整个生物体的体外综合多相核磁共振:体内核磁共振的补充工具

IF 2.5 Q1 Chemistry
Rajshree Ghosh Biswas , Blythe Fortier-McGill , Mohammad Akhter , Ronald Soong , Paris Ning , Monica Bastawrous , Amy Jenne , Daniel Schmidig , Peter De Castro , Stephan Graf , Till Kuehn , Falko Busse , Jochem Struppe , Michael Fey , Hermann Heumann , Holger Boenisch , Marcel Gundy , Myrna J. Simpson , André J. Simpson
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引用次数: 15

摘要

核磁共振(NMR)波谱是一种非侵入性分析技术,允许完整样品的研究。综合多相核磁共振(CMP-NMR)结合了溶液状态和固态核磁共振的技术和硬件,可以对未改变样品中的所有相(即溶液,凝胶和固体)进行全面分析。本研究首次将CMP-NMR应用于死亡的完整生物,并以富含13C的大水蚤(水蚤)为例。大蠊是环境毒理学研究中常用的模式生物。作为主要消费者,它们负责营养物质在营养水平上的转移,它们种群的减少可能会影响整个淡水水生生态系统。虽然体内研究是了解生物最相关的生物学状态的最终工具,但研究受到保持生物存活所需的条件(即氧气需求,有限的实验时间和降低的旋转速度)的限制,这可能会对所收集数据的质量产生负面影响。相比之下,体外CMP-NMR在这方面是有益的;生物体不需要氧气(消除转子帽上的气孔和随后的蒸发);样品可以更快地旋转,从而提高光谱分辨率;每个样品可以分析更多的生物量;实验可以进行更长时间。反过来,高质量的离体核磁共振可以提供更全面的核磁共振分配,在许多情况下,这些分配可以更好地理解较少解析的体内信号。本文分为三个部分:1)多相光谱编辑技术;2)富含13C的D. magna的2D NMR详细代谢分配;3)D. magna不同生命阶段、年龄和世代的多相生物学变化。综上所述,体外CMP-NMR被证明是一种非常强大的方法,可以全面地研究整个生物体,并且应该为基于体内的研究提供非常补充的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Ex vivo Comprehensive Multiphase NMR of whole organisms: A complementary tool to in vivo NMR

Ex vivo Comprehensive Multiphase NMR of whole organisms: A complementary tool to in vivo NMR

Nuclear Magnetic Resonance (NMR) spectroscopy is a non-invasive analytical technique which allows for the study of intact samples. Comprehensive Multiphase NMR (CMP-NMR) combines techniques and hardware from solution state and solid state NMR to allow for the holistic analysis of all phases (i.e. solutions, gels and solids) in unaltered samples. This study is the first to apply CMP-NMR to deceased, intact organisms and uses 13C enriched Daphnia magna (water fleas) as an example. D. magna are commonly used model organisms for environmental toxicology studies. As primary consumers, they are responsible for the transfer of nutrients across trophic levels, and a decline in their population can potentially impact the entire freshwater aquatic ecosystem. Though in vivo research is the ultimate tool to understand an organism’s most biologically relevant state, studies are limited by conditions (i.e. oxygen requirements, limited experiment time and reduced spinning speed) required to keep the organisms alive, which can negatively impact the quality of the data collected. In comparison, ex vivo CMP-NMR is beneficial in that; organisms do not need oxygen (eliminating air holes in rotor caps and subsequent evaporation); samples can be spun faster, leading to improved spectral resolution; more biomass per sample can be analyzed; and experiments can be run for longer. In turn, higher quality ex vivo NMR, can provide more comprehensive NMR assignments, which in many cases could be transferred to better understand less resolved in vivo signals. This manuscript is divided into three sections: 1) multiphase spectral editing techniques, 2) detailed metabolic assignments of 2D NMR of 13C enriched D. magna and 3) multiphase biological changes over different life stages, ages and generations of D. magna. In summary, ex vivo CMP-NMR proves to be a very powerful approach to study whole organisms in a comprehensive manner and should provide very complementary information to in vivo based research.

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来源期刊
Analytica Chimica Acta: X
Analytica Chimica Acta: X Chemistry-Analytical Chemistry
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