Novel application of aniline blue. Fluorescent staining of glycogen and some protein structures

The present study shows that aniline blue can be used as a fluorescent stain for glycogen. The dye is also helpful in tracing pathological and autolytic changes in lysosomes, mitochondria, erythrocytes and nuclei, and it can also be used for demonstrating bacteria in tissue sections and smears. The techniques used are simple, rapid and inexpensive. Spectrophotometric studies on aniline blue solutions have shown that aniline blue fluorescence was enhanced by the addition of certain proteins, or of glycogen to the dye solution. In case of albumen which has the maximum effect, enhancement is dependent upon the albumen-dye ratio. The mechanism of staining is mainly due to self quenching, but there is also an evidence of the presence of hydrophobic reaction.     

一株新型苯胺蓝降解菌MP-13的代谢特征

[背景]三苯甲烷类染料的广泛使用对我国生态环境构成了极大危害,亟待开发一种经济、高效和环境友好型的染料废水处理技术。目前,利用微生物处理染料废水被认为是一种环境友好型的方法。[目的]通过解析菌株MP-13对苯胺蓝的降解特性,为该菌株在染料废水治理中的应用提供核心理论与技术依据。[方法]从食木白蚁肠道中筛选一株苯胺蓝脱色菌,对其进行16S rRNA基因序列分析鉴定,确定其基本生物学特征,然后通过FTIR、GC/MS等分析手段解析该菌对苯胺蓝的降解特征。[结果]菌株MP-13经鉴定为土白蚁特拉布尔希氏菌(Trabulsiella odontotermitis),该菌对苯胺蓝降解的最适温度、pH和转速分别为35℃、8.0和180 r/min,苯胺蓝浓度为200 mg/L时最大脱色率可达97.3%,且对苯胺蓝的耐受浓度可达1 500 mg/L。此外,FTIR和GC/MS的结果表明苯胺蓝被降解为小分子芳香族化合物。[结论]Trabulsiella odontotemitis MP-13对苯胺蓝有较强降解能力和较高耐受性,可作为染料废水生物修复的潜在菌株资源。     

Mallory stain may indicate differential rates of RNA synthesis: I. A seasonal cycle in the harderian gland of the green frog (Rana esculenta).

When Mallory's trichrome stain is used, acinar nuclei of the Harderian gland of Rana esculenta display different affinities for the dye. Some of the orangiophilic nuclei show affinity for aniline blue (blue nuclei). In the Harderian gland of Rana esculenta their number and the intensity of staining with aniline blue may vary during the year. The affinity for aniline blue disappears following digestion of paraffin sections with RNAase, but not with DNAase or trypsin. Furthermore, in vitro incubation with [5, 6-3H]-Uridine shows a selective incorporation by the majority of blue nuclei. Therefore, the affinity for aniline blue is likely due to increased RNA synthesis. The increment of nuclear RNA shown by these methods is supported by the quantitative determination of total RNAs during the resumption (October) and enhancement (May) of secretory activity, when the percentage of blue nuclei of the acinar cells is at its highest levels of the year. The affinity of RNA-rich nuclei for aniline blue, while others are strictly orangiophil, is discussed on the basis of molecular structure of the dyes used in the staining mixture. Mallory's trichrome stain appears to be an useful tool for detecting changes in cell nuclear status.     

Mucoromycotina sp. HS-3对苯胺蓝染料的降解

采用静置开敞式培养法研究了碳源、氮源、盐度、金属离子对Mucoromycotina sp.HS-3菌降解苯胺蓝的影响。结果表明,菌株脱色最适合条件为葡萄糖1 g/L,硫酸铵0.6 g/L,Fe3+0.15 mmol/L,盐度小于50 g/L,在上述各培养条件下,对浓度为100 mg/L不灭菌的苯胺蓝溶液静止培养5 d,脱色率达95%以上。此外,通过降解前后的苯胺蓝溶液对豇豆和枯草芽孢杆菌进行毒性测试发现,降解后的苯胺蓝溶液毒性明显降低。因此,该菌对处理以苯胺蓝为主要成分的印染废水具有较好的应用潜力。     

Decolorization and detoxification of a sulfonated triphenylmethane dye aniline blue by Shewanella oneidensis MR-1 under anaerobic conditions

In this work, the extracellular decolorization of aniline blue, a sulfonated triphenylmethane dye, by Shewanella oneidensis MR-1 was confirmed. S. oneidensis MR-1 showed a high capacity for decolorizing aniline blue even at a concentration of up to 1,000 mg/l under anaerobic conditions. Maximum decolorization efficiency appeared at pH?7.0 and 30 °C. Lactate was a better candidate of electron donor for the decolorization of aniline blue. The addition of nitrate, hydrous ferric oxide, or trimethylamine N-oxide all could cause a significant decline of decolorization efficiency. The Mtr respiratory pathway was found to be involved into the decolorization of aniline blue by S. oneidensis MR-1. The toxicity evaluation through phytotoxicity and genotoxicity showed that S. oneidensis MR-1 could decrease the toxicity of aniline blue during the decolorization process. Thus, this work may facilitate a better understanding on the degradation mechanisms of the triphenylmethane dyes by Shewanella and is beneficial to their application in bioremediation.     

用凝胶电泳发现肝素与染料之间的相互作用

目的:观察肝素与23种染料之间的相互作用.方法:利用淀粉琼脂糖凝胶电泳及聚丙烯酰胺凝胶电泳,观察染料加肝素后电泳行为的变化.结果:淀粉琼脂糖凝胶电泳中染料加肝素后多数结果是泳速变慢,有一些留在原点,也有前移、后退者.二氯荧光素、荧光红、荧光素、甲酚红、苯胺蓝、溴酚蓝、茜素红S、胭脂红、亮绿、氨基黑10B、丽春红G、曙红、苯胺黑、氯酚红加肝素后泳速变慢.亚甲蓝、灿烂甲酚蓝、甲基紫加肝素后电泳留在原点.刚果红、洋红加肝素后电泳变化不明显.四氯荧光素、氯化硝基四氮唑蓝加肝素后电泳荧光看不清.聚丙烯酰胺凝胶电泳中溴酚蓝加入肝素后泳速明显变慢,随着肝素量增加溴酚兰的泳速加快.与淀粉琼脂糖凝胶电泳结果一致,但它的电泳结果更明显.结论:本次所研究的23种染料,几乎都能与肝素发生相互作用,给它们的进一步深入研究打下基础.     

Fluorochromes for Detection of Callose in Meiocytes of Olive (Olea europaea L)

The callosic wall which covers microsporocyte mother cells during meiotic division has been studied using different fluorochromes as alternatives to the widely used aniline blue. We have confirmed that both acridine orange and 4', 6' diamidino-2-phenylindole (DAPI) produce a fluorescent response to callose which is comparable in specificity and intensity to that of aniline blue: therefore, they can be used to study callose wall formation. Staining properties of these fluorochromes, as well of those of curcumin and sirofluor, reported earlier as fluorescent stains for callose, are discussed. We also discuss the efficacy of the combined use of sirofluor and DAPI to study particular aspects of the deposition of callose.     

Comparison of historic Grübler dyes with modern counterparts using thin layer chromatography

The aniline dye industry was created in 1856 when William Perkin prepared the dye, mauve, from coal tar. Following that discovery, several dye manufacturing businesses were formed in Western Europe, most successfully in Germany. It was to these companies that early investigators turned to obtain these new dyes for the developing field of biology. In 1880, Dr. Georg Grübler started a company in Germany to supply the needs of biologists. Grübler dyes developed a reputation for excellence. In the study reported here, 29 samples of 12 Grübler dyes were compared to modern counterparts using thin layer chromatography. The dyes studied were basic fuchsine, acid fuchsine, safranine, pyronine, aniline blue, ponceau, gentian violet, methylene blue, orange G, malachite green, and Sudan III and IV. I found that these early Grübler dyes closely resembled modern day counterparts; however, the use of synonyms was confusing and some of the fat stains were mislabeled by modern criteria. The chromatograms of some dyes exhibited smearing, probably representing multiple closely related dye species. The study of old dyes provides interesting comparisons with modern counterparts as the center of dye manufacturing is moving from Europe and the United States to Asia.     

Comparison of historic Grübler dyes with modern counterparts using thin layer chromatography.

The aniline dye industry was created in 1856 when William Perkin prepared the dye, mauve, from coal tar. Following that discovery, several dye manufacturing businesses were formed in Western Europe, most successfully in Germany. It was to these companies that early investigators turned to obtain these new dyes for the developing field of biology. In 1880, Dr. Georg Grübler started a company in Germany to supply the needs of biologists. Grübler dyes developed a reputation for excellence. In the study reported here, 29 samples of 12 Grübler dyes were compared to modern counterparts using thin layer chromatography. The dyes studied were basic fuchsine, acid fuchsine, safranine, pyronine, aniline blue, ponceau, gentian violet, methylene blue, orange G, malachite green, and Sudan III and IV. I found that these early Grübler dyes closely resembled modern day counterparts; however, the use of synonyms was confusing and some of the fat stains were mislabeled by modern criteria. The chromatograms of some dyes exhibited smearing, probably representing multiple closely related dye species. The study of old dyes provides interesting comparisons with modern counterparts as the center of dye manufacturing is moving from Europe and the United States to Asia.     

4种染色方法对甜瓜白粉病菌染色效果的观察比较

考马斯亮蓝组织透明染色方法可以清楚观察到白粉病菌的5个发育阶段,即萌发的分生孢子、初生芽管、胞间菌丝、分生孢子梗和后期菌落。考马斯亮蓝几乎使寄主组织不着色,不产生背景色干扰,而菌体变深蓝色。苯胺蓝组织透明染色方法也可观察到病菌的不同发育阶段,但苯胺蓝易使寄主组织产生浅蓝色背景,而菌体呈现深蓝色,观察效果不理想。荧光素钠和苯胺蓝两种荧光染色方法均能使菌体在紫外或者蓝光下产生黄绿色荧光,而寄主组织呈现黑色背景,强烈的反差利于观察。荧光素钠可以观察到菌体整个发育阶段。苯胺蓝只适合于前期菌体入侵过程的观察。     

Differential Dichrome Staining of Tissue Culture Monolayers: Alternate Dyes and Possible Mechanism

A polyacid-dependent dichrome has been devised which will differentiate epithelial from mesenchymal cells in young dividing primary cultures. Epithelial cells and colonies and nuclei are stained with metanil yellow, the stain is fixed and differentiated with phosphotungstic acid, and the mesenchymal elements are stained with toluidine blue. Several other dyes are tested for substitution in this method. Biebrich scarlet and aniline blue could be substituted for the metanil yellow; Bismarck brown T, Janus green B, crystal violet, and neutral red could be substituted for the basic dye.     

Differential dichrome staining of tissue culture monolayers: alternate dyes and possible mechanism.

A polyacid-dependent dichrome has been devised which will differentiate epithelial from mesenchymal cells in young dividing primary cultures. Epithelial cells and colonies and nuclei are stained with metanil yellow, the stain is fixed and differentiated with phosphotungstic acid, and the mesenchymal elements are stained with toluidine blue. Several other dyes are tested for substitution in this method. Biebrich scarlet and aniline blue could be substituted for the metanil yellow; Bismarck brown T, Janus green B, crystal violet, and neutral red could be substituted for the basic dye.     

Euparal as A Mounting Medium for Preserving Fluorescence of Aniline Blue in Plant Material

Keeping quality of aniline blue-stained plant material can be greatly enhanced by substituting Euparal for aqueous aniline blue as the mounting medium. Pollen tubes which have been stained for other purposes (e.g. nuclei and chromosomes) and mounted in resinous medium can be restained with aniline blue and fluorescence of pollen tubes can still be observed.     

Whole fruit staining with aniline blue at harvest is associated with superficial pathogenesis of “Fuji” apples after storage

Abstract

Whole “Fuji” apples (Malus domestica Borkh cv. Fuji) were treated with 0.2% aniline blue before storage in 2006, 2007 and 2008 to determine whether cuticular microcracking was associated with post-storage disorders. After storage for 7 months at 0° C and 90% relative humidity followed by 3 days at 20° C, a higher aniline blue staining scale value was associated with a higher peel browning and decay index. These results indicate that superficial disorders or diseases of apples may be related to cuticular microcracking that can be seen by aniline blue staining. Scanning electron microscopy was used to analyze the ultrastructure of stained portions of the cuticular complex. Disorders or diseases of the cuticle of epidermal tissue was associated with cracked lenticels, unhealed microcracks around the edge of the lenticel, and collapsed epicuticular wax; these areas stained more intensely. Our results indicated the potential of using an aniline blue staining prior to storing the fruit to predict the ultimate quality.     

Effects of tissue-preparation-induced callose synthesis on est plasmodesma size exclusion limits

Plasmodesmata are often characterised by their size exclusion limit (SEL), which is the molecular weight of the largest dye, introduced by microinjection, that will move from cell to cell. In this study, we investigated whether commonly used techniques for isolation and manipulation of tissues, and microinjection of fluorescent dyes, affected the SEL, and whether any such effects could be ameliorated by inhibiting callose deposition. We examined young root epidermal cells of Arabidopsis thaliana and staminal hair cells of Tradescantia virginiana, two tissues often used in experiments on symplastic transport. Transport in root tips dissected from the main plant body and in stamen hairs removed from the base of the stamen filament was compared with transport in undissected roots and stamen hairs attached to the base of the filament, respectively. Tissues were microinjected with fluorescent dyes (457 Da to > 3 kDa) with or without prior incubation in the callose deposition inhibitors 2-deoxy-D-glucose or aniline blue fluorochrome. In both tissues, dissection reduced the SEL, which was largely prevented by prior incubation in 2-deoxy-D-glucose but not by incubation in aniline blue fluorochrome. Thus, standard methods for tissue preparation can cause sufficient callose deposition to reduce cell-to-cell transport, and this needs to be considered in studies employing microinjection. Introduction of the dyes by pressure injection rather than iontophoresis decreased the SEL in A. thaliana but increased it in T. virginiana, showing that these two injection techniques do not necessarily give identical results and that plasmodesmata in different tissues may respond differently to similar experimental procedures.     

Fuchsine or magenta: the second most famous aniline dye. A short memoir on the 150th anniversary of the first commercial production of this well known dye

During the mid-nineteenth century, it was learned that the distillation of coal tar yielded a mixture of benzene and toluene that could be used for the manufacture of “anilines.” Oxidation with dichromate led to the first synthetic aniline dye, mauveine. The second aniline dye, a crimson red color, now is named fuchsine or magenta. This dye was prepared using the same starting material, but different oxidants, e.g., tin chloride, mercury nitrate, arsenic acid, and nitrobenzene. Unlike mauveine, which is now a chemical curiosity, fuchsine is still in use as a biological stain, especially in Schiff's reagent for detecting aldehydes, industrially as a dye in coloring various materials from textile fibers to ball point pen inks, analytically as a visualization agent for thin layer chromatography, and as an antifungal agent.     

Microspectrographic analysis of trypan blue-induced fluorescence in oocytes of the Japanese quail

Summary It was shown that the vital dye trypan blue injected subcutaneously is adsorbed on exogenous yolk and stored in oocytes of Japanese quails. The binding sites of the dye could be visualized by fluorescence microscopy. The spectral distribution of the trypan blue-induced fluorescence emitted by yolk granules was analyzed microspectrographically. The analysis revealed that yolk granules exhibit a deep red fluorescence radiation with a maximum intensity at 670 nm, when blue or green excitation light is used. This fluorescence was exclusively induced by the presence of trypan blue, and not by contaminants of the dye. The fluorescence intensity did not decrease during processing of the tissue throughout the different solvents routinely used in light microscopy, especially after fixation in Heidenhain's fluid, nor did it suffer from pronounced fading during irradiation of the tissue. Model experiments showed that the value of the fluorescence emission maximum was concentration-dependent, and that amounts as little as 5×10^–3 mg trypan blue per ml solution containing an excess of yolk as a substrate for the dye, could clearly be detected and measured.It is suggested that a highly diluted solution of trypan blue can be used without teratogenic effects, as a tracer for exogenous yolk uptake and migration into oocytes, and that fluorescence microscopy is a reliable method for its further localization. A detailed account of the procedure is reported.     

The discovery of aniline and the origin of the term “aniline dye”

An historical background is provided for the term, “aniline dye,” which is still widely used as a synonym for “synthetic dye.” The discovery of aniline and the role of Hofmann in clarifying it are described. The subsequent discovery of mauveine (mauve) by a student of Hofmann's, William Perkin, and his difficulties in transforming an academic synthesis into a commercial product also are discussed. The key role of Scottish dyers, the Pullars of Perth and Thomas Keith in London, in this technology transfer is described. The subsequent ascendancy of the German dyestuff industry over British manufacturers is noted.     

A New Principle in Polychrome Staining: A System of Automated Staining, Complementary to Hematoxylin and Eosin, and Usable as a Research Tool

A staining system is described in which each stage forms a separate module or unit. All reagents, concentrations of dye, ratios of phosphotungstic acid to dye, pH values, temperature and staining times are standardized and only aqueous solutions used. The technic uses equal strength solutions of orange G, acid fuchsin and methyl (or aniline) blue, in ascending order of molecular size, at pH 2.5 (range: 2.3 to 2.7). Phosphotungstic acid is incorporated in the dyebaths, not used separately, and the combination of this with ferric alum hematoxylin (Lillie's by preference) and either naphthol yellow S or picric acid as a primer, enables fibrin and cytoplasmic components to be demonstrated vividly, with other tissues shown in clear contrasting colors. Erythrocytes are yellow, fibrin red and collagen blue. The system permits substitution of dyes, lending itself to both manual and computer recording and analysis, helped by a notation system for identifying variants. Many of the factors are variable at will. The system aids research into the mechanism of polychrome staining, and, by extrapolation, into the mechanism of action of other stains. Two manually or machine usable progressive polychrome technics intended for routine use are described. They identify tissue components consistently, complementing the standard hematoxylin and eosin stain, and deserve equal attention during reporting. Variants may be used for one-minute one-stage staining of frozen sections, or to give strong colors with 2 mμ acrylic sections.     

A new principle in polychrome staining: a system of automated staining, complementary to hematoxylin and eosin, and usable as a research tool

A staining system is described in which each stage forms a separate module or unit. All reagents, concentrations of dye, ratios of phosphotungstic acid to dye, pH values, temperature and staining times are standardized and only aqueous solutions used. The technic uses equal strength solutions of orange G, acid fuchsin and methyl (or aniline) blue, in ascending order of molecular size, at pH 2.5 (range: 2.3 to 2.7). Phosphotungstic acid is incorporated in the dyebaths, not used separately, and the combination of this with ferric alum hematoxylin (Lillie's by preference) and either naphthol yellow S or picric acid as a primer, enables fibrin and cytoplasmic components to be demonstrated vividly, with other tissues shown in clear contrasting colors. Erythrocytes are yellow, fibrin red and collagen blue. The system permits substitution of dyes, lending itself to both manual and computer recording and analysis, helped by a notation system for identifying variants. Many of the factors are variable at will. The system aids research into the mechanism of polychrome staining, and, by extrapolation, into the mechanism of action of other stains. Two manually or machine usable progressive polychrome technics intended for routine use are described. They identify tissue components consistently, complementing the standard hematoxylin and eosin stain, and deserve equal attention during reporting. Variants may be used for one-minute one-stage staining of frozen sections, or to give strong colors with 2 millimicrons acrylic sections.