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.     

缺铁逆境胁迫下水稻叶片蛋白的双向电泳及其蛋白质组图谱分析

水稻幼苗经缺铁胁迫诱导分别处理1、3、5天后,用酚法和TCA/丙酮法提取叶片中的可溶性蛋白进行双向电泳分析,从而研究在缺铁条件下叶片中蛋白表达的动态变化规律.结果显示1.不同pH IPG胶条分离蛋白的效果不同.用pH3-10的IPG胶条进行双向电泳,经考马斯亮蓝染色后,可在胶面上检测到大约450个蛋白点,其中约有89%的蛋白是酸性蛋白.如果用pH4-7的IPG胶条进行双向电泳,则可检测到大约600个蛋白点,其中有29个蛋白是上调表达,1个蛋白是下调表达,5个蛋白是诱导特异表达.2.不同方法提取的可溶性蛋白质量不同.TCA法简单易操作,似乎对于碱性蛋白的抽提效果更好,在2-DE图像上,减性端显示的蛋白点多;但此方法所得蛋白的再溶性差.酚法提取的蛋白再溶性好,所抽提的蛋白量较大,纯度较高.     

Evaluation of protocols used in 2-d electrophoresis for proteome analysis of young rice caryopsis

In order to obtain a high-resolution electrophorogram of rice young panicle proteome, we evaluated various protocols commonly used in two-dimensional (2D) polyacrylamide gel electrophoresis (PAGE) of proteins, including gel staining protocol, pH range of immobilized pH gradient (IPG) strips and sample loading quantity. Results showed that a silver staining protocol using sensitized solution containing glacial acetic acid, sodium acetate and sodium thiosulfate (reported by Heukeshoven and Dernick in 1988) and a Coomassie Brilliant Blue staining method using solution containing G-250, ammonium sulfate and phosphoric acid (reported by Pink et al in 2010) demonstrated the superior staining effect. In addition, we also showed that higher resolution was achieved when IPG gel strip with pH range of 5-8 was used, compared to that with pH range of 4-7. Finally, the optimal loading quantity was determined as 130 μg using the 17 cm-long nonlinear IPG strip with pH 5-8 in combination with the silver nitrate staining protocol. The evaluated results would be helpful in proteome analysis of young rice caryopsis.     

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.     

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.     

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.     

Detection of low-molecular weight allergens resolved on two-dimensional electrophoresis with acid-urea polyacrylamide gel

Two-dimensional electrophoresis with immobilized pH gradient (IPG) followed by acetic acid/urea-polyacrylamide gel electrophoresis (AU-PAGE) was developed for the detection of low-molecular weight food allergens. Wheat proteins were used to test the applicability of AU-PAGE for the analysis of food allergens. Isoelectric focusing (IEF) for first dimension was performed with IPG pH 3-10. AU-PAGE was performed as a second-dimensional electrophoresis and high resolution was obtained, especially for proteins below 15 kDa. For immunodetection, the proteins resolved on AU gel were transferred to a polyvinylidene difluoride membrane. The assembly of semidry electroblotting for AU gel was set reversed as for sodium dodecyl sulfate (SDS)-PAGE gel. The electroblotted membrane was immunolabeled with serum from a radio-allergosorbent test-positive individual for wheat to identify allergenic proteins. Protein spots strongly recognized by the patient's serum were chosen for further analysis. Mass spectrometry analysis revealed that these proteins were alpha-amylase/trypsin inhibitors and lipid transfer protein. The system developed in this study was shown to be useful as a standard protocol for the separation of low-molecular weight proteins. Moreover, the IPG strips on which IEF was performed could be used either for SDS-PAGE or AU-PAGE by only changing equilibrating conditions, allowing for a wide range of allergen analysis.     

Preparative two-dimensional gel electrophoresis at alkaline pH using narrow range immobilized pH gradients

A reproducible high-resolution protein separation method is the basis for a successful differential proteome analysis. Of the techniques currently available, two-dimensional gel electrophoresis is most widely used, because of its robustness under various experimental conditions. With the introduction of narrow range immobilized pH gradient (IPG) strips (also referred to as ultra-zoom gels) in the first dimension, the depth of analysis, i.e. the number of proteins that can be resolved, has increased substantially. However, for poorly understood reasons isoelectric focusing on ultra-zoom gels in the alkaline region above pH 7 has suffered from problems with resolution and reproducibility. To tackle these difficulties we have optimized the separation of semipreparative amounts of proteins on alkaline IPG strips by focusing on two important phenomena: counteracting water transport during isoelectric focusing and migration of dithiothreitol (DTT) in alkaline pH gradients. The first problem was alleviated by the addition of glycerol and isopropanol to the focusing medium, leading to a significant improvement in the resolution above pH 7. Even better results were obtained by the introduction of excess of the reducing agent DTT at the cathode. With these adaptations together with an optimized composition of the IPG strip, separation efficiency in the pH 6.2-8.2 range is now comparable to the widely used acidic ultra-zoom gels. We further demonstrated the usefulness of these modifications up to pH 9.5, although further improvements are still needed in that range. Thus, by extending the range covered by conventional ultra-zoom gels, the depth of analysis of two-dimensional gel electrophoresis can be significantly increased, underlining the importance of this method in differential proteomics.     

High-resolution two-dimensional electrophoresis with isoelectric focusing in immobilized pH gradients

Due to the high reproducibility of pH gradient slope and width, immobilized pH gradients (IPG) have been used as the first dimension of two-dimensional techniques in order to generate maps of constant spot position in the $\text{p}\text{M}{}_{\mathrm{<mtext>r</mtext>}}$. However, when coupling IPG to SDS (sodium dodecyl sulphate) gels two problems were encountered: vertical streaking, due to incomplete zone solubilization in SDS, and horizontal streaking, due to spot fusion along the pH axis caused by the electroendosmosis of the charged Immobiline gels. Two methodical modifications are herewith described to overcome these drawbacks: (a) the SDS equilibrium time of the first-dimension gel has been prolonged to at least 30 min; (b) the SDS electrophoresis gel has been cast together with a starting gel, containing 2.5 mM of each Immobiline species used in the first dimension, which serves as a transition from the charged to the uncharged gel.     

New protein extraction/solubilization protocol for gel-based proteomics of rat (female) whole brain and brain regions

The rat is an accepted model for studying human psychiatric/neurological disorders. We provide a protocol for total soluble protein extraction using trichloroacetic acid/acetone (TCA/A) from rat (female) whole brain, 10 brain regions and the pituitary gland, and show that two-dimensional gel electrophoresis (2-DGE) using pre-cast immobilized pH (4-7) gradient (IPG) strip gels (13 cm) in the first dimension yields clean silver nitrate stained protein profiles. Though TCA/A precipitation may not be "ideal", the important choice here is the selection of an appropriate lysis buffer (LB) for solubilizing precipitated proteins. Our results reveal enrichment of protein spots by use of individual brain regions rather than whole brain, as well as the presence of differentially expressed spots in their proteomes. Thus individual brain regions provide improved protein coverage and are better suited for differential protein detection. Moreover, using a phosphoprotein-specific dye, in-gel detection of phosphoproteins was demonstrated. Representative high-resolution silver nitrate stained proteome profiles of rat whole brain total soluble protein are presented. Shortcomings apart (failure to separate membrane proteins), gel-based proteomics remains a viable option, and 2-DGE is the method of choice for generating high-resolution proteome maps of rat brain and brain regions.     

Identification and characterization of protein composition in Withania somnifera—an Indian ginseng

To have better understanding of the processes that occur in Withania somnifera L. Dunal, proteome analyses were initiated on two tissues (seeds & leaves) of this plant. Protein extracts were separated by two-dimensional gel electrophoresis (2-DE) across a broad 3.0?C10.0 immobilized pH gradient (IPG) strip that yielded 434 protein spots. A total of 167 individual spots (82 from seeds and 85 from leaves) were excised from the gel and were characterized by peptide mass fingerprinting. From these analyses, 70 individual proteins from seeds and 74 from leaves were identified by protein sequence database interrogation and were catalogued accordingly to different protein functions. A comparative analysis of the two tissues indicated that some enzymes/proteins involved in housekeeping pathways were common to both, whereas some were exclusively tissue specific with specialized metabolic complement. The knowledge gained by this study towards the tissue specific protein expression in W. somnifera would form the basis for our future endeavor of characterization of proteins to understand the physiology and the associated complex metabolic network during its ontogenetic development.     

Sometimes faster can be better: Microneedling IPG strips enables higher throughput for integrative top-down proteomics

Passive rehydration of immobilized pH gradient (IPG) strips for two-dimensional gel electrophoresis (2DE) has, to our knowledge, never been quantitatively evaluated to determine an ideal rehydration time. Seeking to increase throughput without sacrificing analytical rigor, we report that a substantially shorter rehydration time is accomplished when surface area of IPG strips is increased via microneedling. Rehydration for 4 h, post microneedling, provides comparable results to overnight rehydration in final analyses by 2DE, while also shortening the overall protocol by 1 day.     

pH measurements in ultranarrow immobilized pH gradients

It is possible to measure pH values in immobilized pH gradients (IPG) when the polyacrylamide matrix is made to contain an additional, carrier ampholyte-generated pH gradient. After an IPG run, 5 mm gel segments, along the separation axis, are cut and eluted in 300 microliter of 10 mM KCl and the pH read with a standard pH meter. When using ultranarrow pH gradients, larger gel segments (ca. 265 microliter) are eluted in 900 microliter of 100 mM KCl and the pH assessed with a differential pH meter. In the latter case, either internal or external standards are used as a reference, or starting point, to convert delta pH values into an actual pH curve. The reproducibility of the system is better than +/- 0.05 pH units, with a ca. 15% error over a 0.3 pH unit span. In ultranarrow pH gradients, it is imperative to use mixtures of all commercially available carrier ampholytes, so as to smoothen conductivity and buffering capacity gaps. By the present method, it is also possible to convert a wide (2-3 pH unit) carrier ampholyte interval into a narrow (0.2-0.3 pH unit) one.     

黄瓜悬浮细胞蛋白质组双向电泳分析技术

为建立适于黄瓜悬浮细胞蛋白质组分析的双向电泳体系,对黄瓜悬浮细胞蛋白质双向电泳分析所采用的胶条pH范围、样品制备方法、裂解液配方及分离胶浓度等参数进行研究。结果表明,采用pH范围为4～7的IPG胶条,直接裂解后丙酮沉淀法制备黄瓜悬浮细胞蛋白质,裂解液为8mol/L尿素、2mol/L硫脲、2%IPG Buffer、4%CHAPS、1%TBP、65mmol/L DTT、2mmol/L EDTA、0.001%溴酚蓝和1%鸡尾酒,分离胶浓度为11%,可获得蛋白质点分离清晰的双向电泳图谱。     

枸杞花药蛋白质组双向电泳体系的建立及应用

采用改良TCA丙酮沉淀结合Tris-HCl法提取枸杞花药蛋白质,对蛋白质裂解液成分、IPG胶条的pH范围、上样量及染色方法进行了探索.结果表明:(1)采用17 cm胶条、400 μg的上样量、含有2 mol/L硫脲的裂解液,硝酸银染色,可得到重复性好、质量高的枸杞花药蛋白2-DE图谱,枸杞花药蛋白主要集中在pH 4～7范围.(2)采用该体系分析了‘宁杞1号’和‘宁杞5号’四分体时期花药蛋白,并利用PDQuest 8.0软件在pH 4～7的2DE图谱上检测到500多个蛋白点,其中差异表达量大于2倍的蛋白有25个.     

Influence of gel dimensions on resolution and sample throughput on two-dimensional gels

To achieve high throughput and economical format of 2-D PAGE, comparison between gel size and resolution was conducted on human breast carcinoma cell line (MCF-7/AZ) proteins. SDS gel length showed a weaker influence of separation length on resolution in the second dimension, and there was little benefit of separation distances greater than 15 to 19 cm. IPG strip separation distances were very important with dramatic increase in resolution of longer gels compared with smaller gels, and maximal resolution was obtained using 18- and 24-cm IPG strips. Loading optimal amount of proteins on 2-D gels can also increase the number of detected spots. Therefore, taken together, compromise 2-D gels are crucial for higher capacity and higher throughput.     

Development of narrow immobilized pH gradients covering one pH unit for human seminal plasma proteomic analysis

Micropreparatively loaded two-dimensional (2-D) electrophoresis gels were used to identify human seminal plasma polypeptides by using narrow immobilized pH gradients (IPGs) covering one pH unit as first dimension. This investigation was restricted to IPG 4.5-5.5 and 5-6 because of the main spot distribution in the acidic part of the 2-D map performed with IPG 3-10, a zone presumed to be rich in spermatogenic markers. Both highly expressed and minor spots of the 2-D map were analyzed by matrix-assisted laser desorption/ionization mass spectrometry and tandem mass spectroscopy analysis. Identification was obtained by a combination of mass spectrometry and database searching. Identified proteins were of different origin from the male genital tract and some proteolysis was observed. They appeared as either isolated molecules or isoforms. At the analytical level, narrow IPGs allowed a two-fold increase in the number of spots, improved resolution of minor spots particularly in surrounding of highly expressed spots and sensitivity level. Some of these faint spots were differently expressed in azoospermic patients as compared to normospermic men. Therefore, zooming-in on the proteome of human seminal plasma allowed more accurate differential expression analysis of impaired spermatogenesis associated markers.     

天麻蛋白质的双向电泳和肽质量指纹谱分析与鉴定

采用双向聚丙烯酰胺凝胶电泳和质谱技术对天麻染菌球茎皮层和不染菌的新生球茎皮层进行了比较蛋白质组分析与鉴定。双向电泳后在分子量 1 2～97kD、等电点 3～ 1 0范围内 ,每块胶分离到约 90 0个蛋白质点。对新生球茎中表达量明显增加的 5个蛋白质点用基质辅助激光解吸 电离飞行时间质谱 (MALDI TOFMS)进行肽质量指纹谱的分析 ,并通过检索不同的数据库进行蛋白质鉴定与功能预测 ,初步认为第 4号蛋白点是一个与转录有关的RNA结合蛋白。同时本文在天麻蛋白质组样品制备、数据库检索策略以及蛋白质鉴定成功率等方面进行了探讨。     

High-sensitivity analysis of human plasma proteome by immobilized isoelectric focusing fractionation coupled to mass spectrometry identification

Immobilized pH gradients isoelectric focusing (IPG-IEF) is the first dimension typically used in two-dimensional gel electrophoresis (2-DE). It can also be used on its own in conjunction with tandem mass spectrometry (MS/MS) for the analysis of proteins. Here, we described a strategy combining isoelectric focusing in immobilized pH gradient strips, and mass spectrometry to create a new high-throughput and sensitive detection method. Protein mixture is separated by in-gel IEF, then the entire strip is cut into a set of gel sections. Proteins in each gel section are digested with trypsin, and the resulted peptides are subjected to reversed-phase high performance liquid chromatography followed by electrospray-linear ion-trap tandem mass analysis. Using this optimized strategy, we have identified 744 distinct human proteins from an IPG strip loaded only 300 microg of plasma proteins. When compared with other works in published literatures, this study offered a more convenient and sensitive method from gel to mass spectrometry for the separation and identification proteins of complex biological samples.     

Isoelectric focusing in immobilized pH gradients of a snake venom fibrinolytic enzyme

A fibrinolytic enzyme with a molecular weight between 23,000 and 25,000 Da has been purified from southern copperhead snake venom. Immobilized pH gradient isoelectric focusing with an ultranarrow pH interval (pH 6.65-6.95) resolved two isoforms of the fibrinolytic enzyme that were not resolved by standard isoelectric focusing. Attempts at purification of the individual isoenzymes by semi-preparative scale IPG and elution of enzyme by macerating the gel yielded only 20-40% recovery of activity. In attempts to improve recovery, a semi-preparative IPG canal-isoelectric focusing technique has been utilized.