Quantitation of submicrogram amounts of protein using coomassie brilliant blue R on sodium dodecyl sulfate-polyacrylamide slab-gels.

A sodium dodecyl sulfate (SDS)-polyacrylamide slab-gel system was used to study the use of Coomassie brilliant blue (CB) as a quantitative stain. Quantitation curves are shown for tubulin, cytochrome c, histone, and actin from gels stained with CB. A comparison was made of three identical gels using an actin sample and stained with CB, fast green and buffalo black. CB staining was found to be quantitative in the 0.05–2.75-μg range as well as possessing an order of magnitude increase in sensitivity over other stains tested.     

Metachromasy of peripheral nerve collagen on polyacrylamide gels stained with Coomassie brilliant blue R-250.

Endoneurial collagen stains metachromatically with Coomassie brilliant blue R-250 (C.I. 42660) when peripheral nerve proteins are solubilized with urea and SDS and then subjected to SDS-polyacrylamide gel electrophoresis. The metachromasy is reproducible under different fixing and staining conditions, but was exhibited only by Coomassie blue R-250 of the four triphenylmethane dyes tested. A method is presented for measurement of the degree of metachromasy on SDS gels and the detection of collagen in homogenates of whole tissue.     

荧光素钠和考马斯亮蓝应用于小麦白粉病菌染色效果比较*

比较了荧光素钠和考马斯亮蓝应用于小麦白粉病菌染色的效果。荧光素钠法中样品处理只需20min.左右,具有直接、快速的特点;荧光指示剂对病菌分生孢子萌发及菌丝生长无抑制作用,主要沉集于活菌体的隔膜和细胞质部位,使病菌产生明显的亮绿荧光和清晰的细胞轮廓,亮绿荧光衰退期为7min.;借助荧光显微镜可以观察病菌在小麦叶表的发展过程,区别活菌体和失活菌体。考马斯亮蓝法包括传统的组织学染色步骤,经过改进后的样品处理过程需要40min.左右;染色后使寄主组织呈现淡蓝色,病菌菌体染成深蓝色;该方法可以观察病菌在小麦叶表和被侵染细胞内部发育形成的结构,包括孢子发育形成的初生芽管、附着胞芽管、成熟附着胞以及在寄主细胞内形成的初生吸器原体、成熟的指状体吸器和次生吸器。     

An improved staining technique for precipitin bands in agar or agarose gels

A method for the staining of proteins in agar and agarose gels using three stains simultaneously and a mordant is described. When compared with conventional Coomassie brilliant blue R-250 staining procedures, it requires a comparable time expenditure but has the following advantages: 1) it is threefold to fourfold more sensitive; 2) there is increased photographic resolution on conventional photographic material; and 3) the stain has a long shelf-life and does not fade under normal lighting conditions. Conditions for the washing and drying of gels are discussed.     

Specific indication of hemoproteins in polyacrylamide gels using a double-staining process

Hemoproteins were revealed in polyacrylamide gels in the presence of sodium dodecyl sulfate by staining with different benzidine derivatives. When the protein samples were treated with either beta-mercaptoethanol or dithiothreitol, a significant decrease in peroxidase activity of the proteins possessing noncovalently bound heme led to diminished staining. However, when Coomassie blue R-250 staining followed the hemespecific stain it was observed that the hemoprotein bands stained more intensely than duplicate sample bands that had been stained only with the Coomassie blue R-250. This staining property allows the indication of hemoproteins in gels even after the peroxidase yield has been significantly depleted by reducing agents.     

A fast silver staining method for protein detection after isoelectric focusing in agarose gels

A sensitive staining method was developed for detecting proteins in agarose gels after isoelectric focusing. Its sensitivity is about 20 times that of the Coomassie blue R-250 staining technique, and the time required is only 10 min.     

Simultaneous staining of proteins during polyacrylamide gel electrophoresis in acidic gels by countermigration of Coomassie brilliant blue R-250

A method for the simultaneous staining of proteins during polyacrylamide gel electrophoresis with Coomassie brilliant blue R-250 at pH 2.5 is described. Calf thymus whole histone and cytochrome c were stained by this method and the results obtained were similar to that obtained by staining after electrophoresis.     

A sensitive staining method for detecting acidic polysaccharides in cellulose acetate and agarose gels

A sensitive staining method has been developed for the detection of acidic polysaccharides in cellulose acetate and agarose gels. The method is based on the precipitation of bovine serum albumin by acidic polysaccharides at acidic pH values and the subsequent staining of precipitated protein with amido black or Coomassie brilliant blue R-250 stains. The detection limit of acidic polysaccharides is 15-40 ng on cellulose acetate strips and 50-150 ng on agarose plates. The sensitivity of the described staining technique is of the same order for a wide range of acidic polysaccharides of different origin in contrast to Alcian blue and toluidine blue stains, which detect only mucopolysaccharides of animal origin at comparable levels. The method was also applied to the colorimetric quantitative determination of acidic polysaccharides after electrophoretic separation.     

Direct red 81 and amido black stain proteins in polyacrylamide electrophoresis gels within 10 min

Proteins separated by SDS-polyacrylamide gel electrophoresis can be stained with organic dyes, the most popular being Coomassie brilliant blue R-250. Coomassie R-250 staining of ovalbumin in an SDS-PAGE gel increased linearly from 2.5 to 60 min. Direct red 81 and amido black staining approached saturation in 10 min. Scatchard analysis showed that the number of direct red 81 and amido black ligands bound to ovalbumin was fourfold higher than that of Coomassie R-250. Direct red 81 and amido black stain proteins in an SDS-polyacrylamide electrophoresis gel in 10 min.     

Staining and destaining polyacrylamide gels: A comparison of Coomassie blue and fast green protein dyes

A method using fast green dye for quantitation of immune serum globulin and its products of fragmentation in polyacrylamide gels has been developed. Although fast green is shown to be somewhat less sensitive than the usually used Coomassie blue stain, the former dye does not suffer from selective loss of dye due to temperature or alcohol content of the destaining solution. Destaining of fast green-stained gels is accomplished rapidly and efficiently by the described destaining procedure without an accompanying loss in quantitation.     

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.     

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.     

A procedure to increase the sensitivity of staining by Coomassie brilliant blue G250-perchloric acid solution.

The intensity of staining of protein zones in polyacrylamide gels by Coomassie brilliant blue G250 in perchloric acid solution was increased by a factor of 3 when a wash of 5% acetic acid followed staining. Concentrations as low as 5 ng of human serum albumin could be detected in the gels.     

Immunodetection after complete destaining of coomassie blue-stained proteins on immobilon-PVDF.

A technique that simplifies the localization of an immunodetectable protein in relation to the other electrophoresed proteins is described. Proteins are transblotted onto a polyvinylidene difluoride (PVDF) membrane and visualized by staining with Coomassie brilliant blue R-250, and a photograph of the protein pattern is taken. The Coomassie blue-stained PVDF membrane is then completely destained using a 25% acetic acid/50% methanol solution that allows subsequent immunostaining on the same membrane. The technique uses common laboratory reagents, is rapid, and has been shown to be applicable for a variety of proteins using both monoclonal and polyclonal antibodies and a variety of transblots.     

肌肽对低氧所致大鼠血管内皮细胞损伤的保护作用

目的：研究肌肽对低氧所致大鼠血管内皮细胞损伤的影响。方法：建立低氧条件下大鼠血管内皮细胞损伤模型,用MTT法观察肌肽对低氧损伤的血管内皮细胞活性的影响,测定细胞培养基中LDH活力,并对细胞骨架进行考马斯亮蓝R-250染色观测其细胞结构。结果：浓度为10mmol/L～20mmol/L肌肽孵育血管内皮细胞6h后,可以抑制缺氧12h和24h引起的血管内皮细胞活性下降,同时减少LDH的释放,保持细胞骨架完整。结论：肌肽对低氧所致的血管内皮细胞损伤具有保护作用。     

Quantitation of proteins bound to polyvinylidene difluoride membranes by elution of coomassie brilliant blue R-250

A rapid and simple method for the quantitation of stained proteins bound to polyvinylidene difluoride (PVDF) membranes via the elution of Coomassie brilliant blue R-250 is described. A mixture of standard proteins was resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and electroblotted onto PVDF membranes. Spectrophotometric analysis of dye eluted from protein bands in the range of 0.5-10 micrograms gave a linear change in the absorbance at 595 nm. Maximal absorbance readings were attained following 5 min of dye elution, and the readings remained unchanged for elution times up to 60 min. The method requires no unusual reagents or equipment, is suitable for the analysis of multiple samples, and does not consume the protein in the process of quantitation. This technique provides a useful means for the quantitation of proteins bound to PVDF membranes prior to amino acid sequence determination, immunological analysis, or other biochemical characterizations.     

A rapid and reproducible assay for quantitative estimation of proteins using bromophenol blue

A method for the quantitation of proteins in solution which involves the binding of bromophenol blue to proteins under acidic conditions has been developed. The binding of the dye to proteins is accompanied by the appearance of a strong absorbance at 610 nm, which is almost linear over the range of 10 to 80 μg for the seven proteins studied. The absorbance at 610 nm can be measured immediately after the mixing of the protein and dye solutions and is stable over a period of 8 hr. The method has very few interferences, most of which can be corrected for by the use of proper controls. Phenol, sodium dodecyl sulfate, and Triton X-100 (the last with some error) may be used with this assay at concentrations that produce strong interferences with similar methods using Coomassie brilliant blue G-250.     

Studies and critique of Amido Black 10B, Coomassie Blue R, and Fast Green FCF as stains for proteins after polyacrylamide gel electrophoresis.

The properties of amido black 10B (C.I. 20470), Coomassie blue R (C.I. 42660), and fast green FCF (C.I. 42053) as protein stains, along with a few comments on Coomassie blue G (C.I. 42655), are presented and dye impurities and their effects on protein-dye binding within gels are discussed. All three dyes produced metachromatic effects with some proteins. Problems encountered with long-term stability and fixation of certain maize seed proteins are reported along with procedures for overcoming them. The low solubility of Coomassie blue R in trichloroacetic acid prevented maximum staining and destaining within a reasonable time, whereas other solvents allowed diffusion of some proteins during staining. Coomassie blue R binds to proteins in much higher amounts than do amido black and fast green, which accounts for its sensitivity in detection of protein bands in gels. Procedures for obtaining maximum contrast with photographs are also outlined.     

A colorimetric assay for measuring the lysis of a plasma clot.

The present study describes a simple, quantitative assay for measuring the lysis of a plasma clot. The principle of the assay is based on the release of Coomassie brilliant blue R-250 dye from the clot. Thirty microliters of freshly prepared Coomassie brilliant blue R-250 (1 mg/ml) was added to 200 microliters of diluted human plasma (1:5). After mixing, 100 microliters of thrombin (2.5 NIH units/ml) were added to mediate a plasma clot. One milliliter of streptokinase (0.1 mg/ml) was used as a plasminogen activator to initiate clot lysis. During the course of lysis, 100 microliters of soluble material were transferred to microtiter wells and the absorbance at 540 nm was determined as a measure of clot lysis. This assay was used to measure clot lysis in 18 human plasma samples. The colorimetric method (X) developed in this report correlated well with that determined using a conventional 125I-fibrinogen method (Y): Y = 0.83X + 7.98 (r = 0.91).     

Staining of proteins on SDS polyacrylamide gels and on nitrocellulose membranes by Alta, a colour used as a cosmetic

We describe here the use of Alta, a pre-existing scarlet-red stain of cosmetic use, for staining proteins on sodium dodecyl sulfate (SDS) polyacrylamide gels, as well as for a single step staining of gels and nitrocellulose membranes during Western blot analysis. This stain, which is composed of 0.8% Crocein scarlet (brilliant crocein) and 0.2% Rhodamine B, is inexpensive, easy to use and nearly as sensitive as Coomassie Brilliant Blue (CBB) R-250. The gels can be stained in 10% Alta (2 h) and can be destained effectively only with 7% acetic acid as opposed to the conventional destainer (methanol/acetic acid/water) required for CBB-stained gels. In an alternative procedure, the proteins can be stained on the gel while electrophoresis by simply using 5% Alta in the top tank buffer and the stain can be viewed under UV-transilluminator. This procedure can also be used for Western blot analysis, as a single step procedure for staining of proteins on the gel as well as on the nitrocellulose membrane, as the stain is retained on the membrane after protein transfer. Thus, this staining procedure allows monitoring of proteins after each step in the Western blot, thereby eliminating the need to run separate gels for staining and Western blot analysis, and also the need for Ponceau Red S staining of the nitrocellulose membrane during Western blot analysis.