Frontiers in analytical science最新文献_第4页

Why do we need to go beyond overall biological variability assessment in metabolomics? 为什么我们需要超越代谢组学的整体生物变异性评估？

Frontiers in analytical science

Pub Date : 2023-02-13 DOI: 10.3389/frans.2023.1112390

J. Boccard, Serge Rudaz

Unlike other systems such as plants, microorganisms or fungi, human cells are not proficient in eliciting the production of defense compounds in response to external stresses and threats. Human metabolism is essentially based on a set of primary metabolites that participate in the various regulatory events of cells and tissues. The challenge is therefore to maintain homeostasis and allow the survival of the individual through the modulation of existing endogenous metabolic pathways with a relatively stable set of ubiquitous compounds. Since these complex regulatory phenomena are potentially subject to multiple influences, assessing their overall variability, as achieved by most conventional approaches, is not sufficiently informative. The experimental evaluation of several factors acting simultaneously on the metabolome is paramount. Because metabolomics involves the characterization of multivariate metabolic phenotypes, such a methodology requires specific data analysis tools to fully exploit the relevant information considering the different factors, as well as their respective impact on metabolite levels. The investigation of high-dimensional multifactorial data in metabolomics opens new challenges and requires the development of innovative experimental strategies involving structured designs of experiments to assess cause-effect associations and offer deeper insight into relevant biological information. In the future, key outputs should not only consider lists of metabolites, but also include their specific variation related to each effect that can be identified and/or quantified, thus allowing accurate biochemical and functional relationships to be highlighted.

与植物、微生物或真菌等其他系统不同，人类细胞并不擅长诱导防御化合物的产生以应对外部压力和威胁。人类代谢基本上是基于一组参与细胞和组织各种调节事件的初级代谢产物。因此，挑战在于通过用一组相对稳定的普遍存在的化合物调节现有的内源性代谢途径来维持体内平衡并允许个体生存。由于这些复杂的调节现象可能会受到多种影响，因此，通过大多数传统方法来评估它们的总体可变性并不能提供足够的信息。同时作用于代谢组的几个因素的实验评估是至关重要的。由于代谢组学涉及多变量代谢表型的表征，因此这种方法需要特定的数据分析工具来充分利用考虑不同因素的相关信息，以及它们对代谢物水平的各自影响。代谢组学中高维多因素数据的研究带来了新的挑战，需要开发创新的实验策略，包括结构化的实验设计，以评估因果关系，并对相关生物信息提供更深入的见解。未来，关键输出不仅应考虑代谢物列表，还应包括与每种影响相关的具体变化，这些变化可以被识别和/或量化，从而突出准确的生物化学和功能关系。

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引用次数: 0

Challenges and perspectives in MS-based omics approaches for ecotoxicology studies: An insight on Gammarids sentinel amphipods 基于MS的组学方法在生态毒理学研究中的挑战和前景：对Gammarids哨兵片脚类的见解

Frontiers in analytical science

Pub Date : 2023-02-13 DOI: 10.3389/frans.2023.1118494

Valentina Calabrese, A. Salvador, Y. Clément, Thomas Brunet, A. Espeyte, A. Chaumot, O. Geffard, D. Degli-Esposti, S. Ayciriex

The aquatic environment is one of the most complex biosystems, as organism at all trophic levels may be exposed to a multitude of pollutants. As major goals, ecotoxicology typically investigates the impact of toxic pollutants on the ecosystems through the study of sentinel organisms. Over the past decades, Mass Spectrometry (MS)-based omics approaches have been extended to sentinel species both in laboratory and field exposure conditions. Single-omics approaches enable the discovery of biomarkers mirroring the health status of an organism. By covering a restricted set of the molecular cascade, they turn out to only partially satisfy the understanding of complex ecotoxicological effects. In contrast, a more complete understanding of the ecotoxicity pathways can be accessed through multi-omics approaches. In this perspective, we provide a state-of-the-art and a critical evaluation on further developments in MS-based single and multi-omics studies in aquatic ecotoxicology. As case example, literature regarding Gammarids freshwater amphipods, non-model sentinel organisms sensitive to pollutants and environmental changes and crucial species for downstream ecosystems, will be reviewed.

水生环境是最复杂的生物系统之一，因为所有营养级的生物体都可能暴露在多种污染物中。作为主要目标，生态毒理学通常通过研究哨点生物来调查有毒污染物对生态系统的影响。在过去的几十年里，基于质谱（MS）的组学方法已经扩展到实验室和野外暴露条件下的前哨物种。单一组学方法能够发现反映生物体健康状况的生物标志物。通过覆盖一组有限的分子级联，它们只能部分满足对复杂生态毒理学效应的理解。相比之下，可以通过多组学方法更全面地了解生态毒性途径。从这个角度来看，我们对水生生态毒理学中基于MS的单组学和多组学研究的进一步发展提供了最新的和关键的评估。作为案例，将审查有关Gammarids淡水片脚类、对污染物和环境变化敏感的非模式前哨生物以及下游生态系统的关键物种的文献。

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引用次数: 0

Recent methodological developments in data-dependent analysis and data-independent analysis workflows for exhaustive lipidome coverage 详尽脂质体覆盖的数据依赖分析和数据独立分析工作流程的最新方法学发展

Frontiers in analytical science

Pub Date : 2023-02-10 DOI: 10.3389/frans.2023.1118742

Marie Valmori, Vincent Marie, F. Fenaille, B. Colsch, D. Touboul

Untargeted lipidomics applied to biological samples typically involves the coupling of separation methods to high-resolution mass spectrometry (HRMS). Getting an exhaustive coverage of the lipidome with a high confidence in structure identification is still highly challenging due to the wide concentration range of lipids in complex matrices and the presence of numerous isobaric and isomeric species. The development of innovative separation methods and HRMS(/MS) acquisition workflows helped improving the situation but issues still remain regarding confident structure characterization. To overcome these issues, thoroughly optimized MS/MS acquisition methods are needed. For this purpose, different methodologies have been developed to enable MS and MS/MS acquisition in parallel. Those methodologies, derived from the proteomics, are referred to Data Dependent Acquisition (DDA) and Data Independent Acquisition (DIA). In this context, this perspective paper presents the latest developments of DDA- and DIA-based lipidomic workflows and lists available bioinformatic tools for the analysis of resulting spectral data.

应用于生物样品的非靶向脂质组学通常涉及分离方法与高分辨率质谱(HRMS)的耦合。由于复杂基质中的脂质浓度范围广，并且存在许多等压和同分异构体，因此在结构鉴定中获得高可信度的脂质组的详尽覆盖仍然具有很高的挑战性。创新的分离方法和HRMS(/MS)采集工作流程的发展有助于改善这种情况，但在可靠的结构表征方面仍然存在问题。为了克服这些问题，需要对MS/MS采集方法进行彻底优化。为此，已经开发了不同的方法来实现质谱和质谱/质谱并行采集。这些方法来源于蛋白质组学，被称为数据依赖获取(DDA)和数据独立获取(DIA)。在此背景下，本文介绍了基于DDA和dia的脂质组学工作流程的最新发展，并列出了用于分析所得光谱数据的可用生物信息学工具。

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引用次数: 1

Promoting transparency in forensic science by integrating categorical and evaluative reporting through decision theory 通过决策理论整合分类报告和评估报告，提高法医学的透明度

Frontiers in analytical science

Pub Date : 2023-02-07 DOI: 10.3389/frans.2023.1105642

M. Sigman, Mary R. Williams

Forensic science standards often require the analyst to report in categorical terms. Categorical reporting without reference to the strength of the evidence, or the strength threshold that must be met to sustain or justify the decision, obscures the decision-making process, and allows for inconsistency and bias. Standards that promote reporting in probabilistic terms require the analyst to report the strength of the evidence without offering a conclusive interpretation of the evidence. Probabilistic reporting is often based on a likelihood ratio which depends on calibrated probabilities. While probabilistic reporting may be more objective and less open to bias than categorical reporting, the report can be difficult for a lay jury to interpret. These reporting methods may appear disparate, but the relationship between the two is easily understood and visualized by a simple decision theory construct known as the receiver operating characteristic (ROC) curve. Implementing ROC-facilitated reporting through an expanded proficiency testing regime may provide transparency in categorical reporting and potentially obviate some of the lay jury interpretation issues associated with probabilistic reporting.

法医学标准通常要求分析员以明确的术语进行报告。分类报告没有提及证据的强度，或为维持或证明决策的合理性而必须达到的强度阈值，这掩盖了决策过程，并导致不一致和偏见。促进概率报告的标准要求分析员报告证据的强度，而不提供对证据的结论性解释。概率报告通常基于似然比，该似然比取决于校准的概率。虽然概率报告可能比分类报告更客观，更不容易产生偏见，但非专业陪审团可能很难解读该报告。这些报告方法可能看起来不同，但两者之间的关系很容易理解，并通过一个简单的决策理论结构（称为受试者工作特性（ROC）曲线）可视化。通过扩大能力测试制度实施ROC促进的报告可以提供分类报告的透明度，并可能避免与概率报告相关的一些非专业陪审团解释问题。

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引用次数: 0

Single-cell metabolome profiling for phenotyping parasitic diseases in phytoplankton 浮游植物寄生虫病表型的单细胞代谢组分析

Frontiers in analytical science

Pub Date : 2023-01-18 DOI: 10.3389/frans.2022.1051955

M. Vallet, Filip Kaftan, A. Buaya, M. Thines, L. Guillou, A. Svatoš, G. Pohnert

Bloom-forming phytoplankton are key players in aquatic ecosystems, fixing carbon dioxide and forming the base of the marine food web. Diverse stresses, such as nutrient depletion, temperature increase, and pathogen emergence can influence the health and dynamics of algal populations. While population responses to these stressors are well-documented in the aquatic ecosystems, little is known about the individual cellular adaptations. These are however the key to an in-depth physiological understanding of microbiome dynamics in the plankton. Finding solutions to disease control in aquaculture also depends on knowledge of infection dynamics and physiology in algae. Single-cell metabolomics can give insight into infection processes by providing a snapshot of small molecules within a biological system. We used a single-cell metabolome profiling workflow to track metabolic changes of diatoms and dinoflagellates subjected to parasite infection caused by the oomycete Lagenisma coscinodisci and the alveolate Parvilucifera spp. We accurately classified the healthy phenotype of bloom-forming phytoplankton, including the diatoms Coscinodiscus granii and Coscinodiscus radiatus, and the toxic dinoflagellate Alexandrium minutum. We discriminated the infection of the toxic dinoflagellate A. minutum with the alveolate parasitoids Parvilucifera infectans and P. rostrata down to the single-cell resolution. Strain and species-specific responses of the diatom hosts Coscinodiscus spp. Infected with the oomycete pathogen Lagenisma coscinodisci could be recognized. LC-HRMS and fragmentation pattern analysis enabled the structure elucidation of metabolic predictors of infection (guanine, xanthine, DMSP, and pheophorbide). The purine salvage pathway and DMSP lysis could be assigned as regulated processes during host invasion. The findings establish single-cell metabolome profiling with LDI-HRMS coupled with classification analysis as a reliable diagnostic tool to track metabolic changes in algae.

形成水华的浮游植物是水生生态系统的关键参与者，固定二氧化碳并形成海洋食物网的基础。不同的压力，如营养物质消耗、温度升高和病原体出现，都会影响藻类种群的健康和动态。虽然种群对这些压力源的反应在水生生态系统中有充分的记录，但对个体细胞的适应却知之甚少。然而，这些是深入了解浮游生物微生物组动力学的关键。在水产养殖中寻找疾病控制的解决方案还取决于对藻类感染动力学和生理学的了解。单细胞代谢组学可以通过提供生物系统内小分子的快照来深入了解感染过程。我们使用单细胞代谢组分析工作流程来跟踪受到由卵菌Lagenisma coscinodisci和肺泡藻Parvilucifera spp.引起的寄生虫感染的硅藻和甲藻的代谢变化，以及有毒的甲藻微小亚历山大藻。我们将有毒甲藻A.minutum与肺泡状寄生蜂Parvilucifera infectians和P.rostrata的感染区分为单细胞分辨率。硅藻宿主Coscinodescp.的菌株和物种特异性反应。可以识别感染卵菌病原体Lagenisma coscinodesci的硅藻。LC-HRMS和碎片模式分析能够对感染的代谢预测因子（鸟嘌呤、黄嘌呤、DMSP和脱镁叶绿酸）进行结构阐明。嘌呤挽救途径和二甲基亚砜裂解可以被认为是宿主入侵过程中的调节过程。这些发现建立了用LDI-HRMS结合分类分析的单细胞代谢组分析，作为追踪藻类代谢变化的可靠诊断工具。

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引用次数: 0

In-depth structural proteomics integrating mass spectrometry and polyacrylamide gel electrophoresis 深度结构蛋白质组学整合质谱和聚丙烯酰胺凝胶电泳

Frontiers in analytical science

Pub Date : 2023-01-09 DOI: 10.3389/frans.2022.1107183

Nobuaki Takemori, Ayako Takemori

The establishment of a highly sensitive method for obtaining structural information on proteins and protein complexes in vivo has long been a technological challenge in structural biology. In recent years, protein structure analysis approaches using top-down mass spectrometry, native mass spectrometry, and cross-linking mass spectrometry, among others, have been developed, and these techniques have emerged as the most promising methods for obtaining comprehensive structural information on the cellular proteome. However, information obtained by MS alone is derived mainly from protein components that are abundant in vivo, with insufficient data on low abundance components. For the detection of those low abundance components, sample fractionation prior to mass spectrometry is highly effective because it can reduce the complexity of the sample. Polyacrylamide gel electrophoresis (PAGE), which is widely used in biochemical experiments, is an excellent technique for protein separation in a simple straightforward procedure and is also a promising fractionation tool for structural proteomics. The difficulty of recovering proteins in gels has been an obstacle, thus far limiting its application to structural mass spectrometry. With the breakthrough of PEPPI-MS, an exceptionally efficient passive extraction method for proteins in gels that appeared in 2020, various PAGE-based proteome fractionation workflows have been developed, resulting in the rapid integration of structural mass spectrometry and PAGE. In this paper, we describe a simple and inexpensive PAGE-based sample preparation strategy that accelerates the broad use of structural mass spectrometry in life science research, and discuss future prospects for achieving in-depth structural proteomics using PAGE.

长期以来，建立一种在体内获得蛋白质和蛋白质复合物结构信息的高灵敏度方法一直是结构生物学中的技术挑战。近年来，已经开发了使用自上而下质谱法、天然质谱法和交联质谱法等的蛋白质结构分析方法，这些技术已成为获得细胞蛋白质组全面结构信息的最有前途的方法。然而，仅通过MS获得的信息主要来自体内丰富的蛋白质成分，关于低丰度成分的数据不足。对于这些低丰度组分的检测，在质谱分析之前进行样品分级是非常有效的，因为它可以降低样品的复杂性。聚丙烯酰胺凝胶电泳（PAGE）在生物化学实验中得到了广泛的应用，是一种简单易行的蛋白质分离技术，也是结构蛋白质组学的一种很有前途的分离工具。从凝胶中回收蛋白质的困难一直是一个障碍，迄今为止限制了其在结构质谱中的应用。随着2020年出现的一种高效的凝胶蛋白质被动提取方法PEPPI-MS的突破，开发了各种基于PAGE的蛋白质组分级工作流程，实现了结构质谱和PAGE的快速集成。在本文中，我们描述了一种简单而廉价的基于PAGE的样品制备策略，该策略加速了结构质谱在生命科学研究中的广泛应用，并讨论了使用PAGE实现深入结构蛋白质组学的未来前景。

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引用次数: 0

Sterilization of micronized indomethacin 微粉吲哚美辛的灭菌

Frontiers in analytical science

Pub Date : 2023-01-06 DOI: 10.3389/frans.2022.1028752

Karyna Krupianskaya, B. Croonenborghs, Annick Gillet, Bernard Appeltans, A. Meyers, Aaron DeMent, G. Van den Mooter, A. Van Schepdael, E. Haghedooren

Sterilization is a pivotal topic in the pharmaceutical industry, whereby the nomenclature of “sterile” refers to the absence of viable microorganisms. Since microorganisms can reproduce in the body and cause potentially fatal infections, it is critical to sterilize parenteral products to prevent this. In recent years, 70%–90% of potential drugs and 40% of marketed drugs have demonstrated a low solubility. Micronization is a widely spread approach to increase the dissolution rate. A subset of micronized products require sterilization, but published studies on the effects of sterilization on micronized products are currently lacking. The effect of sterilization on the micronized active pharmaceutical ingredient indomethacin was explored in this study. The sterilization methods in scope were one photon-based method using gamma irradiation and one gas-based method with nitrogen dioxide gas. Indomethacin was micronized using two micronization techniques, cryomilling and spray drying. Different conditions were used for cryomilling where the number of grinding balls in the ball mill and the degree of filling were varied. The solid state of all samples was evaluated after micronization, and only the effectively micronized samples were selected for sterilization with gamma rays and nitrogen dioxide. Gamma irradiation was performed with the active pharmaceutical ingredient stored at −80°C at a commonly used industry standard target dose of 25 kGy. Nitrogen dioxide sterilization took place at 21°C, a concentration of 10 mg/L, a relative humidity of 30% and using two NO2 pulses. Before and after sterilization, all samples were analyzed by high performance liquid chromatography with UV detection, whereby the assay of indomethacin was examined as well as the peak purity and the formation of impurities. In comparison to the non-micronized reference, both sterilization methods demonstrate a significant decrease of content of micronized samples and an increase of the impurity profile. The non-micronized sample showed no significant difference after sterilization. It could be observed that micronized indomethacin samples demonstrate more degradation and are subsequently more susceptible to degradation upon sterilization with gamma rays and nitrogen dioxide gas, driving towards the need for assessment of the micronization impact combined with sterilization approach.

灭菌是制药行业的一个关键话题，因此“无菌”的术语是指缺乏活微生物。由于微生物可以在体内繁殖并引起潜在的致命感染，因此对肠道外产品进行消毒以防止这种情况的发生至关重要。近年来，70%-90%的潜在药物和40%的已上市药物显示出低溶解度。微粉化是一种广泛应用的提高溶解速度的方法。一小部分微粉产品需要灭菌，但目前缺乏关于灭菌对微粉产品影响的已发表的研究。本研究探讨了灭菌对消炎痛活性成分微粉的影响。范围内的灭菌方法是一种基于光子的方法，使用伽马辐射和一种基于气体的方法，使用二氧化氮气体。采用低温粉碎和喷雾干燥两种微粉技术对吲哚美辛进行了微粉化。采用不同的条件，对球磨机内的磨球数和充填程度进行了研究。对所有样品进行微粉化后的固体状态评估，只选择微粉化有效的样品进行伽马射线和二氧化氮灭菌。将活性药物成分储存在- 80°C，以常用的工业标准靶剂量25 kGy进行伽马辐照。二氧化氮灭菌在21°C，浓度为10 mg/L，相对湿度为30%，使用两个NO2脉冲进行。灭菌前后，采用高效液相色谱-紫外检测法对样品进行分析，检测吲哚美辛含量、峰纯度及杂质形成情况。与未微粉化的对照品相比，两种灭菌方法均能显著降低微粉化样品的含量，并增加杂质谱。非微粉样品经灭菌后无显著差异。可以观察到，微粉化的吲哚美辛样品表现出更多的降解，随后在用伽马射线和二氧化氮气体灭菌后更容易降解，因此需要评估微粉化与灭菌方法相结合的影响。

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引用次数: 0

Hydrogen Deuterium Exchange and other Mass Spectrometry-based Approaches for Epitope Mapping. 氢氘交换和其他基于质谱的表位定位方法。

Frontiers in analytical science

Pub Date : 2023-01-01 Epub Date: 2023-05-18 DOI: 10.3389/frans.2023.1118749

Prashant N Jethva, Michael L Gross

Antigen-antibody interactions are a fundamental subset of protein-protein interactions responsible for the "survival of the fittest". Determining the interacting interface of the antigen, called an epitope, and that on the antibody, called a paratope, is crucial to antibody development. Because each antigen presents multiple epitopes (unique footprints), sophisticated approaches are required to determine the target region for a given antibody. Although X-ray crystallography, Cryo-EM, and nuclear magnetic resonance can provide atomic details of an epitope, they are often laborious, poor in throughput, and insensitive. Mass spectrometry-based approaches offer rapid turnaround, intermediate structural resolution, and virtually no size limit for the antigen, making them a vital approach for epitope mapping. In this review, we describe in detail the principles of hydrogen deuterium exchange mass spectrometry in application to epitope mapping. We also show that a combination of MS-based approaches can assist or complement epitope mapping and push the limit of structural resolution to the residue level. We describe in detail the MS methods used in epitope mapping, provide our perspective about the approaches, and focus on elucidating the role that HDX-MS is playing now and in the future by organizing a discussion centered around several improvements in prototype instrument/applications used for epitope mapping. At the end, we provide a tabular summary of the current literature on HDX-MS-based epitope mapping.

抗原-抗体相互作用是蛋白质-蛋白质相互作用的基本子集，负责“适者生存”。确定抗原（称为表位）和抗体（称为副表位）的相互作用界面对抗体的发展至关重要。由于每个抗原都有多个表位（独特的足迹），因此需要复杂的方法来确定给定抗体的靶区。尽管X射线晶体学、冷冻电镜和核磁共振可以提供表位的原子细节，但它们通常很费力、吞吐量低且不敏感。基于质谱的方法提供了快速周转、中等结构分辨率，并且几乎没有抗原的大小限制，使其成为表位定位的重要方法。在这篇综述中，我们详细描述了氢-氘交换质谱在表位定位中的应用原理。我们还表明，基于MS的方法的组合可以帮助或补充表位定位，并将结构分辨率的极限推向残基水平。我们详细描述了表位定位中使用的MS方法，提供了我们对这些方法的看法，并通过组织一场围绕用于表位定位的原型仪器/应用的几项改进进行的讨论，重点阐明HDX-MS现在和未来发挥的作用。最后，我们提供了基于HDX-MS的表位定位的当前文献的表格总结。

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引用次数: 0

Toward the analysis of functional proteoforms using mass spectrometry-based stability proteomics. 基于质谱的稳定性蛋白质组学分析功能蛋白质形态

Frontiers in analytical science

Pub Date : 2023-01-01 Epub Date: 2023-06-21 DOI: 10.3389/frans.2023.1186623

Ji Kang, Meena Seshadri, Kellye A Cupp-Sutton, Si Wu

Functional proteomics aims to elucidate biological functions, mechanisms, and pathways of proteins and proteoforms at the molecular level to examine complex cellular systems and disease states. A series of stability proteomics methods have been developed to examine protein functionality by measuring the resistance of a protein to chemical or thermal denaturation or proteolysis. These methods can be applied to measure the thermal stability of thousands of proteins in complex biological samples such as cell lysate, intact cells, tissues, and other biological fluids to measure proteome stability. Stability proteomics methods have been popularly applied to observe stability shifts upon ligand binding for drug target identification. More recently, these methods have been applied to characterize the effect of structural changes in proteins such as those caused by post-translational modifications (PTMs) and mutations, which can affect protein structures or interactions and diversify protein functions. Here, we discussed the current application of a suite of stability proteomics methods, including thermal proteome profiling (TPP), stability of proteomics from rates of oxidation (SPROX), and limited proteolysis (LiP) methods, to observe PTM-induced structural changes on protein stability. We also discuss future perspectives highlighting the integration of top-down mass spectrometry and stability proteomics methods to characterize intact proteoform stability and understand the function of variable protein modifications.

功能蛋白质组学旨在从分子水平阐明蛋白质和蛋白形式的生物学功能、机制和途径，以检查复杂的细胞系统和疾病状态。已经开发了一系列稳定性蛋白质组学方法，通过测量蛋白质对化学或热变性或蛋白水解的抗性来检测蛋白质功能。这些方法可用于测量复杂生物样品中数千种蛋白质的热稳定性，如细胞裂解物、完整细胞、组织和其他生物流体，以测量蛋白质组的稳定性。稳定性蛋白质组学方法已广泛应用于观察配体结合后的稳定性变化，用于药物靶标鉴定。最近，这些方法已被应用于表征蛋白质结构变化的影响，例如由翻译后修饰（PTM）和突变引起的结构变化，这些变化可以影响蛋白质结构或相互作用并使蛋白质功能多样化。在这里，我们讨论了一套稳定性蛋白质组学方法的当前应用，包括热蛋白质组分析（TPP）、氧化率蛋白质组学稳定性（SPROX）和有限蛋白水解（LiP）方法，以观察PTM诱导的蛋白质稳定性结构变化。我们还讨论了未来的前景，强调自上而下的质谱法和稳定性蛋白质组学方法的结合，以表征完整的蛋白形式稳定性，并理解可变蛋白质修饰的功能。

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引用次数: 0

Perspective on the potential of tandem-ion mobility /mass spectrometry methods for structural proteomics applications. 串联离子迁移/质谱法在结构蛋白质组学应用中的潜力展望。

Frontiers in analytical science

Pub Date : 2023-01-01 DOI: 10.3389/frans.2023.1106752

Tyler C Cropley, Mengqi Chai, Fanny C Liu, Christian Bleiholder

Cellular processes are usually carried out collectively by the entirety of all proteins present in a biological cell, i.e. the proteome. Mass spectrometry-based methods have proven particularly successful in identifying and quantifying the constituent proteins of proteomes, including different molecular forms of a protein. Nevertheless, protein sequences alone do not reveal the function or dysfunction of the identified proteins. A straightforward way to assign function or dysfunction to proteins is characterization of their structures and dynamics. However, a method capable to characterize detailed structures of proteins and protein complexes in a large-scale, systematic manner within the context of cellular processes does not yet exist. Here, we discuss the potential of tandem-ion mobility / mass spectrometry (tandem-IM/MS) methods to provide such ability. We highlight the capability of these methods using two case studies on the protein systems ubiquitin and avidin using the tandem-TIMS/MS technology developed in our laboratory and discuss these results in the context of other developments in the broader field of tandem-IM/MS.

细胞过程通常是由生物细胞中存在的所有蛋白质集体进行的，即蛋白质组。基于质谱的方法已被证明在鉴定和定量蛋白质组的组成蛋白(包括蛋白质的不同分子形式)方面特别成功。然而，蛋白质序列本身并不能揭示所鉴定蛋白质的功能或功能障碍。一种直接的方法来分配功能或功能障碍的蛋白质是表征其结构和动力学。然而，在细胞过程的背景下，能够以大规模、系统的方式表征蛋白质和蛋白质复合物的详细结构的方法尚不存在。在这里，我们讨论了串联离子迁移率/质谱(串联im /MS)方法提供这种能力的潜力。我们利用实验室开发的串联tims /MS技术对蛋白质系统泛素和亲和素进行了两个案例研究，强调了这些方法的能力，并在串联im /MS更广泛领域的其他发展背景下讨论了这些结果。

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引用次数: 0