Technical updates to basic proteins focalization using IPG strips

ABSTRACT: BACKGROUND: Gel-based proteomic is a popular and versatile method of global protein separation and quantification. However, separation of basic protein still represents technical challenges with recurrent problems of resolution and reproducibility. RESULTS: Three different protocols of protein loading were compared using MCF7 cells proteins. In-gel rehydration, cup-loading and paper-bridge loading were first compared using 6--11 IPG strips, as attempted, in-gel rehydration gave large horizontal steaking; paper-bridge loading displayed an interesting spot resolution, but with a predominant loss of material; cup-loading was selected as the most relevant method, but still needing improvement. Twelve cup-loading protocols were compared with various strip rehydration, and cathodic wick solutions. Destreak appeared as better than DTT for strip rehydration; the use of isopropanol gave no improvement. The best 2DE separation was observed with cathodic wicks filled with rehydration solution complemented with DTT. Paper-bridge loading was finally analyzed using non-limited samples, such as bovine milk. In this case, new spots of basic milk proteins were observed, with or without paper wicks. CONCLUSION: According to this technical study of basic protein focalization with IPG strips, the cup-loading protocol clearly displayed the best resolution and reproducibility: strips were first rehydrated with standard solution, then proteins were cup-loaded with destreak reagent, and focalisation was performed with cathodic wicks filled with rehydration solution and DTT. Paper-bridge loading could be as well used, but preferentially with non-limited samples.     

Proteome resolution by two-dimensional gel electrophoresis varies with the commercial source of IPG strips

By facilitating reproducible first dimension separations, commercial immobilized pH gradient (IPG) strips enable high throughput and high-resolution proteomic analyses using two-dimensional gel electrophoresis (2DE). Amersham, Biorad, Invitrogen, and Sigma all market linear pH 3-10 IPG strips. We have applied optimized 2DE protocols with both membrane and soluble brain protein extracts to critically evaluate all four products. Resolved protein spots were quantitatively evaluated after carrying out these protocols using IPG strips from the four companies. Biorad and Amersham IPG strips resolved a high number of membrane and soluble proteins, respectively. Furthermore, Amersham IPG strips eluted the largest amount of protein into the second dimension gels and had the most protein remaining in the strip after 2DE. Biorad and Amersham IPG strips maintained a consistent linear pH 3-10 gradient, whereas those from Invitrogen appeared nonlinear or "compressed" within the central pH region. The gradient range within Sigma IPG strips appeared to be slightly less than pH 3-10, due to one extended pH unit within the gradient. Overall, all four commercially available IPG strips have the ability to resolve both membrane and soluble brain proteomes. The difference is that Amersham and Biorad do so more consistently and with better spot resolution. It appears that the physical/chemical nature of commercially available IPG strips can vary considerably, leading to marked differences in subsequent protein resolution in 2DE. These differences likely reflect variations in the uptake of proteins into the strips, and differences in the focusing and elution of proteins from the first to the second dimension. These differences would appear, in part, to underlie some inter-lab variations in the effective resolution of proteomes.     

人肺巨细胞癌蛋白质组的二维电泳和计算机图象分析

为优化用于蛋白质组研究的二维电泳技术和计算机图象分析技术 ,以及初步分析比较与肿瘤细胞转移相关的蛋白质 ,以人肺巨细胞癌 (PLA- 80 1 - D、C)高、低转移株作为研究对象 ,应用 IPG-phor进行第一向等电聚焦 ,随后 ,在 Protein IPG conversion Kit上进行垂直 SDS- PAGE的分离 .利用光密度仪对银染的凝胶扫描 ,通过 PDQuest软件进行蛋白斑点检测和配比 .结果表明 :(1 )应用 IPGphor,采用样品直接加入重泡胀溶液的形式 ,增大了溶解性 ,缩短聚焦时间、增大样品负荷量 (分析型 ) ,提高了分辨率 .(2 )比较宽 (p H=3～ 1 0 L)、窄 (p H=4～ 7L)范围 IPG胶条 ,窄 p H范围的 IPG胶条具有较高的分辨率 .(3)比较 PLA- 80 1 - C、D细胞蛋白图谱之间的差异 ,其相关系数为 0 .7339± 0 .0 2 91 ;仅在 PLA- 80 1 - C株出现的蛋白为 1 79个 .     

A universal method for two-dimensional polyacrylamide gel electrophoresis of membrane proteins using isoelectric focusing on immobilized pH gradients in the first dimension.

Two-dimensional gel electrophoresis with immobilized pH gradients in the first dimension, initially applied for the separation of soluble and total cellular proteins, has been extended to the analysis of membrane proteins. We show that the usual procedures lead to artifacts and irreproducible results due to aggregation and precipitation of proteins and protein-phospholipid complexes during isoelectric focusing (first dimension) and sodium dodecyl sulfate (SDS) gel electrophoresis (second dimension). Optimized solubilization procedures for hydrophobic membrane proteins are presented and the use of dilute samples is shown to be essential to overcome the major problems in isoelectric focusing. Increased volumes of samples dissolved in rehydration buffer are applied by direct rehydration of dry immobilized pH gradient (IPG) gels. Isoelectric focusing in 2% 3-[(3-cholamidopropyl)dimethylammonio]-1-propanesulfonate (CHAPS) without urea gives good results as does 2% Nonidet-P40 with 8 M urea. Heat denaturation should be avoided. An optimized equilibration procedure for IPG gel strips in SDS sample buffer prior to separation in the second dimension was developed that minimizes loss of proteins and results in high-resolution two-dimensional electropherographic maps with a minimum of streaking. The gel strips are partially dehydrated at 40 degrees C and shortly reswollen in situ on the SDS slab gel in SDS-sample buffer containing agarose.     

一种提高固定pH梯度（IPG）凝胶双向电泳的重复性、分辨率和通量的方法

在蛋白质组学研究中 ,双向聚丙烯酰胺凝胶电泳是现行蛋白质分离的最重要的方法之一。实验发展了一种提高固定pH梯度 (IPG)凝胶双向电泳的重复性、分辨率和通量的方法 :在一块SDS 聚丙烯酰胺凝胶上同时进行多块固定pH梯度(IPG)凝胶 (Multi stripsononeSDSgel,MSOG)电泳。用此方法比较了人肝癌细胞、不同生长状态的人肝癌细胞、3T3细胞的蛋白质以及同一个样品在不同大小的第二向凝胶系统 (大型和中型凝胶 )的双向电泳图谱。结果表明 ,同一样品在 13cmIPGStrip双向电泳可分离 2 0 0 0以上蛋白质点且图谱蛋白质点的匹配率可超过 95 %以上。同时又可以最大程度地降低凝胶背景对蛋白质点比较分析的干扰 ,从而提高了双向电泳分离蛋白质的分辨率和通量。这些优点都有助于差异蛋白质组学特别是细胞器差异蛋白质组学研究的自动化。     

G-electrode-loading method for isoelectric focusing, enabling separation of low-abundance and high-molecular-mass proteins

The G-electrode-loading method (GELM) is a technique enabling a large number of proteins from rat liver to enter an immobilized pH gradient (IPG) gel strip for isoelectric focusing (IEF). In this method, three slips containing the sample solution are placed on the cathodic edge of an IPG gel strip and a slip containing Chaps solution, a filtration membrane, and an electrode slip are placed on top. Finally, a G-electrode is placed on these slips. The Chaps solution (an amphoteric compound) is supplied gently to the sample solution during IEF and helps the proteins in the sample solution to enter the IPG gel strips with a high solubilization capacity. This method was compared with traditional slip-loading and in-gel rehydration, and it showed the best results for protein separation, including high-molecular-mass proteins.     

Serial isoelectric focusing as an effective and economic way to obtain maximal resolution and high-throughput in 2D-based comparative proteomics of scarce samples: proof-of-principle

In 2D-based comparative proteomics of scarce samples, such as limited patient material, established methods for prefractionation and subsequent use of different narrow range IPG strips to increase overall resolution are difficult to apply. Also, a high number of samples, a prerequisite for drawing meaningful conclusions when pathological and control samples are considered, will increase the associated amount of work almost exponentially. Here, we introduce a novel, effective, and economic method designed to obtain maximum 2D resolution while maintaining the high throughput necessary to perform large-scale comparative proteomics studies. The method is based on connecting different IPG strips serially head-to-tail so that a complete line of different IPG strips with sequential pH regions can be focused in the same experiment. We show that when 3 IPG strips (covering together the pH range of 3-11) are connected head-to-tail an optimal resolution is achieved along the whole pH range. Sample consumption, time required, and associated costs are reduced by almost 70%, and the workload is reduced significantly.     

Two‐dimensional reference map for the basic proteome of the human dorsolateral prefrontal cortex (dlPFC) of the prefrontal lobe region of the brain

We describe a 2‐DE proteomic reference map containing 227 basic proteins in the dorsolateral prefrontal cortex region of the human brain. Proteins were separated in the first dimension on pH 6–11 IPG strips using paper‐bridge loading and on 12% SDS‐PAGE in the second dimension. Proteins were subsequently identified by MS and spectra were analyzed using an in‐house proteomics data analysis platform, Proline. The 2‐DE reference map is available via the UCD 2‐DE Proteome Database ( http://proteomics‐portal.ucd.ie:8082 ) and can also be accessed via the WORLD‐2DPAGE Portal ( http://www.expasy.ch/world‐2dpage/ ). The associated protein identification data have been submitted to the PRIDE database (accession numbers 10018–10033). Separation of proteins in the basic region resolves more membrane associated proteins relevant to the synaptic pathology central to many neurological disorders. The 2‐DE reference map will aid with further characterisation of neurological disorders such as bipolar and schizophrenia.     

A combination of immobilised pH gradients improves membrane proteomics

Membrane protein analyses have been notoriously difficult due to hydrophobicity and the general low abundance of these proteins compared to their soluble cytosolic counterparts. Shotgun proteomics has become the preferred method for analyses of membrane proteins, in particular the recent development of peptide immobilized pH gradient isoelectric focusing (IPG-IEF) as the first dimension of two-dimensional shotgun proteomics. Recently, peptide IPG-IEF has been shown to be a valuable shotgun proteomics technique through the use of acidic narrow range IPG strips, which demonstrated that small acidic p I increments are rich in peptides. In this study, we assess the utility of both broad range (BR) (p I 3-10) and narrow range (NR) (p I 3.4-4.9) IPG strips for rat liver membrane protein analyses. Furthermore, the use of these IPG strips was evaluated using label-free quantitation to demonstrate that the identification of a subset of proteins can be improved using NR IPG strips. NR IPG strips provided 2603 protein assignments on average (with 826 integral membrane proteins (IMPs)) compared to BR IPG strips, which provided 2021 protein assignments on average (with 712 IMPs). Nonredundant protein analysis demonstrated that in total from all experiments, 4195 proteins (with 1301 IMPs) could be identified with 1428 of these proteins unique to NR IPG strips with only 636 from BR IPG strips. With the use of label-free quantitation methods, 1659 proteins were used for quantitative comparison of which 319 demonstrated statistically significant increases in normalized spectral abundance factors (NSAF) in NR IPG strips compared to 364 in BR IPG strips. In particular, a selection of six highly hydrophobic transmembrane proteins was observed to increase in NSAF using NR IPG strips. These results provide evidence for the use of alternative pH gradients in combination to improve the shotgun proteomic analysis of the membrane proteome.     

Optimization of IPG strip equilibration for the basic membrane protein mABC1

Many proteins with extreme physical properties, including basic and acidic proteins, membrane proteins, and very large proteins, present specific challenges to 2-DE separation. Using a pressure-blotting approach, we demonstrate that a basic integral membrane protein, mitochondrial ATP-binding cassette protein 1 (mABC1), focuses in the IPG strip, but fails to enter into the 2-D SDS-PAGE gel. Through modifying the equilibration conditions between the IPG strip and 2nd dimension, we demonstrate that only by increasing both the volume (from 3 to 6 mL for a 7-cm strip) and SDS concentration (from 2 to 10%) of the equilibration buffer is migration of mABC1 into the 2nd dimension achieved. While 2-DE remains one of the core separation technologies of proteomic analysis, proteins that are extremely basic, hydrophobic, or of large mass present significant challenges to 2-DE separation due to aggregation, oxidation, precipitation, and the physical limitations of the 1-D IPG strip. Since the advent of commercially available IPG strips, numerous groups have experimented with IEF conditions using various detergents alone or in combination, alternative denaturants, and thiol oxidation agents to improve protein focusing. Effective 2-DE separation of membrane proteins has been affected dramatically by these advances in protein solubilization, as well as improvements in isolation of membranes, delipidation, and active in-gel rehydration. Since the development of commercially available basic IPG strips, the most significant advance in the separation of basic proteins has been the introduction of hydroxyethyldisulfides, either alone or in combination with DTT. While hydrophobic proteins were once virtually absent from the 2-D gel, and basic proteins were only visible as dense streaks, now many groups are undertaking large-scale analyses of membranes and basic proteins. Using this base of experimental tools, we embarked on a proteomic analysis of cardiac mitochondrial membranes, hoping to combine the knowledge gained from ongoing targeted protein chemistry and molecular biology studies with a broader-based proteomic analysis. Of particular interest is the inner mitochondrial membrane protein mABC1 (mitochondrial ATP-binding cassette protein 1), which may play a significant role in cardioprotection as part of the mitochondrial ATP-sensitive potassium channels. Therefore, in designing our 2-DE approach, it was crucial to ensure that mABC1 is focused, observable, and quantifiable, despite being an integral membrane protein of pI 9.37.     

Isoelectric point-based prefractionation of proteins from crude biological samples prior to two-dimensional gel electrophoresis

Two-dimensional gel electrophoresis (2-DE) is used to compare the protein profiles of different crude biological samples. Narrow pH range Immobilized pH Gradient (IPG) strips were designed to increase the resolution of these separations. To take full advantage of IPG strips, the ideal sample should be composed primarily of proteins that have isoelectric point (pI) values within the pH range of the IPG strip. Prefractionation of cell lysates from a human prostate cancer cell line cultured in the presence or absence of epigallocatechin-3-gallate was achieved in fewer than 30 min using an anion-exchange resin and two expressly designed buffers. The procedure was carried out in a centrifuge tube and standard instrumentation was used. The cell lysates were prefractionated into two fractions: proteins with pI values above 7 and between 4 and 7, respectively. The fractions were then analyzed by 2-DE, selecting appropriate pH ranges for the IPG strips, and the gels were compared with those of unprefractionated cell lysates. Protein loading capacity was optimized and resolution and visualization of the less abundant and differentially expressed proteins were greatly improved.     

多子房小麦蛋白质双向电泳体系的建立及优化

为建立适用于显性多子房小麦细胞质效应的蛋白质双向电泳体系,以显性多子房小麦材料DUOII与特异细胞质材料TeZhiI杂交的F1幼穗为材料,采用TCA-丙酮法提取蛋白质,并在IPG胶条长度和pH范围、SDS-PAGE凝胶浓度及蛋白质上样量等方面,对多子房小麦幼穗蛋白质双向电泳体系进行了探究与优化.结果表明,本文采用的蛋白质定量方法准确度高(R²=0.9999),确立了17 cm, pH4～7的IPG胶条, 12% SDS-PAGE分离胶,上样量为900 μg的双向电泳方法体系,获得了最适合本研究蛋白质组分析的双向电泳图谱. 经PDQuest 2DE 8.0.1软件分析,2-DE图谱上可分辨出1.444±14个清晰蛋白质点,且重复性较高(95%), 相关系数为0.960. 建立了一套适用于显性多子房小麦细胞质效应研究的蛋白质双向电泳体系.     

Improvements to polar 2-D electrophoresis for proteomic applications

Recently, we reported a new way of performing 2-DE, called P-dimensional electrophoresis (2-PE). In this approach, the second dimension is achieved in a radial gel which can accommodate up to six 7 cm long IPG strips simultaneously, improving reproducibility and throughput power in respect to 2-DE. Nevertheless, 2-PE was up to now limited to the use of only short strips because of technical difficulties. Here, we describe how to load longer strips (e.g., 18–24 cm) on 2-PE and report some representative images for a qualitative assessment.     

Elimination of basic gaps at high pH values in 2‐DE

The appearance of gaps, vertical lanes lacking protein spots at the cathodic end of 2‐D maps generated with wide range IPG‐strips exceeding a pH value of 9, is shown to depend on the electro‐osmotic transport of water into the IPG‐strip. Substitution of urea solution with water is demonstrated to increase the hydrolysis rate of polyacrylamide in IPG‐strips explaining the gap formation. The use of 8 M urea or thiourea/urea solutions in the electrode wick enables overnight focusing without the appearance of gaps.     

A simplified 2-D electrophoresis protocol with the aid of an organic disulfide

2-DE is still a relatively cumbersome and labor intensive method. Given the successful cysteinyl protection concept with hydroxyethyl disulfide (specific oxidation) during the first dimension separation, the possibility for a simplified equilibration procedure was investigated. This was achieved by maintaining the S-mercaptoethanol modified cysteinyls throughout the 2-D workflow including second dimension separation, spot handling, protein digestion, and protein identification. The traditional equilibration protocol encompassing thiol reduction and alkylation was compared with a one-step protocol employing continuous exposure to hydroxyethyl disulfide. Both equilibration protocols gave equally well-resolved spot maps with analytical protein loads regardless of IPG strip pH range. Using preparative protein loads, narrow range IPG strips gave comparable results for the two protocols while preparative load on wide range IPG strips was the only condition where classical reduction/alkylation outperformed hydroxyethyl disulfide equilibration. Moreover, with analytical protein loads, the hydroxyethyl disulfide equilibration time could be significantly reduced without apparent loss of spot map quality or quantitative protein transfer from the first- to the second dimension gel. MALDI-TOF mass spectrometric protein identification was successfully performed with either iodoacetamide or hydroxyethyl disulfide as the cysteine modifier, yielding comparable identification results with high confidence in protein assignment, sequence coverage, and detection of cysteine-containing peptides. The results provide a novel and simplified protocol for 2-DE where the concept of hydroxyethyl disulfide as the cysteinyl protecting agent is extended to cover the entire 2-D work flow.     

蝴蝶兰叶片蛋白质提取及双向电泳体系优化

通过对蛋白质提取、IPG胶条选择、上样量、水化方式、聚焦条件等方面的优化,建立蝴蝶兰叶片蛋白质的双向电泳体系。结果表明,采用酚抽提法提取蝴蝶兰叶片蛋白质的纯度较高,复溶较完全;双向电泳优化体系选用24 cm pH 3～10 NL的IPG胶条,被动水化,上样量为1.35 mg,B1程序进行等电聚焦,12%分离胶进行第二向电泳,考马斯亮蓝G-250染色。该方法获得分辨率较高、重复性较好的蝴蝶兰叶片双向电泳图谱,蛋白数点多达1163个,可以满足蝴蝶兰蛋白质组学研究和分析。     

Analytical isoelectric focusing with immobilized pH gradients of human apolipoprotein E from very low density lipoproteins and total plasma

A method for analytical isoelectric focusing (IEF) of apolipoprotein E (apoE) in immobilized pH gradients (IPG) and immunodetection of the separated isoforms has been developed for use with either very low density lipoproteins (VLDL) or whole plasma. Both VLDL and plasma were sequentially delipidated with 1,4-dioxane, acetone-ethanol, and ether. Neuraminidase treatment preceded the delipidation when required. Using preformed plates, pH 5.0-6.0 (LKB, Bromma) after rehydration with 6 M urea and dextran T-10, the IPG focusing pattern of the common isoforms (E2, E3, E4) was found to be equivalent to conventional IEF with the added resolution of the E4 disialo form. The use of self-poured narrower gradients permitted the further resolution of the E4 monosialo form, a previously unrecognized heterogeneity of the E2, E3, and E4 monosialo isoforms and differentiation of the apoE2** mutant; all of these forms comigrate with the common isoproteins in conventional IEF. Finally, the conditions for IPG of whole plasma using apoE monoclonal antibodies and enzyme-conjugated anti-mouse IgG for detection were established. Thus, IPG focusing is shown to be a powerful method for resolution of the apoE sialoforms and apoE mutant forms. The method has important implications in accurate and diagnostic phenotyping. Moreover, it is a convenient method for phenotyping which requires only very small volumes of plasma.     

A 2-D gel reference map of the basic human heart proteome

We have undertaken the identification of basic proteins (pH 6–11) of the human heart using 2‐DE. Tissue from the left ventricle of human heart was lysed and proteins were separated in the first dimension on pH 6–11 IPG strips using paper‐bridge loading followed by separation on 12% SDS polyacrylamide gels in the second dimension. Proteins were then identified by mass spectrometry and analysed using Proline, a proteomic data analysis platform that was developed in‐house. The proteome map contains 176 identified spots with 151 unique proteins and has been made available as part of the UCD‐2DPAGE database at http://proteomics‐portal.ucd.ie:8082 . The associated mass spectrometry data have been submitted to PRIDE (Accession number ?10098). This reference map, and the other heart reference maps available through the UCD‐2DPAGE database, will aid further proteomic studies of heart diseases such as dilated cardiomyopathy and ischaemic heart disease.     

小麦小花高纯度线粒体的分离及其蛋白质双向电泳体系建立

应用差速离心和Percoll不连续密度梯度法分离纯化小麦三核期小花线粒体. 在裂解液选择、IPG胶条pH值范围、SDS-PAGE胶浓度及蛋白质上样量等方面对线粒体蛋白质双向电泳体系进行探索和优化,确立了一套适用于小麦小花高纯度完整线粒体的分离方法及其蛋白质双向电泳的技术体系. 结果表明,采用20%、24%和40% Percoll密度梯度和28% Percoll自形成密度高速离心体系,获得了有活性、高纯度且较完整的线粒体;经TCA-丙酮法提取蛋白,以7 mol/L尿素,2 mol/L硫脲,4% CHAPS(W/V),65 mmol/L DTT,0.5% IPG缓冲液(V/V),0.001% 溴酚蓝(W/V)裂解液溶解蛋白,采用17 cm,pH 4～7 IPG胶条和11% SDS-PAGE分离胶,上样量为160 μg,硝酸银染色法,更适合小麦小花线粒体蛋白质组双向电泳分离. 经PDQuest 2DE 8.0.1软件包统计分析,在2-DE图谱上分辨出约150个蛋白点,蛋白点清晰呈圆形,无横条纹干扰,这为利用双向电泳技术在亚细胞水平对线粒体进行蛋白质组学研究与分析奠定了基础,更为进一步分析研究线粒体与雄性不育的关系提供了理论与技术支撑.