癌症体细胞突变和基因重排的单细胞多基因鉴定。

NAR Cancer Pub Date : 2023-07-10 eCollection Date: 2023-09-01 DOI:10.1093/narcan/zcad034
Susan M Grimes, Heon Seok Kim, Sharmili Roy, Anuja Sathe, Carlos I Ayala, Xiangqi Bai, Alison F Almeda-Notestine, Sarah Haebe, Tanaya Shree, Ronald Levy, Billy T Lau, Hanlee P Ji
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引用次数: 0

摘要

在这项概念验证研究中,我们开发了一种单细胞方法,该方法提供信使RNA编码区中发现的体细胞改变的基因型,并将这些基于转录物的变体与其匹配的细胞转录组整合。我们在单细胞互补DNA文库上使用纳米孔自适应采样来验证靶基因转录物中的编码变体,并使用短读测序来表征携带突变的细胞类型。使用癌症细胞系鉴定16个靶点的CRISPR编辑,并使用352基因面板验证细胞系中的已知变体。原发性癌症样本中的变体使用范围从161到529个基因的靶基因组进行验证。在一名患者身上也发现了基因重排,重排发生在两个不同的肿瘤部位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Single-cell multi-gene identification of somatic mutations and gene rearrangements in cancer.

Single-cell multi-gene identification of somatic mutations and gene rearrangements in cancer.

Single-cell multi-gene identification of somatic mutations and gene rearrangements in cancer.

Single-cell multi-gene identification of somatic mutations and gene rearrangements in cancer.

In this proof-of-concept study, we developed a single-cell method that provides genotypes of somatic alterations found in coding regions of messenger RNAs and integrates these transcript-based variants with their matching cell transcriptomes. We used nanopore adaptive sampling on single-cell complementary DNA libraries to validate coding variants in target gene transcripts, and short-read sequencing to characterize cell types harboring the mutations. CRISPR edits for 16 targets were identified using a cancer cell line, and known variants in the cell line were validated using a 352-gene panel. Variants in primary cancer samples were validated using target gene panels ranging from 161 to 529 genes. A gene rearrangement was also identified in one patient, with the rearrangement occurring in two distinct tumor sites.

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