Nitrite reduces the effects of HOCl on unsaturated phosphatidylcholines--a MALDI-TOF MS study

The concentration of nitrite (NO₂⁻) increases under inflammatory conditions. However, the physiological role of nitrite is so far controversial discussed: it was reported that effects of HOCl (an important inflammation mediator) on phospholipids (PL) may be enhanced but also reduced in the presence of nitrite.

In this paper a simple model system was used: unsaturated phosphatidylcholine (PC) vesicles were treated with HOCl in the presence of varying NaNO₂ concentrations and the yield of reaction products was determined by MALDI-TOF MS: the extent of chlorohydrin generation was significantly reduced in the presence of NaNO₂ because HOCl is consumed by the oxidation of NO₂⁻ to NO₃⁻.

Similar results were obtained when HOCl was generated by the myeloperoxidase (MPO)/H₂O₂/Cl⁻ system or the experiments were carried out in the presence of a simple peptide. It is concluded that the transient products of the reaction between HOCl and NO₂⁻ do not have a sufficient reactivity to modify PL.     

Radiation-induced free-radical transformation of phospholipids: MALDI-TOF MS study

Under the action of free-radical reaction initiators on membrane phospholipids, complex processes are taking place in both hydrophobic and hydrophilic parts of the phospholipids. Realization of these processes results in a mixture consisting of the initial lipids and their peroxidation and fragmentation products. Identification of compounds in such mixtures requires analytical methods of high sensitivity, reproducibility and accuracy to be applied. These properties are characteristic of the matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) method. In the studies of radiation-induced free-radical transformations of phosphatidylglycerol, the MALDI-TOF MS in combination with thin layer chromatography (TLC) has been shown to be able to detect and identify products of free-radical transformations taking place in both hydrophilic and hydrophobic parts of the phospholipid. Thus, the MALDI-TOF MS can serve as a suitable analytical tool to investigate free-radical transformations of lipids.     

MALDI-TOF MS对肺炎链球菌鉴定与分型的应用

目的 探讨MALDI-TOF MS对肺炎链球菌鉴定和质谱分型的应用价值。方法 收集2009年1月至2013年5月温州医科大学附属第二医院临床分离的112株肺炎链球菌标本,采用Optochin敏感试验和全自动细菌分析仪对收集的菌株进行鉴定验证,并用Microflex MALDI-TOF质谱仪进行分析鉴定。根据质谱图的相似性进行细菌同源聚类树分析并构建质谱分型模型,采用荚膜肿胀试验对参与分型的菌株进行血清型比较。结果 除20株不符合检测条件之外,92株临床菌株和1株标准株经质谱分析均为肺炎链球菌,选取的60株菌株以0.5的差异水平,将60株肺炎链球菌分为18个质谱型别,在这些菌株的血清分型中有19F、19A、23F、23A、3和14六个血清型别,分布于不同的MALDI-TOF MS分型中,其中19F有18株,占30%（18/60）,分布在6种不同的MALDI-TOF MS分型中,也有3型血清型较为集中地分布于相应的MALDI-TOF MS一个型别里。结论 MALDI-TOF MS能快速、准确、简便地鉴定肺炎链球菌,且能达到种的水平。对比血清型,按照0.5差异水平,建立的18个质谱分型部分的型别与血清型有一致性,但也存有差异。     

Parameters affecting the accuracy of the MALDI-TOF MS determination of the phosphatidylcholine/lysophosphatidylcholine (PC/LPC) ratio as potential marker of spermatozoa quality

Matrix-assisted laser desorption and ionization time-of-flight (MALDI-TOF) mass spectrometry (MS) is increasingly used to characterize (phospho)lipids. However, quantitative MALDI data are often questioned because ion suppression may occur if mixtures are analyzed. Therefore, relative (but no absolute) data are normally derived from the MALDI mass spectra of lipid mixtures. We are particularly interested in the phosphatidylcholine/lysophosphatidylcholine (PC/LPC) ratio because it seems to represent a suitable measure of the inflammatory activity. In this study, different parameters affecting the achievable accuracy of the MALDI-TOF MS determination of the PC/LPC ratio are compared. It will be shown that particularly the applied laser fluence as well as the used solvents influence the accuracies. Using artificial lipid mixtures it will be demonstrated that the PC/LPC ratio can be determined with an accuracy of about ±10% making the MALDI assay comparable to established methods. Finally, it will be shown that the optimized conditions are also useful to determine the PC/LPC ratios in human seminal plasma.     

MALDI-TOF质谱技术对克罗诺杆菌的鉴定与分型

以基质辅助激光解析电离飞行时间质谱(MALDI-TOFMS)技术用于克罗诺杆菌的鉴定与分型。通过对获得的克罗诺杆菌属典型菌株、阴沟肠杆菌和产气肠杆菌近似菌株以及克罗诺杆菌分离株的蛋白质质量图谱进行对比分析,找出克罗诺杆菌特征性离子峰,将其作为鉴定克罗诺杆菌的生物标识物;对全细菌蛋白质质量图谱进行聚类分析,将克罗诺杆菌属进一步划分为不同类型,结果显示,4株克罗诺杆菌参考菌株质量图谱约在5740(m/z)离子质荷比处出现1个相近离子峰,28株克罗诺杆菌分离株中27株(占96.4%)表现出相同结果;32株克罗诺杆菌被分为6种类型(以50%距离水平为分类界限)。MALDI-TOFMS作为一种新的技术,不仅能够用于克罗诺杆菌的鉴定,而且根据获得的细菌蛋白质质量图谱可将克罗诺杆菌划分为不同类型。     

Evaluation of carbon tetrachloride-induced stress on rat hepatocytes by P NMR and MALDI-TOF mass spectrometry: lysophosphatidylcholine generation from unsaturated phosphatidylcholines

Carbon tetrachloride (CCl₄) represents an excellent model to study oxidative injury of cells. It is widely accepted that hepatocellular injury is a consequence of the metabolic conversion of CCl₄ into highly reactive, free radical intermediates. Among the direct toxic effects of CCl₄, stimulation of lipid peroxidation and the binding of the electrophilic radicals to membrane lipids have been suggested to play important roles in the pathogenesis of irreversible cell damage. CCl₄-induced liver damage was modeled in cultures of rat hepatocytes with the focus on alterations of phosphatidylcholine (PC). The PC acyl chain composition was analyzed by ³¹P NMR spectroscopy and MALDI-TOF mass spectrometry. The content of the membrane arachidonoyl PC was decreased by almost 30% after incubation of the cells with CCl₄. This relative decrease was found to correlate with increased concentrations of the corresponding saturated lysophosphatidylcholine (LPC). It is concluded that LPC represents a useful biomarker of CCl₄-mediated damaging of hepatocytes. It is also speculated that de novo biosynthesis of PC is influenced by CCl₄.     

Chemiluminescence of the Fenton reaction and a dihydroxybenzene-driven Fenton reaction

A dihydroxybenzenes(DHB)-driven Fenton reaction was found to be more efficient than a simple Fenton reaction based on OH radical and activated species production. The reason for this enhanced reactivity by [Fe DHB] complexes is not well understood, but results suggest that it may be explained by the formation of oxidation species different from those formed during the classic Fenton reactions. In previous work, greater concentrations, and more sustained production of OH over time were observed in DHB driven Fenton reactions versus neat Fenton and Fenton-like reactions. In this work, chemiluminescence (CL) was monitored, and compared to OH production kinetics. The CL of the DHB-driven Fenton reaction was shorter than that for sustained production of OH. CL appears to have been caused by excited Fe(IV) species stabilized by the DHB ligands initially formed in the reaction. Formation of this species would have to have occurred by the reaction between OH and Fe(III) in a DHB complex.     

The lipid composition of the unicellular green alga Chlamydomonas reinhardtii and the diatom Cyclotella meneghiniana investigated by MALDI-TOF MS and TLC

The lipid composition of algae is crucial for numerous structural and physiological aspects, e.g. the integrity of the photosynthetic complexes and the functionality of membrane-embedded processes as the photosynthetic electron transport in thylakoids or the mitochondrial respiration. In this paper the lipid composition of the organic extracts of the green alga Chlamydomonas reinhardtii and the diatom Cyclotella meneghiniana are compared by using matrix-assisted laser desorption and ionization time-of-flight (MALDI-TOF) mass spectrometry (MS) in combination with thin-layer chromatography (TLC). The combined methods enable quantitative evaluation of the individual lipid classes as well as the determination of the relative acyl compositions. It will be shown that both algae differ in (a) the lipid classes, (b) the relative contribution of the individual lipid classes and (c) the acyl compositions. Differences in the acyl composition concern particularly the mono- and digalactosyl diacylglycerols. Glycerol-trimethylhomoserine and phosphatidylethanolamine are exclusively detected in the C. reinhardtii extracts, whereas phosphatidylcholine is a characteristic lipid of C. meneghiniana. Furthermore, the proportion of the acidic lipids sulfoquinovosyl-diacylglycerol and phosphatidylglycerol is significantly higher in the diatom than in C. reinhardtii.     

数据处理和分析方法在MALDI-TOF MS鉴定微生物中的应用

基质辅助激光解吸电离飞行时间质谱（MALDI-TOF MS）因其具有快速、准确、高通量等特点在食品微生物检测和临床微生物鉴定领域有广泛的应用。对MALDI-TOF MS数据的预处理和分析是微生物鉴定的关键步骤,通过对数据的处理可以从大量的数据中提取微生物的特征肽或者蛋白信息,并通过有监督和无监督学习方法对这些特征信息进行分类和聚类,从而实现对微生物的鉴定、分型和同源性分析。本文就MALDI-TOF MS鉴定微生物中所应用的数理统计分析方法和数据分析软件进行综述。     

An update on the routine application of MALDI-TOF MS in clinical microbiology

Introduction: Matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF MS) has entered clinical diagnostics and is today a generally accepted and integral part of the workflow for microbial identification. MALDI-TOF MS identification systems received approval from national and international institutions, such as the USA-FDA, and are continuously improved and adopted to other fields like veterinary and industrial microbiology. The question is whether MALDI-TOF MS also has the potential to replace other conventional and molecular techniques operated in routine diagnostic laboratories.

Areas covered: We give an overview of new advancements of mass spectral analysis in the context of microbial diagnostics. In particular, the expansion of databases to increase the range of readily identifiable bacteria and fungi, the refined discrimination of species complexes, subspecies, and types, the testing for antibiotic resistance or susceptibility, progress in sample preparation including automation, and applications of other mass spectrometry techniques are discussed.

Expert opinion: Although many new approaches of MALDI-TOF MS are still in the stage of proof of principle, it is expectable that MALDI-TOF MS will expand its role in the clinical microbiology laboratory of the future. New databases, instruments and analytical software modules will continue to be developed to further improve diagnostic efficacy.     

Selective Isolation of Glycoproteins and Glycopeptides for MALDI-TOF MS Detection Supported by Magnetic Particles

Glycosylation is the most common form of posttranslational modification of proteins (50–80%). The isolation, discovery, and subsequent identification of glycosylated peptides and proteins is becoming more and more important in glycoproteomics and diagnosis. MALDI-TOF mass spectrometry is an ideal technique for identifying peptides and proteins and their corresponding modifications. The enrichment of glycosylated peptides and proteins from different sources can be attained by affinity chromatography supported by functionalized magnetic particles. Covalent coating of magnetic beads with Concanavalin A (ConA) and diboronic acid was performed by carbodiimide and poly-glutaraldehyde methods, respectively. The functionalized beads were employed to establish and optimize protocols for the binding and detection of glycosylated peptides and proteins with respect to an automated workflow and the subsequent detection and identification by MALDI-TOF mass spectrometry. For several model proteins, the capture and identification could be demonstrated by SDS-PAGE and MALDI-TOF mass spectrometry. According to the type of glycosylation (high man-nose, hybrid, or complex type) the different proteins were enriched by ConA or boronic acid–functionalized beads.     

Limits for the detection of (poly-)phosphoinositides by matrix-assisted laser desorption and ionization time-of-flight mass spectrometry (MALDI-TOF MS)

Matrix-assisted laser desorption and ionization time-of-flight mass spectrometry (MALDI-TOF MS) has been recently established as a powerful tool for the analysis of biomolecules. Here, MALDI-TOF MS was used for the detection of (poly-)phosphoinositides (PPI). PPI possess higher molecular weights than other phospholipids and a high phosphorylation-dependent negative charge. Both features affect the MALDI detection limits expressed as the minimum of analyte on the sample plate resulting in a signal-to-noise-ratio of S/N=5. Using 2,5-dihydroxybenzoic acid (DHB) as matrix the detection limit for phosphatidylinositol (PI) is seven times higher than for phosphatidylcholine (PC) and further increases with increasing phosphorylation or in mixtures with other well-detectable phospholipids. For phosphatidylinositol-tris-phosphate (PIP₃) in a mixture with PC, the limit is about 20 times higher than for PI. The consequences for the experimental conditions are discussed. It is advisable to pre-separate PPI from biological lipid mixtures prior to the application of MALDI-TOF MS.     

利用基因组学和MALDI-TOF MS技术鉴定放线菌纲细菌的核糖体蛋白质标志物

【目的】基质辅助激光解吸电离飞行时间质谱(MALDI-TOF MS)法基于微生物的特征蛋白指纹图谱鉴定菌种,本研究利用基因组学和MALDI-TOFMS技术鉴定放线菌纲细菌的核糖体蛋白质标志物。【方法】从MALDI-TOF MS图谱数据库选取放线菌纲代表菌种,在基因组数据库检索目标菌种,获取目标菌株或其参比菌株的核糖体蛋白质序列,计算获得分子质量理论值,用于注释目标菌株MALDI-TOFMS指纹图谱中的核糖体蛋白质信号。【结果】从8目,24科,53属,114种,142株放线菌的MALDI-TOFMS图谱中总共注释出31种核糖体蛋白质。各菌株的指纹图谱中核糖体蛋白质信号数量差异显著。各种核糖体蛋白质信号的注释次数差异显著。总共15种核糖体蛋白质在超过半数图谱中得到注释,注释次数最高的是核糖体大亚基蛋白质L36。【结论】本研究找到了放线菌纲细菌MALDI-TOF MS图谱中常见的15种核糖体蛋白质信号,可为通过识别核糖体蛋白质的质谱特征峰鉴定放线菌的方法建立提供依据。     

MALDI-TOF MS在快速检测碳青霉烯类耐药肺炎克雷伯菌及其同源性分析中的应用

利用基质辅助激光解吸电离飞行时间质谱(MALDI-TOF MS)筛选碳青霉烯类耐药肺炎克雷伯菌(CRKp)特异性峰, 并进行同源性分析。

收集30株CRKp临床分离株, 采用法国梅里埃VITEK 2 Compact分析仪进行细菌鉴定和药敏试验、利用改良碳青霉烯灭活试验(mCIM)检测碳青霉烯酶; 利用MALDI-TOF MS技术筛选CRKp菌株特异性峰, 采用MALDI-TOF MS进行同源性分析, 多位点序列分型(MLST)方法作为验证。

30株CRKp株mCIM均为阳性, 其中24株含有共同特异性峰, 特异性达到80%, 符合区分阈值。蛋白质质量峰聚类分析显示, 30株CRKp株分为三大簇, 同时MLST结果表明, ST11/A型为27株、ST15/B型为2株, 而ST2193/D型仅有1株。

MALDI-TOF MS在CRKp鉴定中具有精准、快速的优点。MALDI-TOF MS能够有效进行CRKp同源性分析, 并应用于院内感染流行暴发的监测。

     

基于基质辅助激光解吸/电离飞行时间质谱的猪呼吸道病毒多目标鉴定方法的建立和应用北大核心

【目的】建立能高效同步鉴定猪伪狂犬病毒(porcine pseudorabies virus,PRV)、猪圆环病毒2型(porcine circovirus 2,PCV-2)和3型(porcine circovirus 3,PCV-3)、非洲猪瘟病毒(African swine fever virus,ASFV)以及猪博卡病毒1型(porcine bocavirus group 1,PBoV-G1)、2型(porcine bocavirus group 2,PBoV-G2)和3型(porcine bocavirus group 3,PBoV-G3)等呼吸道病毒的核酸基质辅助激光解吸/电离飞行时间质谱(matrix-assisted laser desorption/ionization time-of-flight mass spectrometry,MALDI-TOF MS)高通量多目标检测技术。【方法】根据7种病原体基因的保守序列,分别设计不同病原的引物及对应的单碱基延伸探针,通过引物浓度和反应条件优化,方法特异性、敏感性和稳定性分析,以及临床样本和猪源产制品的检测验证,建立常见猪呼吸道DNA病毒的MALDI-TOF MS多目标检测体系。【结果】质谱分析显示,多目标检测体系的7种靶标产物峰只在特定病毒阳性样品检测时产生,与其他病原体检测无交叉反应,表明该方法对7种靶标病毒检测特异性良好。重复性试验结果分析显示,体系中每种病毒在高、中、低浓度时批内阳性符合率均≥98.0%,批间均≥98.3%,表明该方法具有较高的稳定性。体系中7种病原体每种病毒最低检测限在8.65–26.27拷贝/μL之间,与荧光PCR(real-time fluorescence quantitative PCR,RT-qPCR)检测方法相当。采用MALDI-TOF MS多重检测方法对100份组织、饲料和猪肉样品进行检测应用,检出2种及以上混合感染样品39份,其中5份样本同步检出5种病原体阳性;对8份ASFV-p72假病毒人工污染样品进行验证,均可检出ASFV阳性。将以上样本检测应用结果与荧光PCR方法进行比对验证,2种方法对于不同病原体检测结果的符合率高达94.4%–100%。【结论】本研究建立的基于MALDI-TOF MS的猪呼吸道常见DNA病毒多重检测方法为猪群相关疫病快速监测和鉴别诊断,以及便利化进出口动物检疫等提供了一种新的敏感、特异的高通量多目标检测技术。     

A simpler method of preprocessing MALDI-TOF MS data for differential biomarker analysis: stem cell and melanoma cancer studies

Introduction  

Raw spectral data from matrix-assisted laser desorption/ionisation time-of-flight (MALDI-TOF) with MS profiling techniques usually contains complex information not readily providing biological insight into disease. The association of identified features within raw data to a known peptide is extremely difficult. Data preprocessing to remove uncertainty characteristics in the data is normally required before performing any further analysis. This study proposes an alternative yet simple solution to preprocess raw MALDI-TOF-MS data for identification of candidate marker ions. Two in-house MALDI-TOF-MS data sets from two different sample sources (melanoma serum and cord blood plasma) are used in our study.     

A method for simple identification of signature peptides derived from polyUb-K48 and K63 by MALDI-TOF MS and chemically assisted MS/MS fragmentation

Summary. A simple method is described to identify signature peptides derived from polyubiquitin (polyUb) chains. The method is based on MALDI-TOF MS/MS analysis after chemically assisted fragmentation, and works on peptides isolated from polyacrylamide gels. PolyUb chains branched at K48 and K63 were chosen as models for Ub-protein conjugates. They were resolved by SDS-PAGE, and their tryptic peptides (in-gel-trypsinolysis) derivatized with 3-sulfopropinic acid NHSester to obtain chemically assisted fragmentation during the MS/MS analysis. PolyUb-K63 produced a single peptide identified as ⁵⁵TLSDYNIQK⁶³ (GG)ESTLHLVLR⁷². PolyUb-K48 produced two branched signature peptides identified as ⁴³LIFAGK⁴⁸(GG)QLEDGR⁵⁴ and ⁴³LIFAGK⁴⁸(LRGG)QLEDGR⁵⁴. The recovery of signature peptide with LRGG as branched chain underscores the need to take limited proteolysis into account in the search for detection of ubiquitinated peptides in proteomics studies. In conclusion, a simple method has been described allowing the identification of signature peptides, which are diagnostic markers of the majority of polyUb-conjugated proteins. In principle, the method should be applicable also for other more rare signature peptides.     

Atypical yeasts identified as Saccharomyces cerevisiae by MALDI-TOF MS and gene sequencing are the main responsible of fermentation of chicha,a traditional beverage from Peru

Chicha is a drink prepared in several Andean countries from Inca's times by maize fermentation. Currently this fermentation is carried out in familiar artesanal “chicherías” that make one of the most known types of chicha, the “chicha de jora”. In this study we isolate and identify the yeasts mainly responsible of the fermentation process in this type of chicha in 10 traditional “chicherías” in Cusco region in Peru. We applied by first time MALDI-TOF MS analysis for the identification of yeast of non-clinic origin and the results showed that all of yeast strains isolated belong to the species Saccharomyces cerevisiae. These results agree with those obtained after the analysis of the D1/D2 and 5.8S-ITS regions. However the chicha strains have a phenotypic profile that differed in more than 40% as compared to that of current S. cerevisiae strains. To the best of our knowledge this is the first report concerning the yeasts involved in chicha fermentation.     

Evaluation of filter paper as a means of transporting inactivated Gram-negative non-fermentative bacteria and Haemophilus spp. for identification using the MALDI-TOF MS system

This study aimed to evaluate the filter paper as a means to transport inactivated Gram-negative non-fermentative (GNNF) bacteria and Haemophilus spp. for analysis using MALDI-TOF MS. A total of 133 isolates were evaluated and the analysis of each isolate was performed directly from original bacterial colony and in filter paper after the processing. To evaluate the agreement between the identification performed directly from the colony and after impregnation in filter paper, we assign the scores: >2·3 as excellent (E); 2·0 to 2·3 as very good (VG); 1·7–1·99 as good (G); <1·7 as unidentified (U). The divergences were classified as: Minor Divergence, Intermediate Divergence and Major Divergence. A total of 80 isolates transported in the filter paper disks presented full category concordance; 39 isolates presented Minor Divergence; 4 isolates present Intermediate Divergence; 4 isolates present Major Divergence and 6 isolates present better results after impregnation in filter paper. The proposed methodology of bacteria transportation presented a sensitivity of 96·9% and a specificity of 100%. The filter paper as a means to transport and storage of inactivated GNNF and Haemophilus spp. may be considered a potential tool for faster, more accurate, biosafe and less-expensive identification.