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编辑推荐-观点-通过固态纳米孔单分子传感解析聚糖密码:呼吁糖科学和纳米孔科学的综合进展。

Editors' Choice-Perspective-Deciphering the Glycan Kryptos by Solid-State Nanopore Single-Molecule Sensing: A Call for Integrated Advancements Across Glyco- and Nanopore Science.

作者信息

Kizer Megan E, R Dwyer Jason

机构信息

Department of Chemistry, Brown University, Providence, Rhode Island 02912, United States of America.

Department of Chemistry, University of Rhode Island, Kingston, Rhode Island, 02881, United States of America.

出版信息

ECS Sens Plus. 2024 Jun 3;3(2):020604. doi: 10.1149/2754-2726/ad49b0. Epub 2024 May 24.

DOI:10.1149/2754-2726/ad49b0
PMID:38799647
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11125560/
Abstract

Glycans, or complex carbohydrates, are information-rich biopolymers critical to many biological processes and with considerable importance in pharmaceutical therapeutics. Our understanding, though, is limited compared to other biomolecules such as DNA and proteins. The greater complexity of glycan structure and the limitations of conventional chemical analysis methods hinder glycan studies. Auspiciously, nanopore single-molecule sensors-commercially available for DNA sequencing-hold great promise as a tool for enabling and advancing glycan analysis. We focus on two key areas to advance nanopore glycan characterization: molecular surface coatings to enhance nanopore performance including by molecular recognition, and high-quality glycan chemical standards for training.

摘要

聚糖,即复合碳水化合物,是信息丰富的生物聚合物,对许多生物过程至关重要,在药物治疗中也具有相当重要的意义。然而,与DNA和蛋白质等其他生物分子相比,我们对聚糖的了解有限。聚糖结构的复杂性更高,以及传统化学分析方法的局限性,阻碍了聚糖研究。幸运的是,可用于DNA测序的商业纳米孔单分子传感器,作为一种能够实现并推进聚糖分析的工具,具有巨大的潜力。我们专注于两个关键领域来推进纳米孔聚糖表征:通过分子识别等方式增强纳米孔性能的分子表面涂层,以及用于训练的高质量聚糖化学标准品。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ada7/11125560/83c01dbe0941/ecsspad49b0f1_lr.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ada7/11125560/83c01dbe0941/ecsspad49b0f1_lr.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ada7/11125560/83c01dbe0941/ecsspad49b0f1_lr.jpg

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本文引用的文献

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Nanopore analysis of cis-diols in fruits.纳米孔分析水果中的顺式二醇。
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