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用于分析和分类人血清 N 连接聚糖组的逆合成聚糖文库的开发。

The development of retrosynthetic glycan libraries to profile and classify the human serum N-linked glycome.

作者信息

Kronewitter Scott R, An Hyun Joo, de Leoz Maria Lorna, Lebrilla Carlito B, Miyamoto Suzanne, Leiserowitz Gary S

机构信息

Department of Chemistry, University of California Davis, Davis, CA 95616, USA.

出版信息

Proteomics. 2009 Jun;9(11):2986-94. doi: 10.1002/pmic.200800760.

DOI:10.1002/pmic.200800760
PMID:19452454
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2758495/
Abstract

Annotation of the human serum N-linked glycome is a formidable challenge but is necessary for disease marker discovery. A new theoretical glycan library was constructed and proposed to provide all possible glycan compositions in serum. It was developed based on established glycobiology and retrosynthetic state-transition networks. We find that at least 331 compositions are possible in the serum N-linked glycome. By pairing the theoretical glycan mass library with a high mass accuracy and high-resolution MS, human serum glycans were effectively profiled. Correct isotopic envelope deconvolution to monoisotopic masses and the high mass accuracy instruments drastically reduced the amount of false composition assignments. The high throughput capacity enabled by this library permitted the rapid glycan profiling of large control populations. With the use of the library, a human serum glycan mass profile was developed from 46 healthy individuals. This paper presents a theoretical N-linked glycan mass library that was used for accurate high-throughput human serum glycan profiling. Rapid methods for evaluating a patient's glycome are instrumental for studying glycan-based markers.

摘要

对人血清N-连接聚糖组进行注释是一项艰巨的挑战,但对于发现疾病标志物来说是必要的。构建并提出了一个新的理论聚糖文库,以提供血清中所有可能的聚糖组成。它是基于已确立的糖生物学和逆合成状态转换网络开发的。我们发现血清N-连接聚糖组中至少有331种组成是可能的。通过将理论聚糖质量文库与高质量精度和高分辨率质谱相结合,有效地对人血清聚糖进行了分析。正确的同位素包络反卷积为单同位素质量,以及高质量精度仪器大大减少了错误组成分配的数量。该文库实现的高通量能力允许对大量对照人群进行快速聚糖分析。通过使用该文库,从46名健康个体中建立了人血清聚糖质量图谱。本文介绍了一个用于准确高通量人血清聚糖分析的理论N-连接聚糖质量文库。评估患者聚糖组的快速方法对于研究基于聚糖的标志物至关重要。

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