以酵母为模型通过扩增磁杂交捕获真核细胞

Eukaryotic Cell Capture by Amplified Magnetic Hybridization Using Yeast as a Model.

作者信息

Bastian Fabiola, Melayah Delphine, Hugoni Mylène, Dempsey Nora M, Simonet Pascal, Frenea-Robin Marie, Fraissinet-Tachet Laurence

机构信息

DTAMB, Université Claude Bernard Lyon 1, Bât. Gregor Mendel, Villeurbanne Cedex, France.

Université Lyon, Université Claude Bernard Lyon 1, CNRS, INRAE, VetAgro Sup, UMR Ecologie Microbienne, Villeurbanne, France.

出版信息

Front Microbiol. 2021 Nov 1;12:759478. doi: 10.3389/fmicb.2021.759478. eCollection 2021.

DOI:10.3389/fmicb.2021.759478

PMID:34790184

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8591292/

Abstract

A non-destructive approach based on magnetic hybridization (MISH) and hybridization chain reaction (HCR) for the specific capture of eukaryotic cells has been developed. As a prerequisite, a HCR-MISH procedure initially used for tracking bacterial cells was here adapted for the first time to target eukaryotic cells using a universal eukaryotic probe, Euk-516R. Following labeling with superparamagnetic nanoparticles, cells from the model eukaryotic microorganism were hybridized and isolated on a micro-magnet array. In addition, the eukaryotic cells were successfully targeted in an artificial mixture comprising bacterial cells, thus providing evidence that HCR-MISH is a promising technology to use for specific microeukaryote capture in complex microbial communities allowing their further morphological characterization. This new study opens great opportunities in ecological sciences, thus allowing the detection of specific cells in more complex cellular mixtures in the near future.

摘要

已开发出一种基于磁杂交（MISH）和杂交链式反应（HCR）的非破坏性方法，用于特异性捕获真核细胞。作为前提条件，最初用于追踪细菌细胞的HCR-MISH程序在此首次进行了调整，使用通用真核探针Euk-516R靶向真核细胞。在用超顺磁性纳米颗粒标记后，来自模型真核微生物的细胞在微磁阵列上进行杂交和分离。此外，真核细胞在包含细菌细胞的人工混合物中被成功靶向，从而证明HCR-MISH是一种有前途的技术，可用于在复杂微生物群落中特异性捕获微型真核生物，以便对其进行进一步的形态学表征。这项新研究为生态科学带来了巨大机遇，从而有望在不久的将来在更复杂的细胞混合物中检测特定细胞。

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以酵母为模型通过扩增磁杂交捕获真核细胞

Eukaryotic Cell Capture by Amplified Magnetic Hybridization Using Yeast as a Model.

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