一种改进的双向电泳染色方法

本文涉及了双向电泳过程中的染色方法,即先用考马斯亮蓝染色,将胶上可见蛋白切下再银染的方法。这种方法可最大限度的减少胶中蛋白质点的损失,不仅避免了单一用考马斯亮蓝染色由于灵敏度不高而导致的低丰度蛋白的损失,也避免了单一用银染而使高丰度的蛋白因染色过度导致的损失。同时两种传统的染色方法结合完美,形成的新方法经济实用。     

Staining properties of bovine low molecular weight hydrophobic surfactant proteins after polyacrylamide gel electrophoresis.

Reports describing polyacrylamide gel electrophoresis patterns of bovine hydrophobic surfactant proteins are not consistent. In this study, we found unusual staining characteristics of these proteins that may explain some of these inconsistencies. Low molecular weight surfactant proteins extracted from bronchoalveolar lavage with organic solvent are partially delipidated with Sephadex LH-20 chromatography using chloroform and methanol. Fractions from the first protein peak are dried under nitrogen then subjected to SDS electrophoresis on 20% polyacrylamide gels. Under nonreducing conditions, silver staining identifies 5- and 26-kDa bands, and Coomassie blue identifies 6-, 12-, and 26-kDa bands. When gels are stained with Coomassie blue then silver, the 5- and 26-kDa bands stain with silver and 6- and 12-kDa bands remain stained with Coomassie blue. If gels are first stained with silver then Coomassie blue, similar results occur. We modified the silver staining protocol by treating gels with dithiothreitol or 2-mercaptoethanol after electrophoresis. With this modification, 5-, 6-, 12-, 26-, and also 17-kDa bands are identifiable. Using the modified protocol and restaining gels previously stained with silver, 6-, 12-, and 17-kDa bands that were not identified previously all became visible. In further experiments, protein bands of 6-, 12-, and 26-kDa that were identified by Coomassie blue were electroeluted under nonreducing conditions. After electrophoresis of the eluted 26-kDa protein, bands of 17-, and 26-kDa under nonreducing, and 8-kDa only under reducing conditions, were apparent by using the modified silver protocol.(ABSTRACT TRUNCATED AT 250 WORDS)     

A quantitative determination of the relative amount of histones in polyacrylamide gel by silver stain

On the basis of scanning densitometry of the stained gel, the conditions for the quantitative determination of individual histones by silver was examined and compared with the dye-staining method, in terms of higher sensitivity and faithful quantitation. Fixation with formaldehyde, coupled with simultaneous prestaining with Coomassie brilliant blue (CBB), was found to be most suitable. Prior fixation in acidic alcohol alone failed to stain the histones accurately, but this failure could be partly alleviated by prestaining with CBB. Although the sensitivity for detecting histones by silver staining is lower than that for neutral proteins by about 10-fold, it is at least 10-fold higher than the CBB stain.     

Proteomic analysis of human biopsy samples by single two-dimensional electrophoresis: Coomassie,silver, mass spectrometry,and Western blotting

Proteomic analysis of myocardial tissue from patient populations is critical to our understanding of cardiac disease, but has been limited until now by the small size of biopsies (approximately 20-50 microg), and complicated by the difference in relative abundance of contractile proteins over other cellular components. Here we describe an approach to analysis of myocardial biopsies from patients undergoing coronary artery bypass surgery. First, individual biopsies are selectively extracted, producing subfractions that correspond to the contractile proteins and the cytosolic proteins. Two-dimensional electrophoresis separated proteins are detected by first staining with Coomassie blue then silver, to permit a wider range of accurate quantification. Western blotting of two-dimensional separated samples, to validate peptide mass fingerprinting data, previously required additional gel separations for transfer since staining protocols are not compatible with transfer to membranes or immunoblotting. An existing silver destaining protocol was adapted to allow removal of silver from a whole gel, followed by transfer and Western blotting. An existing Coomassie blue removal protocol was also adapted to permit Western blotting of gels stained with Coomassie blue and silver. Together, these techniques permit peptide mass fingerprinting concurrent with Western blotting of a single protein spot from a single biopsy, eliminating the need for repeated gel separations, and improving spot alignment between immunoblots and stained gels. In the end, this approach may allow a more complete characterization of protein changes in small human biopsies, and also reduce the number of repeated gel separations necessary for a standard proteomic analysis.     

Eosin Y staining of proteins in polyacrylamide gels.

A staining method is described in which various proteins in polyacrylamide gels can be stained by using eosin Y. After a brief incubation of a polyacrylamide gel in an acidic solution of 1% eosin Y, various proteins, including human erythrocyte membrane sialoglycoproteins which are not detectable by Coomassie blue R-250 (CB), can be detected with a sensitivity of 10 ng protein. This is far more sensitive than CB staining and is comparable to the sensitivity of silver staining. In a Western blot, the antigenicity of an eosin Y stained protein is retained. In addition, proteins on an immunoblot sheet can be detected by eosin Y staining. The method described is rapid, sensitive, and reproducible with various proteins in polyacrylamide gels and has the added advantage of also staining sialoglycoproteins.     

Two-dimensional gel electrophoretic resolution of the polypeptides of rat liver mitochondria and the outer membrane

The proteins of highly purified rat liver mitochondria were resolved by two-dimensional polyacrylamide gel electrophoresis, and detected by staining with either Coomassie blue or silver. Approximately 250 polypeptides were detected with silver staining which is 2- to 3-times that observed with Coomassie blue. Silver staining was especially more effective than Coomassie blue for detecting polypeptides of less than 50 000 daltons. A two-dimensional gel pattern of rat liver microsomes was distinct from that of the mitochondria. The mitochondrial outer membrane was prepared from purified mitochondria either with digitonin or by swelling in a hypotonic medium. As assessed by marker enzymes, the latter method yielded a considerably purer outer membrane preparation (20-fold purification) than the former (2.6-fold purification). Approximately 50 polypeptides were observed in a two-dimensional gel (pH 3-10) of the highly purified outer membrane fraction. Three isoelectric forms of the pore (VDAC) protein were observed with pI values of 8.2, 7.8 and 7.1. Monoamine oxidase was identified as a polypeptide of Mr 60 000. About 50 polypeptides were also resolved in a reverse polarity non-equilibrium pH gradient electrophoresis gel of the outer membrane, pH 3-10, with at least six isoelectric forms of the VDAC protein observed under these conditions. The six isoforms of the VDAC protein were also observed in a non-equilibrium gel with 2 micrograms of the purified protein.     

Analysis of differences between coomassie blue stain and silver stain procedures in polyacrylamide gels: conditions for the detection of calmodulin and troponin C

It is reported that the conditions used in some silver stain procedures can fail to detect calmodulin, troponin C, and other proteins with similar physical properties. Conditions are described that allow the reproducible detection of these proteins. Two phenomena are described: (1) lack of protein staining when treatment with glutaraldehyde is omitted from the protocol, and (2) loss of small proteins from the gel matrix during prolonged washing procedures. These data directly demonstrate that the use of some silver staining protocols can result in misleading data in biological studies and provide an explanation for at least one class of proteins of how silver staining and Coomassie blue staining of gels can give different results.     

Isolation of lumenal proteins from spinach thylakoid membranes by triton X-114 phase partitioning

The proteins present in the thylakoid lumen of higher plant chloroplasts have not been rigorously examined. In this communication we present a simple and rapid procedure for the isolation of the soluble proteins and extrinsic membrane proteins present in the thylakoid lumen from spinach. Our procedure involves extensive washing of the thylakoid membranes followed by Triton X-114 phase partitioning. When analyzed by one-dimensional polyacrylamide gel electrophoresis (PAGE), we obtain results which are very similar to those obtained by Kieselbach et al. using more classical methods [T. Kieselbach, A. Hagman, B. Andersson, W.P. Schroder, J. Biol. Chem. 273 (1998) 6710-6716]. About 25 major proteins are observed upon Coomassie blue staining. Upon two-dimensional isoelectric focusing-sodium dodecyl sulfate-PAGE and either Coomassie blue or silver staining, however, numerous other protein components are resolved. Our findings indicate that the total number of proteins (soluble and extrinsic membrane) present in the lumen may exceed 150.     

Identification and characterization of sex-linked proteins of Schistosoma mansoni.

The proteins of adults worms (male and female) of two isolates (BH and RJ) of Schistosoma mansoni were extracted using Triton X-114 phase separation. The SDS-polyacrilamide gel electrophoresis profiles of the three phases (detergent, aqueous and insoluble proteins) obtained were compared after Coomassie blue and silver staining, surface radioiodination and Western blotting. No major differences were detected between the 2 isolates. Of the 25 or more proteins which partitioned into the detergent phase, only about 8 proteins could be surface radiodinated on live adult worms. A comparison was also made between the profiles of male and females worms, isolated from bisexually infected mice. Two major female-specific and one male-specific band were detected by silver and/or Coomassie staining. The female bands, 32 KDa and 18 KDa, partitioned into the detergent and aqueous phase, respectively. The male-specific band of 42 KDa remained in the insoluble phase. Antigenic differences between male and females proteins were detected by Western blotting using a sera from infected Nectomys squamipes.     

Sensitive, quantitative, and fast modifications for Coomassie Blue staining of polyacrylamide gels

In spite of the high sensitivity of silver staining and the wide dynamic range of various fluorescent detection methods, Coomassie Brilliant Blue staining is still the most widely used protein detection technique for proteins separated by polyacrylamide gel electrophoresis. There are several reasons: Low price, Visible with the eye, Desk top scanners can be employed for image acquisition, Better for quantitative analysis than silver staining, Possible modifications for fast or highly sensitive staining, Mass spectrometry compatible.     

Imidazole-SDS-Zn reverse staining of proteins in gels containing or not SDS and microsequence of individual unmodified electroblotted proteins.

A reverse staining procedure is described for the detection of proteins in acrylamide and agarose gels with and without SDS. Protein detection occurs a few minutes after electrophoresis. The sensitivity on acrylamide gels is higher than that of Coomassie blue staining either on acrylamide gels or on electrotransferred membranes. Sequencing of protein bands only detected by reverse staining on the gel and not by Coomassie blue is demonstrated.     

Silver stain for proteins on a cellulose acetate membrane

A rapid and sensitive silver staining method to detect proteins on a cellulose acetate membrane has been established. This method is achieved by modification of the silver-based color staining for detection of proteins in polyacrylamide gels [D. W. Sammons, L. D. Adams, and E. E. Nishizawa, Electrophoresis 2, 135-141 (1981)] and applied to our new type of two-dimensional electrophoresis for analysis of proteins on a cellulose acetate sheet [T. Toda, T. Fujita, and M. Ohashi, Anal. Biochem. 119, 167-176 (1982)]. Maximal sensitivity of silver stain for proteins on a cellulose acetate membrane can be obtained by an optimal balance between deposition of silver on the protein and on the background. Certain kinds of proteins are colored red, orange, or grayish-blue. The silver stain is 20-80 times more sensitive than Coomassie blue and some spots are visualized reproducibly by silver only. Densitometric evaluation of standard proteins stained with silver and Coomassie blue is also demonstrated. The method takes only 50 min to perform and is sensitive, simple, and reproducible.     

Enhanced thiosulfate-silver staining of proteins in gels using Coomassie Blue and chromium

Potassium chromium sulfate, a new sensitivity enhancer for silver staining of proteins in gels, enhanced the sensitivity of the thiosulfate-silver staining method. The sensitivity could be further improved when potassium chromium sulfate was used in association with another sensitivity enhancer, Coomassie Brilliant Blue R-250 (CBB R-250). The sensitivity of the CBB-chromium modified method to strongly basic proteins such as ribosomal proteins was about 20-fold over that of the published method. This novel method has direct applicability for 2-D gel electrophoresis used in proteomics.     

Advantages and disadvantages of silver staining of proteins in polyacrylamide gel

Sensitivity of protein staining with Serva blue G-250 (Coomassie brilliant blue G-250 analogue) in polyacrylamide gel was determined. It has been shown that protein staining with 0.1% Serva blue G-250 results in the recovery of 80 to 35 ng of single protein, that is almost 10 times higher than reported previously for Coomassie brill. blue G-250 (or R-250) staining. The comparison of the sensitivity of Serva blue G-250 protein staining in PAAG and AgNO3 has shown that AgNO3 staining was approximately 18-30 (but not 100 times, as it had been thought before) times more effective for the majority of proteins under study. Silver staining of some proteins, for instance ribonuclease and a number of retrovirus-specific structural proteins, was of lower efficacy. Thus, to obtain reliable results protein electrophoresis in PAAG should be followed by both staining procedures.     

检测聚丙烯酰胺凝胶中蛋白质的3种染色方法比较

用考马斯亮蓝染色、银染色、铜染色等 3种方法对同一种蛋白质染色的灵敏度、快速性进行比较 ,得出 3种蛋白质染色方法的优缺点 ,为蛋白质电泳染色合理选用不同方法提供依据     

Preparation of colloidal gold for staining proteins electrotransferred onto nitrocellulose membranes

This paper describes a simple method of preparing colloidal gold for staining protein blots. Colloidal gold was prepared from 0.005 or 0.01% HAuCl4 by the addition of formalin as a reductant and potassium hydroxide. Staining of small cell carcinoma tissue extract blotted onto nitrocellulose membranes with this colloidal gold solution resulted in the appearance of a large number of clear wine-red bands. The sensitivity of gold staining was 60 times higher than that of Coomassie brilliant blue staining and almost comparable to that of silver staining of proteins in polyacrylamide gel. The sensitivity of this method was also satisfactory in comparison with that of enzyme immunoblotting. The colloidal gold prepared by this method is usable for routine work.     

Oven-drying method for polyacrylamide gel slab packed in cellophane sandwich

Polyacrylamide gel slabs can be dried quickly without elaborate tools and the results are similar or even better than those obtained with a commercial drying apparatus. The discontinuous, sodium dodecyl sulfate, and gradient polyacrylamide gel slabs yielded similar results regardless of the staining methods, e.g., Coomassie blue, periodate-Schiff's reagent, or ammoniacal silver.     

Regeneration of enzymatic activity after sodium dodecyl sulfate/polyacrylamide gel electrophoresis and zinc acetate staining: the example of inositol 1,4,5-trisphosphate 5-phosphatase.

Regeneration of enzyme activity after sodium dodecyl sulfate-gel electrophoresis was investigated with a purified inositol 1,4,5-trisphosphate 5-phosphatase. In order to avoid silver or Coomassie blue staining, we have used zinc acetate. This staining procedure was sensitive, rapid, and reversible provided that zinc cations are chelated and activity is extracted after diffusion out of the gel. The method allows some gel lane staining and identification of the enzyme based on catalytic activity.     

An Update on Protein Stains: Amido Black,Coomassie Blue G,and Coomassie Blue R

Samples of amido black, Coomassie blue G, and Coomassie blue R obtained over a number of years were tested for dye content, impurities, and effectiveness for staining proteins after polyacrylamide gel electrophoresis and for protein dye-binding assays. Some impurities produced reactions resembling metachromasia with specific proteins, although instances of true metachromatic staining are also reported. Several simple assays are given for determining dye content and relative levels of impurities. Recommendations are made for selecting batches of commercial dyes which are most likely to perform satisfactorily.     

Isolation of a component from commercial coomassie brilliant blue R-250 that stains rubrophilin and other proteins red on polyacrylamide gels

Commercially available Coomassie Brilliant Blue R-250 (C.I. 42660) is a popular and useful dye that stains most proteins blue on polyacrylamide gels. Some proteins from brain (rubrophilin), collagens, histones and parotid gland proteins are distinctly red when stained with Coomassie Blue. Commonly used Coomassie Brilliant Blue R-250 preparations may contain more than 30 distinct colored and fluorescent components that can be separated on silica gel chromatographic columns. A specific component has been isolated on silica gel columns that stains rubrophilin and other proline-rich proteins a reddish color. Fast atom bombardment mass spectrometry of the isolated rubrophilin staining principle indicates a molecular weight of 634 as compared to 826 for the major dye in the original Coomassie Brilliant Blue R-250. Infrared spectrometry is consistent with a difference between the rubrophilin staining principle and Coomassie Brilliant Blue R-250 of a toluene sulfonic acid residue.