From hemolymph to in-vivo: The potential of a 1 mm microlitre flow probe with separate lock chamber for NMR metabolomics in mass limited environmental samples

IF 2.624
Monica Bastawrous , Daniel Lane , Ronald Soong , Maryam Tabatabaei Anaraki , Daniel Schmidig , Thomas Frei , Peter De Castro , Stephan Graf , Till Kuehn , Rainer Kümmerle , Falko Busse , Hermann Heumann , Holger Boenisch , Marcel Gundy , Andre J. Simpson
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引用次数: 2

Abstract

Metabolomics is one of the leading approaches for understanding the toxic-mode-of-action of environmental contaminants. Nuclear Magnetic Resonance (NMR) spectroscopy has been commonly used in metabolomic studies; however, its main drawback is its relatively low sensitivity, making it challenging to study mass limited but environmentally crucial samples. In this work a 1 mm microlitre probe modified with a separate lock chamber to address this challenge, provided substantial improvements in mass sensitivity relative to conventional 5 mm NMR probes. The 1 mm probe is used to analyze various components of the model organism Daphnia magna, including hemolymph, parthenogenetic eggs, dormant eggs, and neonates. A μL volume flow system is designed for the 1 mm probe to perform an in-vivo exposure of neonates to high salt concentrations. The metabolic investigation of these samples was only achieved due to the minimum sample requirements and high salt tolerance of the probe, demonstrating that the 1 mm microlitre probe modified with a separate lock chamber holds significant potential for future metabolomic studies of mass limited samples.

Abstract Image

从血淋巴到体内:在质量有限的环境样品中,具有单独锁腔的1毫米微升流量探针的潜力
代谢组学是了解环境污染物毒性作用模式的主要方法之一。核磁共振(NMR)光谱已广泛用于代谢组学研究;然而,它的主要缺点是相对较低的灵敏度,这使得研究质量有限但对环境至关重要的样品具有挑战性。在这项工作中,一个1毫米微升探针经过单独锁腔的修改,以解决这一挑战,相对于传统的5毫米核磁共振探针,质量灵敏度有了实质性的提高。1毫米探针用于分析模式生物大水蚤的各种成分,包括血淋巴、孤雌卵、休眠卵和新生卵。设计了一种μL容积流系统,用于1mm探针对新生儿进行体内高盐暴露。这些样品的代谢研究是由于探针的最低样品要求和高耐盐性而实现的,这表明经过单独锁腔修饰的1毫米微升探针在未来质量有限样品的代谢组学研究中具有重要潜力。
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CiteScore
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