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1.
《Expert review of proteomics》2013,10(3):295-306
The proteomes of mammalian cells, tissues and biologic fluids are complex and consist of proteins present over a wide dynamic range. Current protein profiling technologies do not have the capacity to overcome the sample complexity for comprehensive analysis of complex proteomes. A common strategy to substantially expand protein profiling capacities is sample prefractionation. A prefractionation method developed in the authors’ laboratory, microscale solution isoelectrofocusing, has resulted in a commercial product, the ZOOM® IEF Fractionator, which provides a simple and convenient method for high-resolution separation of complex proteomes based upon their isoelectric points. Complex human samples such as cancer cells and biologic fluids can be fractionated into well-resolved fractions with minimal cross-contamination of proteins between adjacent fractions. This review focuses on the application of microscale solution isoelectrofocusing prefractionation and subsequent downstream strategies in expanding protein profiling capacities and mining low-abundance proteins of complex proteomes. 相似文献
2.
Two-dimensional electrophoresis is a critical technique for proteome research, but currently available methods are not capable of resolving the >10,000 protein components in most eukaryotic proteomes. We have developed and demonstrated the utility of a novel solution isoelectrofocusing device and method that can reproducibly prefractionate cell extracts into well-defined pools prior to 2D PAGE on a scale directly compatible with the high sensitivity of proteome studies. A prototype device was used to separate metabolically radiolabeled Escherichia coli extracts in method optimization and proof-of-principle experiments. Samples were loaded into separation chambers divided by thin polyacrylamide gels containing immobilines at specific pH values and isoelectrically focused for several hours, which resulted in well-resolved fractions. Total recoveries in the fractionated samples were greater than 80% and most protein spots in the original sample were recovered after this prefractionation step. Nonideal behavior (precipitation/aggregation), typically encountered when unfractionated samples at high protein loads were applied directly to either narrow- or broad-range IPG gels, was dramatically reduced. Hence this approach allows increases in overall protein loads, resolution, and dynamic detection range compared with either alternative prefractionation methods or direct use of parallel narrow pH range gels without sample prefractionation. The pH ranges and number of fractions can be readily adapted to the requirements of specific types of samples and projects. This method should allow quantitative comparisons of at least 10,000 protein components on a series of narrow pH range gels, and protein detection limits are estimated to be 1000 molecules per cell when mammalian proteomes are fractionated into five or more pools. 相似文献
3.
Giuseppina Maccarrone Isabel Birg Eva Malisch Marcus C. Rosenhagen Claudia Ditzen John A. Chakel Friedrich Mandel Andreas Reimann Can-Carlo Doertbudak Katrin Haegler Florian Holsboer Christoph W. Turck PhD 《Clinical proteomics》2004,1(3-4):333-364
The identification of disease markers in human body fluids requires an extensive and thorough analysis of its protein constituents.
In the present study, we have extended our analysis of the human cerebrospinal fluid (CSF) proteome using protein prefractional
followed by shotgun mass spectrometry. After the removal of abundant protein components from the mixture with the help of
immunodepletion affinity chromatography, we used either anion exchange chromatography or sodium dodecyl sulfate-polyacrylamide
gel electrophoresis (SDS-PAGE) to further subfractionate the proteins present in CSFs. Each protein subfraction was enzyme
digested and analyzed by tandem mass spectrometry and the resulting data evaluated using the Spectrum Mill software. Different
subfractionation methods resulted in the identification of a grant total of 259 proteins in CSF from a patient with normal
pressure hydrocephalus. The greatest number of protein, 240 in total, were identified after prefractionating the CSF proteins
by immunodepletion and SDS-PAGE. Immuno-depletion combined with anion exchange fractionation resulted in 112 proteins and
74 proteins were found when only immunodepletion of the CSF samples was carried out. All methods used showed a significant
increase in the number of identified proteins as compared with nondepleted and unfractionated CSF sample analysis, which yielded
only 38 protein identifications. The present work establishes a platform for future studies aimed at a detailed comparative
proteome analysis of CSFs from different groups of patients suffering from various psychiatric and neurological disorders. 相似文献
4.
Preparative (solution) isoelectric focusing (sIEF) is a proven technique for proteome prefractionation, but carries limitations which include the risk of protein loss from isoelectric precipitation, poor focusing, and excessively long separation times. This report describes a simple yet effective method to achieve rapid focusing (as fast as 1 h) and maximize protein recovery using a carrier ampholyte sIEF system. Cathodic drift was not present over the time course of the experiment using our eight-chamber device, and we demonstrate the effectiveness of this device for focusing proteome mixtures. We also discuss an MS-compatible acidic wash protocol, which is shown to enhance the recovery of proteins following sIEF, thus, improving detection by LC-MS/MS. These approaches overcome significant shortcomings of the technique, enabling effective prefractionation prior to MS analysis. 相似文献
5.
The possibility is reported here of fractionating proteins on amphoteric, buffering resins via ion-exchange chromatography. A given protein's adsorption to a particular amphoteric buffering resin is characterized by a bell-shaped curve in which the maximum protein binding capacity is observed at an optimum pH value lying approximately midway between the isoelectric point values (pI) of the resin and the protein. On either side of this maximum the protein binding capacity declines steadily, reaching zero at the pI of either the protein or exchanger. For instance, on beads of pI equal to 8, four proteins, two acidic (bovine albumin and ovalbumin) and two basic (cytochrome c and lysozyme), exhibit binding curves reaching zero values for the whole set when the exchanger is conditioned at pH 8.0. Away from the pI, and on both sides of the pH scale, the bell-shaped adsorption curves reach a maximum, for each protein, at a pH located at the midpoint between the pI values of each protein and that of the exchanger, and decline steadily to reach zero at the pI value of each protein species. Separation of model proteins using different amphoteric buffering resins of various pI was possible at different pH values according to both the pI of the proteins and of the exchangers. It was also demonstrated, using surface enhanced laser desorption/ionization mass spectrometry and two dimensional electrophoretic mapping, that separation of an Escherichia coli cell lysate on columns packed with amphoteric buffering resins of different pI and titrated to a particular pH value, delivered two distinctly different fractions, i.e. characteristically composed of, on the one hand, proteins having a pI below the buffer pH (the 'adsorbed' fraction), and on the other, of alkaline proteins possessing a pI above the pH of the buffer (the 'unadsorbed' fraction). This approach represents an attractive addition and/or alternative to the armory of protein pre-fractionation techniques currently employed in proteomics. 相似文献
6.
Human plasma proteome analysis by multidimensional chromatography prefractionation and linear ion trap mass spectrometry identification 总被引:8,自引:0,他引:8
A resurgence of interest in the human plasma proteome has occurred in recent years because it holds great promise of revolution in disease diagnosis and therapeutic monitoring. As one of the most powerful separation techniques, multidimensional liquid chromatography has attracted extensive attention, but most published works have focused on the fractionation of tryptic peptides. In this study, proteins from human plasma were prefractionated by online sequential strong cation exchange chromatography and reversed-phase chromatography. The resulting 30 samples were individually digested by trypsin, and analyzed by capillary reversed-phase liquid chromatography coupled with linear ion trap mass spectrometry. After meeting stringent criteria, a total of 1292 distinct proteins were successfully identified in our work, among which, some proteins known to be present in serum in <10 ng/mL were detected. Compared with other works in published literatures, this analysis offered a more full-scale list of the plasma proteome. Considering our strategy allows high throughput of protein identification in serum, the prefractionation of proteins before MS analysis is a simple and effective method to facilitate human plasma proteome research. 相似文献
7.
Lee K 《Bioscience, biotechnology, and biochemistry》2008,72(6):1464-1474
One method of improving the protein profiling of complex mammalian proteomes is the use of prefractionation followed by application of narrow pH range two dimensional (2-D) gels. The success of this strategy relies on sample solubilization; poor solubilization has been associated with missing protein fractions and diffuse, streaked, and/or trailing protein spots. In this study, I sought to optimize the solubilization of prefractionated human cancer cell samples using isoelectric focusing (IEF) rehydration buffers containing a variety of commercially available reducing agents, detergents, chaotropes, and carrier ampholytes. The solubilized proteins were resolved on 2-D gels and compared. Among five tested IEF rehydration buffers, those containing 3-[(3-cholamidopropyl)dimethylamino]-1-propane sulfonate (CHAPS) and dithiothreitol (DTT) provided superior resolution, while that containing Nonidet P-40 (NP-40) did not significantly affect protein resolution, and the tributyl phosphine (TBP)-containing buffer yielded consistently poor results. In addition, I found that buffers containing typically high urea and ampholyte levels generated sharper 2-D gels. Using these optimized conditions, I was able to apply 2-D gel analysis successfully to fractionated proteins from human breast cancer tissue MCF-7, across a pH range of 4-6.7. 相似文献
8.
Ang CS Binos S Knight MI Moate PJ Cocks BG McDonagh MB 《Journal of proteome research》2011,10(11):5059-5069
Saliva is easily obtainable from a large number of animals in a noninvasive manner and contains a wide diversity of compounds including hormones, metabolites, and proteins that may be a good source of biomarkers of health and disease. Here we have used a combination of multidimensional prefractionation, targeted, and glycocapture methodologies to profile the bovine salivary proteome. The nontargeted approach used four different separation methodologies consisting of SDS-PAGE, Off-gel fractionation, RP-HPLC, and SCX-HPLC. In the targeted approach, we've employed a hypothesis-based methodology by only selecting extracellular proteins from in silico data. Finally, the hydrazide capture methodology not only enabled us to identify formerly N-linked glycoproteins but it also provided a selective enrichment process for the identification of low abundance proteins. Together, the three different approaches identified 402 salivary proteins and 45 N-linked glycoproteins. A large number of these proteins have previously been uncharacterized in bovine saliva. To date, this is the largest global survey of the bovine salivary proteome and expands the potential of the diagnostic utility of this fluid to guide development of experiments seeking biomarkers for health traits (i.e., disease resistance) as well as feed conversion efficiency and productivity traits in dairy and beef cattle. 相似文献
9.
Zuo X Hembach P Echan L Speicher DW 《Journal of chromatography. B, Analytical technologies in the biomedical and life sciences》2002,782(1-2):253-265
Current methods for quantitatively comparing proteomes (protein profiling) have inadequate resolution and dynamic range for complex proteomes such as those from mammalian cells or tissues. More extensive profiling of complex proteomes would be obtained if the proteomes could be reproducibly divided into a moderate number of well-separated pools. But the utility of any prefractionation is dependent upon the resolution obtained because extensive cross contamination of many proteins among different pools would make quantitative comparisons impractical. The current study used a recently developed microscale solution isoelectrofocusing (musol-IEF) method to separate human breast cancer cell extracts into seven well-resolved pools. High resolution fractionation could be achieved in a series of small volume tandem chambers separated by thin acrylamide partitions containing covalently bound immobilines that establish discrete pH zones to separate proteins based upon their pIs. In contrast to analytical 2-D gels, this prefractionation method was capable of separating very large proteins (up to about 500 kDa) that could be subsequently profiled and quantitated using large-pore 1-D SDS gels. The pH 4.5-6.5 region was divided into four 0.5 pH unit ranges because this region had the greatest number of proteins. By using very narrow pH range fractions, sample amounts applied to narrow pH range 2-D gels could be increased to detect lower abundance proteins. Although 1.0 pH range 2-D gels were used in these experiments, further protein resolution should be feasible by using 2-D gels with pH ranges that are only slightly wider than the pH ranges of the musol-IEF fractions. By combining musol-IEF prefractionation with subsequent large pore 1-D SDS-PAGE (>100 kDa) and narrow range 2-D gels (<100 kDa), large proteins can be reliably quantitated, many more proteins can be resolved, and lower abundance proteins can be detected. 相似文献
10.
This review deals with the application of a new prefractionation tool, free-flow electrophoresis (FFE), for proteomic analysis of colorectal cancer (CRC). CRC is a leading cause of cancer death in the Western world. Early detection is the single most important factor influencing outcome of CRC patients. If identified while the disease is still localized, CRC is treatable. To improve outcomes for CRC patients there is a pressing need to identify biomarkers for early detection (diagnostic markers), prognosis (prognostic indicators), tumour responses (predictive markers) and disease recurrence (monitoring markers). Despite recent advances in the use of genomic analysis for risk assessment, in the area of biomarker identification genomic methods alone have yet to produce reliable candidate markers for CRC. For this reason, attention is being directed towards proteomics as a complementary analytical tool for biomarker identification. Here we describe a proteomics separation tool, which uses a combination of continuous FFE, a liquid-based isoelectric focusing technique, in the first dimension, followed by rapid reversed-phase HPLC (1-6 min/analysis) in the second dimension. We have optimized imaging software to present the FFE/RP-HPLC data in a virtual 2D gel-like format. The advantage of this liquid based fractionation system over traditional gel-based fractionation systems is the ability to fractionate large quantity protein samples. Unlike 2D gels, the method is applicable to both high-M(r) proteins and small peptides, which are difficult to separate, and in the case of peptides, are not retained in standard 2D gels. 相似文献
11.
12.
The availability of complete genome sequence information for diverse organisms including model genetic organisms has ushered in a new era of protein sequence comparisons making it possible to search for commonalities among entire proteomes using the Basic Local Alignment Search Tool (BLAST). Although the identification and analysis of proteins shared by humans and model organisms has proven an invaluable tool to understanding gene function, the sets of proteins unique to a given model organism's proteome have remained largely unexplored. We have constructed a searchable database that allows biologists to identify proteins unique to a given proteome. The Negative Proteome Database (NPD) is populated with pair-wise protein sequence comparisons between each of the following proteomes: Homo sapiens, Mus musculus, Drosophila melanogaster, Caenorhabditis elegans, Saccharomyces cerevisiae, Dictyostelium discoideum, Chlamydomonus reinhardti, Escherichia coli K12, Arabidopsis thaliana and Methanoscarcina acetivorans. Our analysis of negative proteome datasets using the NPD has thus far revealed 107 proteins in humans that may be involved in motile cilia function, 1628 potential pesticide target proteins in flies, 659 proteins shared by flies and humans that are not represented in the less neurologically complex worm proteome, and 180 nuclear encoded human disease associated proteins that are absent from the fly proteome. The NPD is the only online resource where users can quickly perform complex negative and positive comparisons of model organism proteomes. We anticipate that the NPD and the adaptable algorithm which can readily be used to duplicate this analysis on custom sets of proteomes will be an invaluable tool in the investigation of organism specific protein sets. 相似文献
13.
14.
Rivers J Hughes C McKenna T Woolerton Y Vissers JP Langridge JI Beynon RJ 《PloS one》2011,6(12):e28902
Immobilized combinatorial peptide libraries have been advocated as a strategy for equalization of the dynamic range of a typical proteome. The technology has been applied predominantly to blood plasma and other biological fluids such as urine, but has not been used extensively to address the issue of dynamic range in tissue samples. Here, we have applied the combinatorial library approach to the equalization of a tissue where there is also a dramatic asymmetry in the range of abundances of proteins; namely, the soluble fraction of skeletal muscle. We have applied QconCAT and label-free methodology to the quantification of the proteins that bind to the beads as the loading is progressively increased. Although some equalization is achieved, and the most abundant proteins no longer dominate the proteome analysis, at high protein loadings a new asymmetry of protein expression is reached, consistent with the formation of complex assembles of heat shock proteins, cytoskeletal elements and other proteins on the beads. Loading at different ionic strength values leads to capture of different subpopulations of proteins, but does not completely eliminate the bias in protein accumulation. These assemblies may impair the broader utility of combinatorial library approaches to the equalization of tissue proteomes. However, the asymmetry in equalization is manifest at either low and high ionic strength values but manipulation of the solvent conditions may extend the capacity of the method. 相似文献
15.
16.
Christopher S Hughes Sophia Foehr David A Garfield Eileen E Furlong Lars M Steinmetz Jeroen Krijgsveld 《Molecular systems biology》2014,10(10)
In order to obtain a systems‐level understanding of a complex biological system, detailed proteome information is essential. Despite great progress in proteomics technologies, thorough interrogation of the proteome from quantity‐limited biological samples is hampered by inefficiencies during processing. To address these challenges, here we introduce a novel protocol using paramagnetic beads, termed Single‐Pot Solid‐Phase‐enhanced Sample Preparation (SP3). SP3 provides a rapid and unbiased means of proteomic sample preparation in a single tube that facilitates ultrasensitive analysis by outperforming existing protocols in terms of efficiency, scalability, speed, throughput, and flexibility. To illustrate these benefits, characterization of 1,000 HeLa cells and single Drosophila embryos is used to establish that SP3 provides an enhanced platform for profiling proteomes derived from sub‐microgram amounts of material. These data present a first view of developmental stage‐specific proteome dynamics in Drosophila at a single‐embryo resolution, permitting characterization of inter‐individual expression variation. Together, the findings of this work position SP3 as a superior protocol that facilitates exciting new directions in multiple areas of proteomics ranging from developmental biology to clinical applications. 相似文献
17.
Microscale processing techniques are rapidly emerging as a means to increase the speed of bioprocess design and reduce material requirements. Automation of these techniques can reduce labour intensity and enable a wider range of process variables to be examined. This article examines recent research on various individual microscale unit operations including microbial fermentation, bioconversion and product recovery techniques. It also explores the potential of automated whole process sequences operated in microwell formats. The power of the whole process approach is illustrated by reference to a particular bioconversion, namely the Baeyer-Villiger oxidation of bicyclo[3.2.0]hept-2-en-6-one for the production of optically pure lactones. 相似文献
18.
The purpose of this research was to develop a new method to predict the flow behavior of pharmaceutical powders using a multichamber
microscale fluid bed. Different amounts of poorly flowing paracetamol were added to various grades of microcrystalline celluloses
and silicified microcrystalline cellulose powders. Magnesium stearate was used as a lubricant. Experimental minimum fluidization
velocities (u
mf) were defined using 2 to 4 g (equal to 10 mL) of material (Video 1). The reference flowability of the powders was determined
using a specific flow meter. Also, the weight variation of the compressed powders, using a single-punch press, was measured.
When the amount of paracetamol in the excipients was increased, the experimentalu
mf increased and the fluidization behavior grew worse (Video 2). Principal component analysis (PCA) established that the pressure
difference over the bed as a function of fluidization velocity could be used to characterize the behavior of powders. The
increase in poor fluidization behavior of the powders was in accordance with the increasing amount of paracetamol and with
the increasing weight variation of the tablets. Furthermore, the angle of repose and the flow rate of silicified microcrystalline
cellulose powders were predicted using a partial least squares (PLS) model. The developed method to predict flowability is
a promising approach for use in the preformulation and formulation stages of new drug candidates, for example. 相似文献
19.
Ahrens CH Brunner E Qeli E Basler K Aebersold R 《Nature reviews. Molecular cell biology》2010,11(11):789-801
Proteomes, the ensembles of all proteins expressed by cells or tissues, are typically analysed by mass spectrometry. Recent technical and computational advances have greatly increased the fraction of a proteome that can be identified and quantified in a single study. Current mass spectrometry-based proteomic strategies have the potential to reproducibly, accurately, quantitatively and comprehensively measure any protein or whole proteomes from cells and tissues at different states. Achieving these goals will require complete proteome maps and analytical strategies that use these maps as prior information and will greatly enhance the impact of proteomics on biological and clinical research. 相似文献
20.
Complex behavior in solution of homodimeric SecA 总被引:1,自引:0,他引:1
Woodbury RL Hardy SJ Randall LL 《Protein science : a publication of the Protein Society》2002,11(4):875-882
SecA, a homodimeric protein involved in protein export in Escherichia coli, exists in the cell both associated with the membrane translocation apparatus and free in the cytosol. SecA is a multifunctional protein involved in protein localization and regulation of its own expression. To carry out these functions, SecA interacts with a variety of proteins, phospholipids, nucleotides, and nucleic acid and shows two enzymic activities. It is an ATPase and a helicase. Its role during protein localization involves interaction with the precursor polypeptides to be exported, the cytosolic chaperone SecB, and the SecY subunit of the membrane-associated translocase, as well as with acidic phospholipids. At the membrane, SecA undergoes a cycle of binding and hydrolysis of ATP coupled to conformational changes that result in translocation of precursors through the cytoplasmic membrane. The helicase activity of SecA and its affinity for its mRNA are involved in regulation of its own expression. SecA has been reported to exist in at least two conformational states during its functional cycle. Here we have used analytical centrifugation, as well as column chromatography coupled with multi-angle light scatter, to show that in solution SecA undergoes at least two monomer-dimer equilibrium reactions that are sensitive to temperature and to concentration of salt. 相似文献