油松雌性不育系球果蛋白质双向电泳技术的建立

本文建立了油松雌性不育系雌球果蛋白质组研究中的双向电泳技术.第一向采用固定pH值梯度(IPG)胶条在IPGphorTM等电聚焦仪上进行等电聚焦,第二向在恒功率且恒温条件下于Ettan-DALTTMⅡ高通量电泳仪上进行SDS-PAGE电泳,以银染和考马斯亮蓝两种方法染色.通过对全蛋白的提取、胶条pH值和胶条肿胀等技术环节的优化和比较,得到了重复性很高,分离效果良好的蛋白质双向图谱.     

山茶叶片可溶性蛋白双向电泳技术的建立

建立了山茶低温诱导蛋白研究中叶片蛋白双向电泳技术体系.采用固相pH胶条在IPGphor TM等电聚焦系统上进行等电聚焦,在Ettan TM Dalt Ⅱ高通量电泳仪上进行SDS-PAGE电泳,以银染法染色,得到了分离效果良好的蛋白质双向电泳图谱.讨论了蛋白沉降方法、蛋白提取液的组成及其他技术环节对蛋白图谱的影响.     

粘虫中肠总蛋白质双向电泳体系的优化方法

为了今后更好的利用双向电泳技术研究不同处理后粘虫Mythimna separata中肠蛋白表达差异,本研究比较了不同的蛋白提取方法、IPG胶条、二硫苏糖醇(DTT)浓度和等电聚焦条件,建立了适用于粘虫中肠总蛋白质的双向电泳体系。结果表明:采用Tris-饱和酚法提取蛋白质,选取p H为5-8的线性IPG胶条进行第一向等电点分离,按照DTT浓度I和等电聚焦程序II进行双向电泳分离,获得了蛋白质点数多、背景清晰、分辨率高的蛋白质双向电泳图谱。     

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。     

果实蛋白质组学研究的实验方法

双向电泳技术是蛋白质组学研究的基本方法之一。果实由于富含糖、多酚、单宁和有机酸等物质,蛋白质的提取比其它植物组织更加困难。本文主要介绍不同果实蛋白质的提取、等电聚焦系统和凝胶染色技术,并建立了一套适用于桃、樱桃、苹果、芒果和冬枣等多种果实蛋白质组学的研究方法。结果表明,采用匀浆法和酚抽提法提取果实的蛋白质,裂解缓冲液2溶解蛋白质,并用固相pH梯度进行等电聚焦,可以获得背景清晰和分辨率高的凝胶图谱,具有较好的重复性,可用于果实蛋白质组学的研究。我们的研究结果显示,固相干胶条与IEF管胶相比,具有更加明显的优势。而不同的染色方法,对结果影响不大。     

黄瓜子叶节的蛋白质组双向电泳条件的优化

对黄瓜离体子叶节的蛋白质双向电泳的条件进行优化的结果表明:黄瓜子叶节蛋白质主要分布在pH4～7范围,用酚抽提法制备蛋白质干粉,第一向等电聚焦固相pH梯度胶条(24 cm)的最适蛋白上样量为1 2001μg,第二向SDS-PAGE采用11.5%的分离胶,可以得到1100多个蛋白点.     

果实蛋白质组学研究的实验方法

双向电泳技术是蛋白质组学研究的基本方法之一。果实由于富含糖、多酚、单宁和有机酸等物质,蛋白质的提取比其它植物组织更加困难。本文主要介绍不同果实蛋白质的提取、等电聚焦系统和凝胶染色技术,并建立了一套适用于桃、樱桃、苹果、芒果和冬枣等多种果实蛋白质组学的研究方法。结果表明,采用匀浆法和酚抽提法提取果实的蛋白质,裂解缓冲液2溶解蛋白质,并用固相pH梯度进行等电聚焦,可以获得背景清晰和分辨率高的凝胶图谱,具有较好的重复性,可用于果实蛋白质组学的研究。我们的研究结果显示,固相干胶条与IEF管胶相比,具有更加明显的优势。而不同的染色方法,对结果影响不大。     

四倍体刺槐枝条韧皮部总蛋白质双向电泳体系建立及应用

采用TCA/丙酮法对四倍体刺槐枝段韧皮部全蛋白质进行提取,通过对IPG胶条pH梯度、分离胶浓度的选择,上样量、等电聚焦条件的优化,建立起四倍体刺槐枝段韧皮部蛋白质双向电泳体系。研究结果表明:采用TCA/丙酮法提取四倍体刺槐枝段韧皮部全蛋白质,选用pH4-7的17 cm IPG胶条,考马斯亮蓝染色上样量550μg,等电聚焦IEF聚焦总伏小时数从60 000 Vh提高到80 000 Vh,并采用12%的分离胶对四倍体刺槐枝段韧皮部全蛋白进行双向电泳,能得到背景清晰、蛋白质点数相对较多,分离度高且重复性好的电泳图谱。利用建立的体系进行双向电泳分离蛋白质,能直接挖点送质谱分析。采用该体系分析四倍体刺槐硬枝扦插生根愈伤组织阶段蛋白质表达差异,共筛选出83个差异蛋白质点,其中上调蛋白15个,新产生蛋白22个,下调蛋白22个,缺失表达24个。     

双向电泳技术应用于消化道粘膜组织并优化

目的：初步建立并优化了组织蛋白质组分析所需的双向电泳技术;提高其分辨率及重复性。方法：以小鼠肠组织为例,并以固相pH梯度为第一向的双向电泳的关键因素与环节;如样品处理,上样量,电泳参数,凝胶浓度和SDS凝胶电泳染色方法等进行一系列的优化。结果与结论：以固相pH梯度-IPC胶条（pH3～10）进行第一向等电聚焦;以SDS均一胶（13%）的垂直电泳为第二向,成功地得到了肠组织的双向电泳图谱。     

中枢神经蛋白质组分析中双向电泳技术的建立

建立和优化了中枢神经组织蛋白质组分析所需的双向电泳及相关技术.由于中枢神经组织结构的特殊性,样品处理非常困难.对样品液组成、样品处理、上样方式、上样量、IPG胶条和SDS-聚丙烯酰胺凝胶电泳染色方法和保存等相关技术进行了比较研究和条件优化后,以固相pH梯度等电聚焦为第一向和SDS均一胶（T=12.5%）的水平电泳为第二向,成功地得到了神经组织双向电泳图谱.     

水稻花药总蛋白质双向电泳方法的改良与优化(简报)

双向电泳作为蛋白质组学核心技术之一,目前已广泛地应用在植物领域,并且成功应用于水稻代谢和调节等方面的研究。谢锦云等利用溶液法提取温敏核不育水稻花药总蛋白质,利用pH3-10线性胶条分离,经银染显色后检测到约1,000个     

Improvement of two-dimensional gel electrophoresis proteome maps of the haloarchaeon Haloferax volcanii

Proteins of haloarchaea are remarkably unstable in low-ionic-strength solvents and tend to aggregate under standard two-dimensional (2-D) gel electrophoresis conditions, causing strong horizontal streaking. We have developed a new approach to generate 2-D maps of halophilic proteins which included washing cells with 1.5 M Tris-HCl buffer. In addition, proteins were precipitated with acetone, solubilized with urea and thiourea in the presence of the sulfobetaine detergent 3-[(3-cholamidopropyl)dimethylamino]-1-propanesulfonate (CHAPS), reduced with tributylphosphine (TBP), and separated with microrange strips of immobilized pH gradients (pH 3.9-5.1). This combination enabled the construction of highly reproducible 2-D maps of Haloferax volcanii proteins.     

Detection of fluorescence dye-labeled proteins in 2-D gels using an Arthur 1442 Multiwavelength Fluoroimager

Labeling of proteins with SYPRO Orange, SYPRO Red, and SYPRO Ruby after 2-D polyacrylamide gel electrophoresis (PAGE) using plastic-backed immobilized pH gradient (IPG) strips and precast SDS polyacrylamide gels was tested. Protein spots were detected using an Arthur 1442 Multiwavelength Fluoroimager. The labeling methods described allow detection of proteins both after isoelectric focusing (IEF) and PAGE with a sensitivity higher than or comparable to standard silver staining methods. In addition to the post-labeling methods mentioned above, pre-labeling with the cysteine-specific fluorophore monobromobimane before 2-D PAGE is a sensitive, fast, and cost-effective alternative to existing staining protocols.     

Comparative 2-DE protein analysis in a 3-D geometry gel

Two-dimensional gel electrophoresis (2-DE) separation has not been considered suitable for large-scale comparative protein expression studies due to its limited throughput. We present a high-throughput analysis method based on three-dimensional (3-D) geometry gel electrophoresis. Following conventional isoelectric focusing (IEF), up to 36 immobilized pH gradient (IPG) strips are arrayed on the top surface of a 3-D gel body, and the samples transferred electrokinetically to the gel. A specific thermal management ensures that sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) occurs under identical electrophoretic and thermal conditions, avoiding gel-to-gel variations and thereby providing immediate comparability of the separation patterns. Proteins are Cy3-labeled for online detection of laser-induced fluorescence (LIF). Images are acquired by a digital camera and recorded as a 3-D image stack during electrophoresis. Image processing software decomposes the 3-D image stack into vertical sections representing conventional 2-DE slab gels, making results immediately accessible without further gel processing. The large number of simultaneously analyzed samples (n = 36) allows treating the sample index as a quasi-continuous experimental parameter (e.g., concentration, time, dose). The method offers a wide range of applications in molecular discovery, clinical diagnosis, pharmacology, and toxicology, like protein monitoring during disease development and screening of drug candidates for their effect on protein expression.     

双向电泳分析鸢尾绿白嵌合叶片的蛋白质

利用双向聚丙烯酰胺凝胶电泳对鸢尾（Iris japonica)绿白嵌合叶片的蛋白质进行分离,并初步鉴定了蛋白质的相对分子量和等电点。每个电泳图谱共检测到400余个蛋白点,其中至少13个蛋白的表达变化明显;结果表明,嵌合叶片的绿色与白色叶组织具有明显不同的蛋白质双向电泳图谱。与数据库中拟南芥双向电泳图谱相比较,发现Rubisco大亚基,标记为W和T蛋白的表达变化与产生绿白嵌合叶片的表型密切相关。     

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.     

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.     

Sample prefractionation with Sephadex isoelectric focusing prior to narrow pH range two-dimensional gels

Due to their heterogeneity and huge differences in abundance, the detection and identification of all proteins expressed in eukaryotic cells and tissues is a major challenge in proteome analysis. Currently the most promising approaches are sample prefractionation procedures prior to narrow pH range two-dimensional gel electrophoresis (IPG-Dalt) to reduce the complexity of the sample and to enrich for low abundance proteins. We recently developed a simple, cheap and rapid sample prefractionation procedure based on flat-bed isoelectric focusing (IEF) in granulated gels. Complex sample mixtures are prefractionated in Sephadex gels containing urea, zwitterionic detergents, dithiothreitol and carrier ampholytes. After IEF, up to ten gel fractions alongside the pH gradient are removed with a spatula and directly applied onto the surface of the corresponding narrow pH range immobilized pH gradient (IPG) strips as first dimension of two-dimensional (2-D) gel electrophoresis. The major advantages of this technology are the highly efficient electrophoretic transfer of the prefractionated proteins from the Sephadex IEF fraction into the IPG strip without any sample dilution, and the full compatibility with subsequent IPG-IEF, since the prefactionated samples are not eluted, concentrated or desalted, nor does the amount of the carrier ampholytes in the Sephadex fraction interfere with subsequent IPG-IEF. Prefractionation allows loading of higher protein amounts within the separation range applied to 2-D gels and facilitates the detection of less abundant proteins. Also, this system is highly flexibile, since it allows small scale and large scale runs, and separation of different samples at the same time. In the current study, this technology has been successfully applied for prefractionation of mouse liver proteins prior to narrow pH range IPG-Dalt.     

Proteome analysis of Streptococcus suis serotype 2

Outbreaks in humans, caused by Streptococcus suis serotype 2 (SS2), were reported in 1998 and 2005 in China. However, the mechanism of SS2-associated infection remains unclear. For the first time, a 2-D gel approach combined with MS was used to establish a comprehensive 2-D reference map for aiding our understanding of the pathogenicity of SS2. The identification of 694 out of 834 processed spots revealed 373 proteins. Most of the identified proteins were located in the cytoplasm and were involved in energy metabolism, protein synthesis, and cellular processes. Proteins that were abundant in the 2-DE gels could be linked mainly to housekeeping functions in carbohydrate metabolism, protein quality control and translation. 2-DE of secretory proteins was performed using IPG strips of pH 4-7. Among the 102 protein spots processed, 87 spots representing 77 proteins were successfully identified. Some virulence-associated proteins of SS2 were found, including arginine deiminase, ornithine carbamoyl-transferase, carbamate kinase, muramidase-released protein precursor, extracellular factor, and suilysin. Enolase and endopeptidase have been proposed as putative virulence-associated factors in this study. The 2-D reference map might provide a powerful tool for analyzing the virulence factor and the regulatory network involved in the pathogenicity of this microorganism.     

pH-dependent protein profiles of Helicobacter pylori analyzed by two-dimensional gels

Background. Helicobacter pylori survives transient exposure to extreme acid prior to adherence and growth on the gastric epithelium at neutral pH.
Materials and Methods. The effect of pH stress on protein profiles of H. pylori was observed using two-dimensional gel electrophoresis (2-D gels). H. pylori 26695 was grown microaerobically in tryptone-yeast extract broth, 3% fetal bovine serum. Growth in acid alkalinized the medium, whereas growth in base caused acidification. For 2-D gel analysis of protein profiles, cultures were grown in media buffered at pH 5.7 and at pH 7.5.
Results. Under all pH conditions, the most abundant proteins observed were the urease structural subunit UreB and the chaperonin GroEL. Growth in acid significantly increased the abundance of UreB. Thus, urease expression is not completely constitutive, as reported previously, but shows regulation by pH. Another protein observed only at low pH was identified as mammalian apolipoprotein A-I, possibly taken up by H. pylori from bovine serum in the growth medium. This finding, if confirmed, suggests that uptake of high-density lipoprotein from the human host may facilitate acquisition of cholesterol, required for formation of the unique cholesteryl glucosides in the membrane of H. pylori. In growth above pH 7, three stress proteins were induced: GroES (HspA), GroEL (HspB), and the antioxidant AhpC homolog TsaA. In addition, N-terminal sequence analysis identified five additional proteins that had not previously been reported on 2-D gels of H. pylori (FMN, SodB, TrxB, TsaA, and Tsr).
Conclusions. In summary, our 2-D gel study reveals expression of several proteins dependent on growth pH.