Detection of intracellular nitric oxide using a combination of aldehyde fixatives with 4,5-diaminofluorescein diacetate

Using 4,5-diaminofluorescein diacetate (DAF-2DA), which was recently developed for the detection of intracellular nitric oxide (NO) in living cells, we examined the sensitivity of intracellular NO in cells treated with some fixatives. Cultured human umbilical vein endothelial cells loaded with DAF-2DA in the presence of 10(-6) M acetylcholine showed intense fluorescence when fixed in paraformaldehyde or glutaraldehyde, but no fluorescence could be detected after fixation in ethanol or acetone. Fluorescence generation depended on the combination of each aldehyde fixative with DAF-2, which is produced enzymatically from DAF-2DA within the cells. Subtracting the fluorescence intensity of non-activated controls from that of cells activated by acetylcholine indicated the NO produced in the stimulated cells, since the control cells that took up DAF-2DA also generated fluorescence when treated with aldehyde fixatives. Thus, detection of intracellular NO by combining aldehyde fixatives with DAF-2DA is useful for examining the functions of NO in cells both in situ and in vivo.     

Effects of various fixatives on the reactivity of plant cell tubulin and calmodulin in immunofluorescence microscopy

Summary We have examined the suitability of a variety of fixation regimes for immunofluorescence localization of tubulin and calmodulin in meristematic plant cells. Acrolein and most fixatives that contain glutaraldehyde (GA), while they have been employed by others in immunoenzyme, immunogold or immunofluorescence studies of plant endosperm, animal or plant tissue culture cells, cause unacceptably high background fluorescence of the dense cytoplasm of root meristem cells. Bifunctional imidoester and carbodiimide reagents do not give satisfactory results, either. Fixatives that have produced good results include paraformaldehyde (PFA) with the addition of picric acid or zinc salts or at high pH, a combination of PFA/GA/picric acid, and prefixation in PFA plus a monofunctional imidoester followed by PFA/GA. All of these cross-link the cytoplasm well enough so that cells can withstand isolation procedures, preserve antigenicity, allow antibody penetration and provide good contrast between specific and background fluorescence. The last two fixatives are of particular interest because of the potential they offer for immunoelectron microscopy of densely cytoplasmic, walled cells from tissues.     

Evaluation of VP22 spread in tissue culture

We compare methods of detection of intercellular transport of the herpes simplex virus protein VP22 and of a green fluorescent protein (GFP)-VP22 fusion protein. Spread of both proteins was observed by immunofluorescence (IF) using organic fixatives. Spread of both proteins was also detected by IF after paraformaldehyde (PFA) fixation and detergent permeabilization, albeit at reduced levels. However, while spread of GFP-VP22 was observed by examining intrinsic GFP fluorescence after methanol fixation, little spread was observed after PFA fixation, suggesting that the levels of the fusion protein in recipient cells were below the detection limits of intrinsic-fluorescence or that PFA fixation quenches the fluorescence of GFP-VP22. We further considered whether elution of VP22 from methanol-fixed cells and postfixation binding to surrounding cells contributed to the increased detection of spread observed after methanol fixation. The results show that while this could occur, it appeared to be a minor effect not accounting for the observed VP22 cell-to-cell spread in culture.     

Time-resolved polarization imaging by pump-probe (stimulated emission) fluorescence microscopy

We report the application of pump-probe fluorescence microscopy in time-resolved polarization imaging. We derived the equations governing the pump-probe stimulated emission process and characterized the pump and probe laser power levels for signal saturation. Our emphasis is to use this novel methodology to image polarization properties of fluorophores across entire cells. As a feasibility study, we imaged a 15-microm orange latex sphere and found that there is depolarization that is possibly due to energy transfer among fluorescent molecules inside the sphere. We also imaged a mouse fibroblast labeled with CellTracker Orange CMTMR (5-(and-6)-(((4-chloromethyl)benzoyl)amino)tetramethyl-rhodamine). We observed that Orange CMTMR complexed with gluthathione rotates fast, indicating the relatively low fluid-phase viscosity of the cytoplasmic microenvironment as seen by Orange CMTMR. The measured rotational correlation time ranged from approximately 30 to approximately 150 ps. This work demonstrates the effectiveness of stimulated emission measurements in acquiring high-resolution, time-resolved polarization information across the entire cell.     

The search for an optimal DNA, RNA, and protein detection by in situ hybridization, immunohistochemistry, and solution-based methods

Clinical trials and correlative laboratory research are increasingly reliant upon archived paraffin-embedded samples. Therefore, the proper processing of biological samples is an important step to sample preservation and for downstream analyses like the detection of a wide variety of targets including micro RNA, DNA and proteins. This paper analyzed the question whether routine fixation of cells and tissues in 10% buffered formalin is optimal for in situ and solution phase analyses by comparing this fixative to a variety of cross linking and alcohol (denaturing) fixatives. We examined the ability of nine commonly used fixative regimens to preserve cell morphology and DNA/RNA/protein quality for these applications. Epstein-Barr virus (EBV) and bovine papillomavirus (BPV)-infected tissues and cells were used as our model systems. Our evaluation showed that the optimal fixative in cell preparations for molecular hybridization techniques was "gentle" fixative with a cross-linker such as paraformaldehyde or a short incubation in 10% buffered formalin. The optimal fixatives for tissue were either paraformaldehyde or low concentration of formalin (5% of formalin). Methanol was the best of the non cross-linking fixatives for in situ hybridization and immunohistochemistry. For PCR-based detection of DNA or RNA, some denaturing fixatives like acetone and methanol as well as "gentle" cross-linking fixatives like paraformaldehyde out-performed other fixatives. Long term fixation was not proposed for DNA/RNA-based assays. The typical long-term fixation of cells and tissues in 10% buffered formalin is not optimal for combined analyses by in situ hybridization, immunohistochemistry, or--if one does not have unfixed tissues--solution phase PCR. Rather, we recommend short term less intense cross linking fixation if one wishes to use the same cells/tissue for in situ hybridization, immunohistochemistry, and solution phase PCR.     

Immunofluorescent Labelling of K-Papovavirus Antigens in Glycol Methacrylate Embedded Material: A Method for Studying Infected Cell Populations by Fluorescence Microscopy and Histological Staining of Adjacent Sections

Trypsin and protease V (pronase) were studied for their ability to enhance immuno-fluorescent labelling of papovavirus antigens in glycol methacrylate embedded sections of organs infected with murine K-papovavirus. Treatment of Bouin's fixed sections with 0.4% trypsin for 30 minutes resulted in specific immunofluorescent staining equal to that seen in frozen sections and produced little if any loss of histological detail. Treatment with protease V resulted in less brilliant fluorescence and less satisfactory tissue preservation. Studies were then conducted to determine the fixative which would produce brightest specific fluorescent antibody staining of papovavirus-infected cells while providing clearest definition of intranuclear inclusions and best morphological detail in histologically stained adjacent sections. Brightest immunofluorescence staining was accomplished on material fixed in 96% ethanol/1% glacial acetic acid or Bouin's solution. These fixatives also gave clear definition of intranuclear inclusions with histological stains and provided excellent morphological detail. Phosphate buffered paraformaldehyde/picric acid and 3.7% formalin gave less satisfactory fluorescence and obscured intranuclear inclusions in histological preparations. Sections fixed in 4% paraformaldehyde, 4% paraformaldehyde/1% glutaraldehyde, and 0.5 M p-toluenesulfonic acid were negative for specific fluorescence. Glycol methacrylate, used with proper fixation and trypsin pretreatment of sections, provides a useful embedding medium for immunofluorescent identification of virus-infected cells, and the 1.0-2.0 μm sections routinely obtainable with GMA permit study of individual infected cells by fluorescent antibody and histological staining of adjacent sections.     

Sequential paraformaldehyde and methanol fixation for simultaneous flow cytometric analysis of DNA, cell surface proteins, and intracellular proteins.

A cell fixation and permeabilization procedure consisting of sequential paraformaldehyde and methanol was evaluated and found suitable for concomitant flow cytometric quantification of total cellular DNA, immunofluorescence measurements of cell surface proteins, and immunofluorescence measurements of intracellular proteins. Paraformaldehyde/methanol-fixed cells exhibited significantly greater intracellular antitubulin immunofluorescence than cells fixed with paraformaldehyde or methanol alone (p less than 0.002) and significantly greater intracellular antitubulin immunofluorescence than cells fixed with methanol followed by paraformaldehyde (p less than 0.006). With paraformaldehyde/methanol fixation, cell morphology was well preserved and forward and right angle light scatter properties were sufficiently well maintained to permit gating on these parameters. Cell surface marker staining with fluorescent anti-leukocyte antibodies was unaffected by fixation with paraformaldehyde/methanol. Paraformaldehyde effects on the intensity of DNA staining with propidium iodide were dependent on paraformaldehyde concentration and fixation temperature; these effects were least pronounced at low paraformaldehyde concentrations (0.25% or less), and at temperatures lower than 37 degrees C. Paraformaldehyde fixation may result in differences in propidium iodide staining of DNA in some diploid cells, which may produce small spurious aneuploid peaks in normal peripheral blood leukocytes. Paraformaldehyde fixation also produces an apparent increase in the DNA index of aneuploid cell populations in comparison with methanol fixation, particularly when the DNA index exceeds 1.5. Occasionally, this paraformaldehyde fixation-induced effect is useful in identifying biologically distinct near-diploid subpopulations in tumors.     

Immunofluorescent labelling of K-papovavirus antigens in glycol methacrylate embedded material: a method for studying infected cell populations by fluorescence microscopy and histological staining of adjacent sections

Trypsin and protease V (pronase) were studied for their ability to enhance immunofluorescent labelling of papovavirus antigens in glycol methacrylate embedded sections of organs infected with murine K-papovavirus. Treatment of Bouin's fixed sections with 0.4% trypsin for 30 minutes resulted in specific immunofluorescent staining equal to that seen in frozen sections and produced little if any loss of histological detail. Treatment with protease V resulted in less brilliant fluorescence and less satisfactory tissue preservation. Studies were then conducted to determine the fluorescence and less satisfactory tissue preservation. Studies were then conducted to determine the fixative which would produce brightest specific fluorescent antibody staining of papovavirus-infected cells while providing clearest definition of intranuclear inclusions and best morphological detail in histologically stained adjacent sections. Brightest immunofluorescence staining was accomplished on material fixed in 96% ethanol/1% glacial acetic acid or Bouin's solution. These fixatives also gave clear definition of intranuclear inclusions with histological stains and provided excellent morphological detail. Phosphate buffered paraformaldehyde/picric acid and 3.7% formalin gave less satisfactory fluorescence and obscured intranuclear inclusions in histological preparations. Sections fixed in 4% paraformaldehyde, 4% paraformaldehyde/1% glutaraldehyde, and 0.5 M p-toluenesulfonic acid were negative for specific fluorescence. Glycol methacrylate, used with proper fixation and trypsin pretreatment of sections, provides a useful embedding medium for immunofluorescent identification of virus-infected cells, and the 1.0-2.0 micron sections routinely obtainable with GMA permit study of individual infected cells by fluorescent antibody and histological staining of adjacent sections.     

The fluorescent dyes TO-PRO-3 and TOTO-3 iodide allow detection of microbial cells in soil samples without interference from background fluorescence

Visualization of microorganisms in soils and sediments using fluorescent dyes is a common method in microbial ecology studies, but is often hampered by strong nonspecific background fluorescence that can mask genuine cellular signals. The cyanine nucleic acid binding dyes TO-PRO-3 and TOTO-3 iodide enabled a clear detection of microbial cells in a mineral soil, while nonspecific background was greatly reduced compared with commonly used dyes. When used as counterstains for fluorescence in situ hybridization (FISH), both cyanine dyes allowed identification of microbial cells despite strong background from nonspecifically bound probes. TO-PRO-3 and TOTO-3 are easy to use and represent superior alternatives for detecting microorganisms in soil environments.     

三种固定液对两种氧化应激细胞模型Bclin1和LC3蛋白免疫荧光染色的影响

摘要 目的：比较采用三种不同的固定液对两种氧化应激细胞模型Beclin1和LC3蛋白免疫荧光染色的影响。方法：本研究使用丙酮/甲醇（1:1）固定液、甲醇固定液和4%多聚甲醛三种固定液分别对氧化应激细胞模型大鼠原代心肌成纤维细胞和MCF-7乳腺癌细胞株进行固定,然后再分别进行免疫荧光双染实验,对比三种固定液固定后对自噬关键调控蛋白Beclin1和LC3染色效果。结果：三种固定液对氧化应激细胞模型Beclin1和LC3蛋白免疫荧光染色结果存在较大差异。丙酮/甲醇（1:1）固定液固定后免疫荧光染色效果最佳,细胞结构清晰可见,两种蛋白定位表达清晰,甲醇固定液次之,4%多聚甲醛固定液效果欠佳。结论：在对大鼠原代心肌成纤维细胞和MCF-7乳腺癌细胞进行自噬相关蛋白免疫荧光双染色实验中,在使用其它固定液染色效果不佳的情况下,可以选择应用丙酮/甲醇（1:1）固定液固定,再进行免疫荧光染色;根据不同实验需求相应选择更适宜的固定液,以达到最佳的荧光染色结果。     

High-resolution visualization of the microbial glycocalyx with low-voltage scanning electron microscopy: dependence on cationic dyes.

The microbial glycocalyx is composed of a variety of polyanionic exopolysaccharides and plays important roles in microbial attachment to different substrata and to other cells. Here we report the successful use of low-voltage scanning electron microscopy (LVSEM) to visualize the glycocalyx in two microbial models (Klebsiella pneumoniae and Enterococcus faecalis biofilms) at high resolution, and also the dependence on fixation containing polycationic dyes for its visualization. Fixation in a paraformaldehyde-glutaraldehyde cocktail without cationic dyes was inadequate for visualizing the glycocalyx, whereas addition of various dyes (alcian blue, safranin, and ruthenium red) to the aldehyde cocktail appeared necessary for stabilization. The cationic dyes varied in size, shape, and charge density, and these factors appeared responsible for different phenotypic appearances of the glycocalyx with each dye. These results suggest that aldehyde fixation with cationic dyes for high-resolution LVSEM will be a useful tool for investigation of microbial biofilms as well as investigation of the extent and role of the glycocalyx in microbial attachment to surfaces.     

Optimal processing method to obtain four-color confocal fluorescent images of the cytoskeleton and nucleus in three-dimensional chondrocyte cultures.

Tissue engineering of articular cartilage requires accurate imaging of the chondrocyte cytoskeleton. Past studies have applied various fixation and permeabilization protocols without optimization of parameters. In this study, we have examined procedures using glutaraldehyde and paraformaldehyde as fixatives and Triton X-100 and Octyl-POE as permeabilizing detergents. A four-color fluorescence confocal method was developed to simultaneously image actin, tubulin, vimentin, and the nucleus. We found optimal preservation and morphology of the chondrocyte cytoskeleton after simultaneous fixation and permeabilization with glutaraldehyde and Triton X-100. These images displayed less cellular shrinkage and higher-resolution filamentous structures than with paraformaldehyde or when permeabilization followed fixation.     

Automatic cell identification and enrichment in lung cancer. II. Acridine orange for cell sorting of sputum.

Fluorescence spectra were obtained from cells from sputum and pleural effusions stained with different fluorescent dyes and fixed by alternate methods. The spectra were referenced to a standard allowing for fluorescence comparisons of unstained and stained cells under various conditions. The metachromasia of acridine orange-stained cells offers nuclear/cytoplasmic differentiation in a single stain; mithramycin and propidium iodide do not. Unstained cells have an appreciable amount of green (546 nm) fluorescence, as does Carbowax in Saccomanno's preservative. Cytoplasm stained with acidine orange also has appreciable green fluorescence. Consequently, cells with much cytoplasm have high total fluorescence. Cytoplasmic fluorescence is negligible with mithramycin or propidium iodide. The metachromasia of acridine orange-stained cells is altered by alcohol and Carbowax levels in fixatives, keeping other factors constant.     

In situ hybridization and chromosome banding in mammalian species

Chromosome banding is often required in conjunction with fluorescent in situ hybridization of labelled probes for chromosome painting, satellite DNA and low-copy sequences to allow identification of chromosomes and simultaneous probe localization. Here, we present a method that reveals both patterns with only one observation step. The band pattern is produced by restriction-enzyme digestion of chromosomes, followed by fixation with paraformaldehyde in PBS, a short chromosome denaturation step in hybridization solution, and then standard in situ hybridization, washing and detection protocols. Using a range of different mammalian species, chromosome-banding patterns were immediately recognizable, although synchronisation procedures normally required for high- resolution G-banding were not needed. Unlike other methods available, only one round of observation is required using a conventional fluorescence microscope, the method works without modification in many species, and in situ hybridization is not used for chromosome identification (allowing multiple targets and minimizing background). The banding pattern is probably generated by a combination of DNA dissolution and heterochromatin reorganisation after enzyme digestion, followed by paraformaldehyde fixation of the new chromatin structure and incomplete denaturation. The method is of widespread utility in comparative genomics and genome organization programmes.     

Alexa dyes, a series of new fluorescent dyes that yield exceptionally bright, photostable conjugates.

Alexa 350, Alexa 430, Alexa 488, Alexa 532, Alexa 546, Alexa 568, and Alexa 594 dyes are a new series of fluorescent dyes with emission/excitation spectra similar to those of AMCA, Lucifer Yellow, fluorescein, rhodamine 6G, tetramethylrhodamine or Cy3, lissamine rhodamine B, and Texas Red, respectively (the numbers in the Alexa names indicate the approximate excitation wavelength maximum in nm). All Alexa dyes and their conjugates are more fluorescent and more photostable than their commonly used spectral analogues listed above. In addition, Alexa dyes are insensitive to pH in the 4-10 range. We evaluated Alexa dyes compared with conventional dyes in applications using various conjugates, including those of goat anti-mouse IgG (GAM), streptavidin, wheat germ agglutinin (WGA), and concanavalin A (ConA). Conjugates of Alexa 546 are at least twofold more fluorescent than Cy3 conjugates. Proteins labeled with the Alexa 568 or Alexa 594 dyes are several-fold brighter than the same proteins labeled with lissamine rhodamine B or Texas Red dyes, respectively. Alexa dye derivatives of phalloidin stain F-actin with high specificity. Hydrazide forms of the Alexa dyes are very bright, formaldehyde-fixable polar tracers. Conjugates of the Alexa 430 (ex 430 nm/em 520 nm) and Alexa 532 (ex 530 nm/em 548 nm) fluorochromes are spectrally unique fluorescent probes, with relatively high quantum yields in their excitation and emission wavelength ranges.     

Comparative viability of bovine sperm frozen on a cryomicroscope or in straws

The accuracy and repeatability of freezing rates and effects of evaporation were examined using a new cryomicroscope system to establish its usefulness in assessing the development of cryopreservation protocols for bovine semen. Post-thaw sperm plasma membrane integrity, as assessed by using combinations of fluorescent stains and flow cytometry, was used in evaluating protocols for freezing spermatozoa on the cryomicroscope. Semen was diluted in Test-yolk (20%) extender containing 7% glycerol and frozen in 0.5-ml straws, 0.25-ml straws (over liquid nitrogen for 8 min) or in a quartz crucible using a Linkam BCS 196 cryomicroscope. Thawed samples were diluted with Hepes buffered medium containing 0.1% bovine serum albumin (BSA) and stained with either carboxymethylfluorescein diacetate (CMFDA) or SYBR-14 each in combination with propidium iodide (PI). Flow cytometry analysis of the samples revealed 2 major populations: 1) spermatozoa with intense green fluorescence (stained with CMFDA or SYBR-14), which were classified as plasma membrane-intact and 2) spermatozoa with intense red fluorescence, (stained with PI), which were classified as plasma membrane-damaged. Samples frozen using the cryomicroscope contained 29 and 26 % plasma membrane-intact (PMI) sperm cells, as assessed by CMFDA and SYBR-14, respectively. Cryopreservation of spermatozoa in 0.5-ml straws resulted in 22 and 20% plasma membrane- intact sperm cells, while spermatozoa frozen in 0.25-ml straws resulted in 34 and 31% PMI sperm cells for CMFDA and SYBR-14, respectively. No significant difference was observed (P > 0.05) for PMI spermatozoa stained with either CMFDA or SYBR-14. In addition, the ability to recover spermatozoa after freezing on the cryomicroscope establishes the Linkam BCS 196 as a useful tool for the study of sperm cell cryopreservation.     

Vital Fluorochromes as Tracers for Fungal Growth Studies

Eight fluorescent dyes were tested for staining the spores or mycelia of six fungi and for their translocation into new growth when the preloaded spores or mycelia were incubated on agar coated coverslips. The dyes studied were Cellufluor, Nile red, fluorescein diacetate (FDA), carboxyfluorescein diacetate (CFDA), chloromethylfluorescein diacetate (CMFDA), aminochloromethyl coumarin (CMAC), and the carbocyanines DiIC₁₈(3) and DiOC₁₈(3). The fungi on which the dyes were tested included Botrytis cinerea, Fusarium oxysporum f.sp. lycopersici, Idriella bolleyi, Pythium oligandrum, Sclerotium cepivorum and Trichoderma. harzianum Most of the fluorochromes gave good initial staining of mycelia or spores; however, FDA fluorescence faded rapidly during excitation, making it impractical for use. Also, the spores and mycelia of B. cinerea and T. harzianum sometimes gave weak fluorescence with Nile red, and the spores and mycelia of I. bolleyi gave unusually weak fluorescence with Cellufluor. There were other variations of staining among the different dye/fungus combinations, but each fungus showed strong fluorescence with at least one dye. Cellufluor, CMFDA, CMAC and, to a lesser extent, CFDA and Nile red, were efficiently translocated into new growth from preloaded spores or mycelia, whereas FDA, DiIC₁₈(3) and DiOC₁₈(3) were not. The extent of translocation ranged from 0.1 to 1.2 mm in germ tubes arising from spores, and from 0.9 to 9.2 mm in mycelia extending from dye-loaded agar blocks. The findings suggest that fluorescent dyes could be used as markers or tracers in studies of fungal growth and differentiation.     

Confocal laser scanning microscopy of whole mouse ovaries: excellent morphology, apoptosis detection, and spectroscopy.

BACKGROUND: Ovaries consist of numerous follicles, oocytes, and granulosa cells in different stages of development. Many of these follicles will undergo an apoptotic process during the lifetime of the animal. By using proper tissue preparation methods, the events within the whole ovary can be observed by using 3D confocal microscopy. METHODS: Whole ovaries were stained with LysoTracker Red (LT), fixed with 4% paraformaldehyde (PF) and 1% glutaraldehyde (Glut), dehydrated with methanol (MEOH), and cleared with benzyl alcohol and benzyl benzoate (BABB). Using this tissue preparation technique, the ovary becomes relatively transparent, allowing its morphology to be observed with confocal microscopes. A spectral imaging system (PARISS) located on a conventional microscope was used to interpret the LT dye spectra and fixation products in the tissues with different excitation wavelengths. RESULTS: Apoptosis in the follicle was detected as clusters of intensely stained granulosa cells located in close proximity to the oocytes. The fixation with Glut and PF preserved morphological details, increased tissue fluorescence, thus increased the signal to noise of the background image. CONCLUSIONS: Thick tissues can be imaged after they are properly stained, aldehyde fixed, and BABB cleared. LT intensely stained single cells or clusters of apoptotic cells in the follicles and the nucleolus. Spectral differences between LT as an indicator of apoptosis and Glut-PF fixation was used to visualize ovarian morphology and apoptosis. The PARISS spectrophotometer revealed spectral peaks for LT at 609.6 nm and for Glut-PF at 471.3 nm. The proper use of the spectra from these fluorescence molecules is the foundation for high quality morphological images of apoptosis. By sequentially imaging the two probes with a 488 nm laser and a 543/568 nm laser, there was a reduction in fluorescent cross talk and an increase in image quality.     

Identification of single bacterial cells using digoxigenin-labelled, rRNA-targeted oligonucleotides.

Oligonucleotides were end-labelled with digoxigenin (DIG), chemically at the 5'-end or enzymically at the 3'-end. Following specific in situ hybridization of these probes to intracellular rRNA molecules, the hybrids were detected with anti-DIG Fab fragments labelled with fluorescent dyes. The antibody fragments penetrated through the bacterial cell periphery and specifically bound to their antigens. Probe-conferred and non-specific fluorescence per cell were quantified by flow cytometry and compared to values obtained with end-labelled fluorescent probes. The DIG reporter molecules could also be detected in whole fixed cells by antibodies labelled with either alkaline phosphatase or horseradish peroxidase. The penetration of the large antibody-enzyme complexes into the cells required lysozyme/EDTA treatment prior to the hybridization and has so far only been achieved for Gram-negative bacteria. This technique has the potential for significant signal amplification as compared to the fluorescently end-labelled oligonucleotides hitherto used for single cell identification in microbial ecology. Moreover, it can be used instead of fluorescent assays in natural samples showing autofluorescence.     

Processing techniques for the demonstration of myelin basic protein in paraffin-embedded optic nerve: an immunoperoxidase study of the developing albino rat

A comparison was made of the effects of various fixation and processing conditions upon the antigenicity of myelin basic protein (MBP) in sections of paraffin-embedded optic nerve from the developing albino rat as judged by the unlabeled peroxidase-antiperoxidase technique. The fixatives used were: Perfix, 4% and 2% buffered paraformaldehyde (pH 7.4), 10% buffered formalin (pH 7.4); Bouin's, Clark's, and Carnoy's fixatives, and 20% formalin in a solution of HgCl2 that had been saturated at 1 degrees C. Perfix appeared to be the best fixative for the preservation of morphology and MBP antigenicity during the early stages of myelinogenesis but was not satisfactory during the later stages. The buffered aldehydes were slightly more destructive of MBP antigenicity than was Perfix, but they produced satisfactory results following the first postnatal week. Bouin's fixative was similar in effect to the buffered aldehydes, but nonspecific background staining was higher. HgCl2/formalin, Clark's and Carnoy's fixatives were unsuitable. No differences were noted in staining between material processed for embedding using 5, 30, or 60 min schedules.