A novel approach to generate enzyme-free single cell suspensions from archived tissues for miRNA sequencing

IF 2.5 4区医学 Q3 BIOCHEMICAL RESEARCH METHODS SLAS Technology Pub Date : 2024-06-01 DOI:10.1016/j.slast.2024.100133

Stefan Scheuermann , Sarah Hücker , Annika Engel , Nicole Ludwig , Philipp Lebhardt , Jens Langejürgen , Stefan Kirsch

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Abstract

Obtaining high-quality omics data at the single-cell level from archived human tissue samples is crucial for gaining insights into cellular heterogeneity and pushing the field of personalized medicine forward. In this technical brief we present a comprehensive methodological framework for the efficient enzyme-free preparation of tissue-derived single cell suspensions and their conversion into single-cell miRNA sequencing libraries. The resulting data from this study have the potential to deepen our understanding of miRNA expression at the single-cell level and its relevance in the context of the examined tissues. The workflow encompasses tissue collection, RNALater immersion, storage, thawing, TissueGrinder-mediated dissociation, miRNA lysis, library preparation, sequencing, and data analysis. Quality control measures ensure reliable miRNA data, with specific attention to sample quality. The UMAP analysis reveals tissue-specific cell clustering, while miRNA diversity reflects tissue variations. The presented workflow effectively processes preserved tissues, extending opportunities for retrospective analysis and biobank utilization.

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从存档组织中生成用于 miRNA 测序的无酶单细胞悬浮液的新方法。

从存档人体组织样本中获取单细胞水平的高质量 omics 数据对于深入了解细胞异质性和推动个性化医疗领域的发展至关重要。在本技术简介中，我们介绍了一种全面的方法论框架，用于高效无酶制备组织来源的单细胞悬浮液并将其转化为单细胞 miRNA 测序文库。这项研究产生的数据有可能加深我们对单细胞水平 miRNA 表达及其与所研究组织相关性的理解。工作流程包括组织采集、RNALater浸泡、储存、解冻、TissueGrinder介导的解离、miRNA裂解、文库制备、测序和数据分析。质量控制措施确保 miRNA 数据的可靠性，并特别关注样本质量。UMAP 分析揭示了组织特异性细胞集群，而 miRNA 多样性则反映了组织差异。所介绍的工作流程能有效处理保存的组织，扩大了回顾分析和生物库利用的机会。

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来源期刊

SLAS Technology Computer Science-Computer Science Applications

CiteScore

6.30

自引率

7.40%

发文量

审稿时长

106 days

期刊介绍： SLAS Technology emphasizes scientific and technical advances that enable and improve life sciences research and development; drug-delivery; diagnostics; biomedical and molecular imaging; and personalized and precision medicine. This includes high-throughput and other laboratory automation technologies; micro/nanotechnologies; analytical, separation and quantitative techniques; synthetic chemistry and biology; informatics (data analysis, statistics, bio, genomic and chemoinformatics); and more.