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1.
蛋白质糖基化修饰的鉴定是蛋白质翻译后修饰分析中最具挑战性的任务之一,近几年尤其受到关注.快速发展的质谱技术为规模化的蛋白质糖基化修饰研究提供了有效的手段.与其他基于质谱技术的翻译后修饰鉴定相比,糖基化鉴定的难点在于糖链是大分子而且存在微观不均一性,另外糖链本身可以在串联质谱中碎裂且与肽段的碎裂规律不同,导致蛋白质组学的质谱解析方法和软件难以完整地鉴定肽段序列和糖链结构.完整N-糖肽的鉴定是糖基化分析的热点内容之一,针对N-糖肽的鉴定,近年来,人们开发了多种多样的质谱解析方法,其中包括用N-糖酰胺酶切除糖链后鉴定N-糖基化位点的方法、基于电子转运裂解的糖肽肽段鉴定、基于高能碰撞裂解与电子转运裂解联用或碰撞诱导裂解与三级谱联用的完整N-糖肽鉴定等等.本文对这些质谱解析方法进行了整理和综述,简要指出了目前完整糖肽鉴定软件存在的一些不足,展望了未来的发展方向.  相似文献   

2.
高分辨率质谱技术的快速发展使得"自顶向下"的蛋白质组学(top-down proteomics)研究逐渐成熟起来.在完整蛋白质水平上研究蛋白质组可以提供更精准、更丰富的生物学信息,特别是对于蛋白质上发生了多种关联性的翻译后修饰的情况.另外,由于基因突变、RNA可变剪接和大量蛋白质翻译后修饰的存在,同一个基因往往最终会产生多个"蛋白质变体"(proteoform),而要准确地鉴定这些蛋白质变体,也离不开"自顶向下"的蛋白质组学.在蛋白质水平上的分离技术、质谱技术与生物信息学技术是完整蛋白质鉴定最关键的三项技术.高效的分离技术是实现规模化蛋白质变体鉴定的前提,有效的质谱碎裂是提供可靠鉴定的核心,而快速准确的质谱鉴定算法则是数据分析效率的保障.本文对这三项技术进行了详细总结,重点集中在生物信息学相关技术上,包括对完整蛋白质的质谱数据预处理、数据库搜索鉴定以及翻译后修饰定位等几个计算问题的讨论.  相似文献   

3.
蛋白质糖基化分析方法及其在蛋白质组学中的应用   总被引:5,自引:0,他引:5  
作为一种普遍存在的翻译后修饰,糖基化对蛋白质的结构和功能有着重要影响。弄清糖基化发生发展的规律是理解蛋白质复杂多样的生物功能的一个重要前提。糖基化发生的特点决定了糖基化相关研究是对分析技术的一大挑战。作为蛋白质组学研究的重要组成部分,目前蛋白质糖基化研究的重点和难点主要集中于糖蛋白/糖肽的分离富集和糖蛋白的鉴定/糖基化位点的确定2个方面,相关技术已用于蛋白质组学水平的糖基化研究,但都还不够成熟。以生物质谱为核心、多学科交叉的蛋白质组学技术始终处于不断发展之中。基于糖基化发生规律的富集检测技术的发展、移动质子理论的提出及电子捕获裂解技术的应用必将极大地促进包括糖基化在内的翻译后修饰研究。蛋白质糖基化的研究有助于从基因组-蛋白组-糖组这样一个宏观的综合的水平观察分析生命现象,从而达到对生命现象更本质的认识。  相似文献   

4.
蛋白质组学是旨在研究蛋白质表达谱和蛋白质与蛋白质之间相互作用的新领域,其研究必须依赖高通量、高自动化的技术.简要介绍了蛋白质组分离技术(双向电泳、色谱),蛋白质组分析技术(质谱分析、氨基酸组成分析、蛋白质芯片,Edman降解法测N端序列),蛋白质相互作用技术(酵母双杂交系统、表面等离子共振)以及生物信息学.并从寻找差异表达的蛋白质,寻找用于诊断的疾病相关的标记分子,研究疾病的发病机制三方面介绍了蛋白质组技术在肺脏疾病研究中的应用.  相似文献   

5.
蛋白质分子的结构决定了其特性和功能,准确测量蛋白质分子中特殊位点之间的距离对其结构解析至关重要。该文在简要介绍电子顺磁共振(electron paramagnetic resonance,EPR)方法测量蛋白质分子内未偶自旋之间距离基本原理的基础上,重点综述了近年来EPR结合定点自旋标记(site-directed spin label,SDSL)技术在研究蛋白质结构与功能方面的应用情况,归纳了EPR-SDSL方法测量距离的特点和存在问题,并提出了改进用连续波EPR技术测量距离的准确度的思路和实现方法。  相似文献   

6.
综述了ICP-MS法应用于蛋白质定量技术方面的研究进展.蛋白质定量研究已成为蛋白质组学研究领域的热点,它是解析生物体蛋白质功能的重要途径.基于同位素标记和生物质谱分析技术是蛋白质定量最常用的方法之一,近年来,随着质谱技术的发展,电感耦合等离子体质谱(ICP-MS)技术成为元素测量的重要手段,这使其在蛋白质定量中具一定的应用前景.  相似文献   

7.
蛋白质芯片在蛋白质组学研究中的作用   总被引:2,自引:0,他引:2  
费嘉  马文丽  郑文岭 《生命科学》2005,17(2):132-136
蛋白质芯片是以高度并行性、高通量、微型化和自动化为特点的蛋白质组检测技术。本文综述了蛋白质芯片在蛋白质组学研究中的多种作用,包括普通蛋白质芯片在微量蛋白质分离、蛋白质与蛋白质之间以及蛋白质与其他小分子间相互作用和蛋白质定量检测方面的作用,普通蛋白质芯片通过与质谱技术、生物传感器技术的结合而拓展其应用范围,以及蛋白质组芯片、活性的蛋白质芯片在蛋白质组学研究中应用的进展。  相似文献   

8.
质谱MRM技术在蛋白质组学研究中的应用   总被引:1,自引:0,他引:1  
质谱多反应监测(multiple reaction monitoring,MRM)技术是一种基于已知信息或假定信息有针对性地获取数据,进行质谱信号采集的技术,具有灵敏、准确和特异等优点.在基于蛋白组学的生物标志物研究、蛋白质翻译后修饰.定量蛋白质组和蛋白质相互作用等研究领域的应用逐渐受到重视.该文概述了该技术在蛋白质组学研究中的应用特点及其最新应用进展.  相似文献   

9.
蛋白质组学技术及其在生物医学上的应用   总被引:7,自引:0,他引:7  
蛋白质组学部分承用了创立于二十多年前的二维电泳技术。基于其高分辩能力 ,二维电泳主要用于分离和检测复杂混合物中的蛋白质。虽然没有获得更多的改进 ,但是二维电泳结合了通过质谱测定蛋白质的最新进展而成为蛋白质组学中的一项重要技术。随着人类基因组计划项目的完成及由此而产生的大量基因数据库和使用这些数据的生物信息技术 ,科学家们的下一个目标是解析生物体的完整蛋白质组 ,把蛋白质组学数据与基因组学数据关联起来并有机地结合而成为一项有力的工具以阐明病理学中的蛋白质功能、衰老的过程及发现新药目标蛋白质和疾病标识物等。文章综述了蛋白质组学技术的最新知识及其在生物医学研究中的潜在应用  相似文献   

10.
Jia LY  Wang X 《生理科学进展》2004,35(3):237-239
蛋白质组学是旨在研究蛋白质表达谱和蛋白质与蛋白质之间相互作用的新的领域。蛋白质组学的研究必须依赖高通量、自动化程度很高的技术。双向电泳、液相色谱和生物质谱技术的发展推动了蛋白质组学的研究。蛋白质组学为疾病发病机制的研究提供了新的思路和方法 ,本文重点介绍了蛋白质组学技术在心血管疾病研究中的应用  相似文献   

11.
Electron capture dissociation (ECD) represents one of the most recent and significant advancements in tandem mass spectrometry (MS/MS) for the identification and characterization of polypeptides. In comparison with the conventional fragmentation techniques, such as collisionally activated dissociation (CAD), ECD provides more extensive sequence fragments, while allowing the labile modifications to remain intact during backbone fragmentation—an important attribute for characterizing post-translational modifications. Herein, we present a brief overview of the ECD technique as well as selected applications in characterization of peptides and proteins. Case studies including characterization and localization of amino acid glycosylation, methionine oxidation, acylation, and “top–down” protein mass spectrometry using ECD will be presented. A recent technique, coined as electron transfer dissociation (ETD), will be also discussed briefly.  相似文献   

12.
A microelectrospray ionization tandem Fourier transform ion cyclotron resonance mass spectrometry (ESI FT-ICR MS(n)) approach for structural characterization of protein phosphorylation is described. Identification of proteolytic peptides is based solely upon mass measurement by high field (9.4 Tesla) FT-ICR MS. The location of the modification within any phosphopeptide is then established by FT-ICR MS(2) and MS(3) experiments. Structural information is maximized by use of electron capture dissociation (ECD) and/or infrared multiphoton dissociation (IRMPD). The analytical utility of the method is demonstrated by characterization of protein kinase A (PKA) phosphorylation. In a single FT-ICR MS experiment, 30 PKA tryptic peptides (including three phosphopeptides) were mass measured by internal calibration to within an absolute mean error of |0.7 ppm|. The location of each of the three sites of phosphorylation was then determined by MS(2) and MS(3) experiments, in which ECD and IRMPD provide complementary peptide sequence information. In two out of three cases, electron irradiation of a phosphopeptide [M + nH](n+) ion produced an abundant charge-reduced [M + nH]((n-1)+*) ion, but few sequence-specific c and z(*) fragment ions. Subsequent IRMPD (MS(3)) of the charge-reduced radical ion resulted in the detection of a large number of ECD-type ion products (c and z ions), but no b or y type ions. The utility of activated ion ECD for the characterization of tryptic phosphopeptides was then demonstrated.  相似文献   

13.
This is the second article in a series, intended as a tutorial to provide the interested reader with an overview of the concepts not covered in part I, such as: the principles of ion-activation methods, the ability of mass-spectrometric methods to interface with various proteomic strategies, analysis techniques, bioinformatics and data interpretation and annotation. Although these are different topics, it is important that a reader has a basic and collective understanding of all of them for an overall appreciation of how to carry out and analyze a proteomic experiment. Different ion-activation methods for MS/MS, such as collision-induced dissociation (including postsource decay) and surface-induced dissociation, electron capture and electron-transfer dissociation, infrared multiphoton and blackbody infrared radiative dissociation have been discussed since they are used in proteomic research. The high dimensionality of data generated from proteomic studies requires an understanding of the underlying analytical procedures used to obtain these data, as well as the development of improved bioinformatics tools and data-mining approaches for efficient and accurate statistical analyses of biological samples from healthy and diseased individuals, in addition to determining the utility of the interpreted data. Currently available strategies for the analysis of the proteome by mass spectrometry, such as those employed for the analysis of substantially purified proteins and complex peptide mixtures, as well as hypothesis-driven strategies, have been elaborated upon. Processing steps prior to the analysis of mass spectrometry data, statistics and the several informatics steps currently used for the analysis of shotgun proteomic experiments, as well as proteomics ontology, are also discussed.  相似文献   

14.
Fourier transform tandem mass spectrometry (MS/MS) provides high mass accuracy, high sensitivity, and analytical versatility and has therefore emerged as an indispensable tool for structural elucidation of biomolecules. Glycosylation is one of the most common posttranslational modifications, occurring in ~50% of proteins. However, due to the structural diversity of carbohydrates, arising from non-template driven biosynthesis, achievement of detailed structural insight is highly challenging. This review briefly discusses carbohydrate sample preparation and ionization methods, and highlights recent developments in alternative high-resolution MS/MS strategies, including infrared multiphoton dissociation (IRMPD), electron capture dissociation (ECD), and electron detachment dissociation (EDD), for carbohydrates with a focus on glycans and proteoglycans from mammalian glycoproteins.  相似文献   

15.
HPLC-MS using collision induced dissociation (CID) has been utilised for the identification of the C-glycosylflavone isomer pairs orientin/isoorientin and vitexin/isovitexin. HPLC-CID/MS analyses produced pseudo-MS/MS spectra that allowed the identification of the flavone C-glycosides. The efficient differentiation of isomers was performed by comparing the CID-MS/MS spectra (including exact mass measurements) of particular fragments from the C-glycoside unit. In order to illustrate some possibilities of these MS techniques, they were applied to the comparative analyses of extracts of Passiflora alata, P. edulis, P. incarnata and P. caerulea (Passifloraceae) that are employed as phytomedicines in Brazil and South America.  相似文献   

16.
A novel strategy based on carboxy group derivatization is presented for specific characterization of phosphopeptides. By tagging the carboxy group with 1‐(2‐pyrimidyl) piperazine (PP), the ion charge states of phosphopeptides can be largely enhanced, showing great advantages for sequencing phosphorylated peptides with electron‐transfer dissociation MS. Besides, after PP‐derivatization, most non‐specific bindings can be avoided by eliminating the interaction between the carboxy group and TiO2, greatly improving the specificity of TiO2‐based phosphopeptide enrichment strategy. Moreover, being tagged with a hydrophobic group, the retention time of phosphopeptides in RPLC can be prolonged, overcoming the difficulty of separating phosphopeptides in RPLC‐based approach. Together with several other advantages, such as ease of handling, rapid reaction time, broad applicability and good reproducibility, this PP‐derivatization method is promising for high‐throughput phosphoproteome research.  相似文献   

17.
Heat treatment of milk induces the Maillard reaction between lactose and proteins; in this context, β‐lactoglobulin and α‐lactalbumin adducts have been used as markers to monitor milk quality. Since some milk proteins have been reported as essential for the delivery of microelements and, being resistant against proteolysis in the gastrointestinal tract, also contributing to the acquired immune response against pathogens and the stimulation of cellular proliferation, it is crucial to systematically determine the milk subproteome affected by the Maillard reaction for a careful evaluation of aliment functional properties. This is more important when milk is the unique nutritional source, as in infant diet. To this purpose, a combination of proteomic procedures based on analyte capture by combinatorial peptide ligand libraries, selective trapping of lactosylated peptides by m‐aminophenylboronic acid‐agarose chromatography and collision‐induced dissociation and electron transfer dissociation MS was used for systematic identification of the lactosylated proteins in milk samples subjected to different thermal treatments. An exhaustive modification of proteins was observed in milk powdered preparations for infant nutrition. Globally, this approach allowed the identification of 271 non‐redundant modification sites in 33 milk proteins, which also included low‐abundance components involved in nutrient delivery, defence response against virus/microorganisms and cellular proliferative events. A comparison of the modified peptide identification percentages resulting from electron transfer dissociation or collision‐induced dissociation fragmentation spectra confirmed the first activation mode as most advantageous for the analysis of lactosylated proteins. Nutritional, biological and toxicological consequences of these findings are discussed on the basis of the recent literature on this subject, emphasizing their impact on newborn diet.  相似文献   

18.
Abstract

Introduction

A new method for calculating theoretical bond dissociation enthalpy (BDE) and bond dissociation free energy (BDFE) of hydroxylic antioxidants is forwarded. BDE and BDFE may be understood as activation energies accompanying the formation of transition states, which may undergo downhill homolytic dissociation. The new method does not involve the complete fission of O–H bonds.

Method

Theoretical gas phase BDE values were calculated with the ab initio unrestricted Hartree–Fock (UHF) method, as changes in enthalpy between ground singlet states (GS) and triplet dissociative states (DS). Similarly, gas phase BDFEs were estimated from the corresponding changes in Gibbs free energy. The results were then compared with reliable experimental reports.

Results

The proposed theoretical approach of BDE and BDFE determination was tested using 10 simple phenols, 5 flavonoids, and l-ascorbic acid derivatives. The agreement between our calculated gas phase results and the adopted experimental values were generally within 0.5 kcal mol?1, with a very few exceptions.

Discussion

Generally, steric interactions as well as intramolecular hydrogen bonding involving the dissociating OH group should be minimized in the GS. The DS are both electronically and vibrationally exited transition states. They have one unpaired electron on the carbon atom, which bears the homolytically dissociating OH group and are second order saddle points with a fixed <C–O–H bond angel of 180°.

Conclusion

It was concluded that ab initio UHF was well suited for the estimation of gas phase BDE and BDFE. The method presented has a good potential for application across a range of hydroxylic antioxidants. Currently, work is underway to extend its application in other class of antioxidants.  相似文献   

19.
20.
Mass spectrometry (MS) analysis of peptides carrying post‐translational modifications is challenging due to the instability of some modifications during MS analysis. However, glycopeptides as well as acetylated, methylated and other modified peptides release specific fragment ions during CID (collision‐induced dissociation) and HCD (higher energy collisional dissociation) fragmentation. These fragment ions can be used to validate the presence of the PTM on the peptide. Here, we present PTM MarkerFinder, a software tool that takes advantage of such marker ions. PTM MarkerFinder screens the MS/MS spectra in the output of a database search (i.e., Mascot) for marker ions specific for selected PTMs. Moreover, it reports and annotates the HCD and the corresponding electron transfer dissociation (ETD) spectrum (when present), and summarizes information on the type, number, and ratios of marker ions found in the data set. In the present work, a sample containing enriched N‐acetylhexosamine (HexNAc) glycopeptides from yeast has been analyzed by liquid chromatography‐mass spectrometry on an LTQ Orbitrap Velos using both HCD and ETD fragmentation techniques. The identification result (Mascot .dat file) was submitted as input to PTM MarkerFinder and screened for HexNAc oxonium ions. The software output has been used for high‐throughput validation of the identification results.  相似文献   

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