington, Seattle, WA, USA.

出版信息

Haemophilia. 2018 May;24 Suppl 6(Suppl 6):87-94. doi: 10.1111/hae.13506.

DOI:10.1111/hae.13506

PMID:29878652

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6258054/

Abstract

INTRODUCTION

Information from the genes encoding factor VIII (F8) and IX (F9) is used in reproductive planning and to inform inhibitor formation, bleeding severity and response to therapies. Advances in technology and our understanding of the human genome now allows more comprehensive methods to study genomic variation and its impact on haemophilia.

AIMS

The My Life Our Future (MLOF) programme was begun in 2012 to provide genetic analysis and to expand research in haemophilia through a research repository.

METHODS

MLOF enrolled haemophilia A and B patients followed at haemophilia treatment centers in the U.S., including, since 2015, known and potential genetic carriers. Initial F8 and F9 DNA analysis was performed utilizing a next generation sequencing approach which allowed simultaneous detection of F8 inversions and other variants. Candidate variants were confirmed using a second method and multiplex ligation-dependent probe amplification was used to detect structural variants.

RESULTS

The initial phase of MLOF completed enrollment in December 2017 with 11,356 patients, genetic carriers, and potential carriers enrolled. In the 9453 subjects in whom analysis is complete, 687 unique previously unreported variants were found. Simultaneous sequencing of the F8 and F9 genes resulted in identification of non-deleterious variants previously reported as causative in haemophilia. DNA from 5141 MLOF subjects has undergone whole genome sequencing through the NHLBI TOPMed programme of the U.S. NIH.

CONCLUSION

MLOF has provided genetic information for patients and their families to help inform clinical care and has established a repository of data and biospecimens to further advance haemophilia research.

摘要

简介

因子 VIII（F8）和因子 IX（F9）编码基因的信息可用于生殖规划，并可用于告知抑制剂的形成、出血严重程度以及对治疗的反应。技术的进步和我们对人类基因组的理解现在允许更全面的方法来研究基因组变异及其对血友病的影响。

目的

My Life Our Future（MLOF）计划于 2012 年启动，旨在提供基因分析，并通过研究存储库扩大血友病研究。

方法

MLOF 招募了在美国血友病治疗中心接受治疗的血友病 A 和 B 患者，包括自 2015 年以来已知和潜在的遗传携带者。最初使用下一代测序方法对 F8 和 F9 DNA 进行分析，该方法允许同时检测 F8 反转和其他变体。使用第二种方法确认候选变体，并使用多重连接依赖性探针扩增检测结构变体。

结果

MLOF 的初始阶段于 2017 年 12 月完成招募，共招募了 11356 名患者、遗传携带者和潜在携带者。在已完成分析的 9453 名受试者中，发现了 687 种以前未报告的独特变异。F8 和 F9 基因的同时测序导致鉴定出以前报道为血友病病因的非有害变异。通过美国 NIH 的 NHLBI TOPMed 计划，对 5141 名 MLOF 受试者的 DNA 进行了全基因组测序。

结论

MLOF 为患者及其家属提供了遗传信息，以帮助告知临床护理，并建立了一个数据和生物样本存储库，以进一步推进血友病研究。

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