Enzymatic and Non-Enzymatic Esterification of long Polyunsaturated Fatty Acids and Lysophosphatidylcholine in Isooctane

Phosphatidylcholine containing large amounts of long polyunsaturated fatty acid, eicosapentaenoic acid (C20:5) and docosahexaenoic acid (C22:6), was synthesized in isooctane. Immobilized phospholipase A₂ was used as a catalyst. A parallel non-enzymatic esterification reaction was investigated in separate experiments.

The concentrations of lyso-phosphatidylcholine, polyunsaturated fatty acids, water and the enzyme were varied over wide ranges as were the temperature and the reaction time. The type of enzyme, carrier and immobilization procedure were held constant.

The yield of phosphatidylcholine was relatively high (about 21%) when the concentration of polyunsaturated fatty acids was high (300 mg/g of reaction mixture) and the water content was low (below 30% of the dry immobilized enzyme). The highest yield of phosphatidylcholine was found at 80 hours and 75°C. However, at this temperature an extensive non-enzymatic reaction between polyunsaturated fatty acids and lyso-phosphatidylcholine occurred. At 80°C the polyunsaturated fatty acids were partly oxidized. Therefore, a temperature of 45°C to 65°C is probably the optimum temperature for the reaction.     

Specific Staining of Nucleolar Substance with Aceto-Carmine

A method is described for staining nucleoli intensely by treating tissues with formaldehyde, hydrolysing in normal HC1 at 60°C. and staining with aceto-carmine. With correct hydrolysis time, chromosomes and cytoplasm are almost colorless.

Formaldehyde increases the acidity of cell parts, especially the nucleolus, presumably by neutralizing the basic protein groups, and increases the resistance to hydrolysis, perhaps by protecting the phospholipoprotein complexes which are most abundant in the nucleolus.

Hydrolysis reduces the acidity of cell parts, chiefly by removal of nucleic acids.

Aceto-carmine stains cell structures which are weakly acid in character (about pH 4-5) probably by precipitating as large dye aggregates.

The technic appears to be highly specific for nucleoli and related cell bodies.     

Iron (II) Ions Induced Oxidation of Ascorbic Acid and Glucose

Lipid peroxidation (LPO) of polyunsaturated fatty acids (PUFAs) is suspected to be involved in the generation of chronic diseases. A model reaction for LPO is the air oxidation of PUFAs initiated by Fe²⁺ and ascorbic acid. In the course of such model reactions glycolaldehyde (GLA) was detected as main aldehydic product. Since it is difficult to explain the generation of GLA by oxidation of PUFAs, it was suspected that GLA might be derived by oxidation of ascorbic acid. This assumption was verified by treatment of ascorbic acid with Fe²⁺.

Produced aldehydic compounds were trapped by addition of pentafluorobenzylhydroxylamine hydrochloride (PFBHA-HCl), trimethylsilylated and finally identified by gas chromatography/mass spectrometry (GC/MS). Oxidation of ascorbic acid with O₂ in presence of iron ions produced not only glycolaldehyde (GLA), but also glyceraldehyde (GA), dihydroxyacetone (DA) and formaldehyde. Glyoxal (GO) and malondialdehyde (MDA) were detected as trace compounds.

The yield of the aldehydic compounds was increased by addition of lipid hydroperoxides (LOOH) or H₂O₂. The buffer influenced the reaction considerably: Iron ions react with Tris buffer by producing dihydroxyace-tone (DA). Since ascorbic acid is present in biological systems and Fe²⁺ ions are obviously generated by cell damaging processes, the production of GLA and other aldehydic components might add to the damaging effects of LPO.

Glucose suffers also oxidation to short-chain aldehydic compounds in aqueous solution, but this reaction requires addition of equimolar amounts of Fe²⁺ together with equimolar amounts of H₂O₂ or 13-hydroperoxy-9-cis-11-trans-octadecadienoic acid (13-HPODE). Therefore this reaction, also influenced by the buffer system, seems to be not of biological relevance.     

Influence of Igepal reverse micellar and micellar systems on activity and stability of heme peroxidases

The activities of horseradish peroxidase (HRP) and lactoperoxidase (LPO) entrapped in reverse micelles of Igepal CO-520 in cyclohexane were studied. When the molar ratio of water to surfactant, w ₀ was ≥13, the activity of HRP encapsulated in the water pool of the reverse micelle was comparable with that measured in buffer. For LPO, however, lower activity was observed after its incorporation into the same system.

The activity of the investigated peroxidases was also measured in an aqueous solution of Igepal CO-720 or after incubation with this surfactant. The enzymes became inactivated in an aqueous micellar solution of Igepal CO-720, although this process was reversible.

The stability of HRP and LPO at 37 or 50°C was lower in the micellar systems than in buffer with the exception for HRP in reverse micelles at 50°C.     

Lipase-catalyzed esterification of glycerol and polyunsaturated fatty acids from fish and microalgae oils

This paper reports on the synthesis of triglycerides by enzymatic esterification of polyunsaturated fatty acids (PUFA) with glycerol. The lipase Novozym 435 (Novo Nordisk, A/S) from Candida antarctica was used to catalyze this reaction. The main factors influencing the degree of esterification and triglyceride yield were the amount of enzyme, water content, temperature and glycerol/fatty acid ratio. The optimum reaction conditions were established as: 100 mg of lipase; 9 ml hexane; 50°C; glycerol/PUFA concentrate molar ratio 1.2:3; 0% initial water; 1 g molecular sieves added at the start of reaction; and an agitation rate of 200 rpm. Under these conditions, a triglyceride yield of 93.5% was obtained from cod liver oil PUFA concentrate; the product contained 25.7% eicosapentaenoic acid and 44.7% docosahexaenoic acid. These optimized conditions were used to study esterification from a PUFA concentrate of the microalgae Phaeodactylum tricornutum and Porphyridium cruentum. With the first, a triglyceride yield of 96.5%, without monoglycerides and very few diglycerides, was obtained after 72 h of reaction; the resulting triglycerides had 42.5% eicosapentaenoic acid. A triglyceride yield of 89.3% was obtained from a P. cruentum PUFA concentrate at 96 h of reaction, which contained 43.4% arachidonic acid and 45.6% EPA. These high triglyceride yields were also achieved when the esterification reaction was scaled up 5-fold.     

Studies on the Preparation and Recoloration of Fuchsin Sulfurous Acid

Some of the factors affecting the recoloration of Schiff's Reagent (fuchsin sulfurous acid or FSA) by formaldehyde have been studied spectrophotometrically to determine the optimal conditions for the reaction of this reagent with aldehydes.

Of the various reducing agents utilized in the preparation of the leuco dye from basic fuchsin, sodium sulfite and bisulfite proved to be the most satisfactory for obtaining in the reagent maximal sensitivity to recoloration with minimal quantitative variation of results.

The relative proportions of reducing agent and basic fuchsin present in die leuco dye determine its sensitivity to recoloration. Under the conditions of the present experiments, greatest reagent recoloration was obtained when the leuco dye contained 0.01 mole of sodium bisulfite and 0.001 mole of basic fuchsin per 100 ml., a ratio of 10/1.

The recoloration of a given amount of FSA is related to the amount of aldehyde and the temperature of the reaction.

The present experiments indicate the desirability of standardizing the composition of FSA and the conditions under which it is used, if the results of different investigators are to be readily reproduced or compared.     

Acylation of Amino Acids by Aminoacylase in Non-Conventional Media

N-Acylation of amino acids by aminoacylase (EC 3.5.1.14) isolated from pig kidney was investigated. In water containing organic solutions native aminoacylase proved to be unsuitable for acylation reactions. Covalent immobilization enhanced the stability of aminoacylase in organic solvents (dimethylformamide and dioxane).

The support gel beads showed extraordinary swelling behaviour in dimethylformamide solutions of different water content with respect to their liquid uptake and the temperature sensitivity of swelling.

N-Acylation activity of immobilized enzyme proved to be sufficient in case of L-methionine as substrate and acetate as acylating agent. In addition, the peptide (Ala-Ala) formation was unambiguous but the reaction was much slower than acylation under the given conditions.     

α-Chymotrypsin Immobilized on Chitin. Relationships Between the Enzyme Kinetic Constant and Support Structure

-Chymotrypsin was immobilized on chitin from squills, lobsters and prawns by means of glutaraldehyde. Hydrolase and peptide synthetase activities were determined in aqueous and homogeneous aqueous-organic media, respectively.

The results show -chymotrypsin immobilized on chitin from prawn to be the most active immobilized derivative based on its synthetase activity (90% yield of Bz-Tyr-Leu-NH₂ in carbonate buffer, p^H 9 containing 70% 1,4- butanediol).

The relationship between the kinetic constant of hydrolysis and chitin structure was also studied. -Chymotrypsin immobilized on prawn chitin was found to be the best derivative in kinetic terms.

The stability of the three derivatives was studied at 37C.     

Plasma Lipid Peroxides in Murine Sepsis —Sex Differences and Effect of Antioxidative/Anti-Inflammatory Therapy

In order to investigate the influence of antioxidative anti-inflammatory combination therapy (AACT) with dimethyl sulfoxide (DMSO). chlorpromaittic (CPZ) and vitamin E upon the activity of the inflammation. plasma lipid peroxide was measured as thiobarbituric acid reactive substance (TBARS) 12hrs postoperatively in the moclitied cecal ligation sepsis model in the mouse.

Significantly higher TBARS levels were found in the male control group (13.7 ± 0.7nmol MDA/ml) than in the female control group (11.6 ± 0.6nmol MDA/ml).

The operated male group had significantly higher TBARS levels (16.2 ± 0.6 nmol MDA/ml) than the unoperdted male control group (13.7 ± 0.7nmol MDA/ml). No increase of TBARS levels was observed in the operated female group.

Both male and female operated group. when postoperatively treated with AACT had the same TBARS level as the not operated male or female control group.

Survival curves of operated male and female group did not demonstrate any significant difference. The survival was better in an operated male and an operated female group. when postoperatively treated with AACT.

It was concluded that the applied TBARS test IS too insensitive to follow the activity of the inflammation and has no predictive value for the outcome of sepsis in this model.     

The Effect of Substrate Hydrophobicity on the Kinetic Behaviour of Immobilized Candida rugosa Lipase

Candida rugosa lipase (EC 3.1.1.3.) was immobilized in a hydrophilic polyurethane foam and used in the hydrolysis of olive oil, in H-hexane. The results obtained were compared with those from a previous study, in which the same lipase preparation was used in the esterification of ethanol with butyric acid.

The initial rate of hydrolysis increased exponentially with increasing olive oil concentration. In contrast, for the esterification reaction, Michaelis-Menten kinetics with inhibition by both substrates, had been observed.

The effect of medium viscosity, stirring conditions and size of immobilization particles could not explain the observed kinetics of the hydrolytic reaction. However, a direct relationship was observed between the log P values of the reaction medium and the initial rate of hydrolysis, i.e., activation of the immobilized Candida rugosa lipase appears to be promoted by a high hydrophobicity of the reaction medium.

In the case of the esterification reaction, no similar correlation was found.     

Synthesis and polymorphic phase behaviour of polyunsaturated phosphatidylcholines and phosphatidylethanolamines

A series of phosphatidylcholines and phosphatidylethanolamines was synthesized containing two acyl chains of the following polyunsaturated fatty acids: linoleic acid (18:2), linolenic acid (18:3), arachidonic acid (20:4) and docosahexaenoic acid (22:6). In addition two phospholipids with mixed acid composition were synthesized: 16:0/18:1_c phosphatidylcholine and 16:0/18:1_c phosphatidylethanolamine. The structural properties of these lipids in aqueous dispersions in the absence and in the presence of equimolar cholesterol were studied using ³¹P-NMR, freeze fracturing and differential scanning calorimetry (DSC).The phosphatidylcholines adopt a bilayer configuration above 0°C. Incorporation of 50 mol% of cholesterol in polyunsaturated species induces a transition at elevated temperatures into structures with ³¹P-NMR characteristics typical of non-bilayer organizations. When the acyl chains contain three or more double bonds, this non-bilayer organization is most likely the hexagonal H_II phase, 16:0/15:1_c phosphatidylethanolamine shows a bilayer to hexagonal transition temperature of 75°C. The polyunsaturated phosphatidylethanolamines exhibit a bilayer to hexagonal transition temperature below 0°C which decreases with increasing unsaturation and which is lowered by approximately 10°C upon incorporation of 50 mol% of cholesterol. Finally, it was found that small amounts of polyunsaturated fatty acyl chains in a phosphatidylethanolamine disproportionally lower its bilayer to hexagonal transition temperature.     

Further Experiments with the Masson Trichrome Modification of Mallory's Connective Tissue Stain

Several dyes, notably ponceau 2R, azofuchsin 3B, nitrazine yellow, and Biebrich scarlet may replace imported “ponceau de xylidin” in the Masson ponceau acid fuchsin mixture. Of these Biebrich scarlet appears to be the best and may be used without acid fuchsin.

A mixture of equal parts of 5% solutions of phosphomolybdic and phosphotungstic acids is much superior to either acid alone and gives adequate mordanting in 1 minute at 22°C.

With the fast green modification, times in plasma and fiber stains can be reduced to 2 minutes each. With anilin blue a 4-minute plasma stain is required. One-minute final differentiation in 1% acetic acid is adequate.

Primary mordanting of formalin material may be accomplished by 5 minutes in saturated aqueous mercuric chloride or 2 minutes in saturated alcoholic picric acid. Three minutes washing in running water is required after these mordants.     

Parameters affecting incorporation and by-product formation during the production of structured phospholipids by lipase-catalyzed acidolysis in solvent-free system

By-product formation is a serious problem in the lipase-catalyzed acyl exchange of phospholipids (PL). By-products are formed due to parallel hydrolysis reactions and acyl migration in the reaction system. A clear elucidation of these side reactions is important for practical operation in order to minimize by-products during reaction. In the present study we examined the lipozyme RM IM-catalyzed acidolysis for the production of structured phospholipids between phosphatidylcholine (PC) and caprylic acid in the solvent-free system. A five-factor response surface design was used to evaluate the influence of major factors and their relationships on a number of responses reflecting the turnover of main reactions as well as side reactions. The five factors, including enzyme dosage, reaction time, reaction temperature, substrate ratio (mol/mol caprylic acid/PC) and water addition, were varied at three levels with two star points. All parameters besides water addition had an effect on the incorporation of caprylic acid into PC and lysophosphatidylcholine (LPC). Reaction time and enzyme dosage showed increased effect on incorporation into PC, while substrate ratio and reaction temperature showed opposite effect. The PC content decreased with increase of all parameters except for substrate ratio. Optimal conditions are recommended as enzyme dosage 40%, reaction temperature 55 °C, water addition 1%, reaction time 70 h, and substrate ratio 6 mol/mol caprylic acid/PC. Under these conditions an incorporation of 46% with PC accounting for 53% of the PL fraction can be obtained. Regiospecific analysis of the product revealed that the caprylic acid was mainly incorporated into the sn-1 position accounting for 80% of the fatty acids incorporated.     

Cell-Dependent Chemiluminescence. Modulation of the N-Formyl Chemotactic Peptide (Fnlpntl) Mediated Oxidative Burst in Human Polymorphonuclear Leukocytes (Pmnl) By Murine Monoclonal Antibody Nms-1

Binding of purified monoclonal antibody (moAB) IgM NMS-1 to suspended initially spherical living human PMNLs is not associated with the generation of chemiluminescence but was found to enhance the chemiluminescence response to the N-formyl chemotactic peptide FNLPNTL.

We investigated quantitatively the kinetics of oxygen metabolite generation by PMNLs stimulated with FNLPNTL ± moAB NMS-1 using luminol-dependent chemiluminescence as a very sensitive detection system. Chemiluminescence detection allowed the analysis of the time sequence of onset and development of reactive oxygen metabolites following stimulation of PMNLs by FNLPNTL in the presence of moAB NMS-1. The increase of response of PMNLs stimulated with FNLPNTL in the presence of moAB NMS-1 depended on the concentration of the antibody and the sequence of stimulus addition.

Stimulation of human PMNLs by 10nM FNLPNTL induced a rapid burst of chemiluminescence which peaked ∼5min after stimulus addition. The subsequent addition of moAB NMS-1 (≥2μg/ml DPBS(+)—0.1% HSA, 37°C) to FNLPNTL-stimulated PMNLs—after the FNLPNTL-mediated response had already decayed (16-18 min) - without delay induced a second burst of oxygen metabolite generation. The magnitude of this second peak of activation was dose-dependent.

Treatment of PMNLs with moAB NMS-1 (≥ 1μg/ml DPBS(+)—0.1% HSA, 3 min, 37°C)—prior to FNLPNTL (10nM) stimulation - increased rate and magnitude of the FNLPNTL-mediated response. This response is biphasic with the first peak at the FNLPNTL position and a second, higher peak ∼16 min after FNLPNTL addition. The magnitude of response was dose-dependent. The latency (lag time) of the respone was not changed compared to controls which received no moAB NMS-1 treatment.

The observed moAB NMS-1 dependent increase in FNLPNTL-mediated chemiluminescence is transient (5-60 min), persistent activation was not detected.     

Carboxypeptidase Y-Catalyzed Reaction in Systems Containing Organic Solvent

The effect of organic solvents on carboxypeptidase Y (a serine carboxypeptidase from yeast)-catalyzed hydrolysis of amino acid ester and peptide synthesis from N-acyl amino acid ester and amino acid amide was investigated.

The K_m value of ester hydrolysis increased with an increase in the solvent content. Dioxane was the most effective and dimethyl sulfoxide (DMSO) the least, whilst K_cat showed a tendency to increase slightly in N, N-dimethylformamide (DMF) and DMSO. For dioxane and acetonitrile (MeCN) a maximum was observed.

In peptide formation from Fua-Phe-OEt and Gly-NH₂, dioxane and MeCN supported high product yield at molar fractions smaller than ca. 0.05 but the yield decreased significantly at higher fractions, although a relatively constant selectivity (ratio of the peptide bond formed to the ester consumed) was maintained. DMSO gave rather low peptide yields and selectivity even at lower molar fractions. DMF showed an intermediate tendency.

An apparent saturation parameter of the amine component was evaluated and the dissociation constant of a complex between acyl-enzyme and amino acid amide (K_n), as well as the rate constant of aminolysis exerted by the amino acid amide bound correctly on the enzyme (K_n), was calculated by initial rate analysis of peptide formation. In contrast to K_m values, K_n decreased with increasing concentrations of organic cosolvent. while a suppressive effect was observed (except for DMSO) on the K_n parameter.

Effects of the solvent practically immiscible in water was also studied by use of the enzyme physically “immobilized” on glass beads.     

The Influence of Fatty Acid and Glycerol on the Kinetics of Fat Hydrolysis by Candida Rugosa Lipase in a Membrane Reactor

The kinetics of lipid-hydrolysis by Candida rugosa lipase was investigated in a membrane reactor and in an emulsion system. Two models were chosen to describe the kinetics of the enzyme:

(1) The hydrolysis of triglycerides to fatty acids was considered to be a chain reaction with the intermediary products di- and mono-glyceride; each step was assumed to be a reversible second-order reaction. The reaction rate constants were determined from batch experiments. The experimental results could be described with this model.

(2) For process optimization and control, a model based on the power law was developed. For this model, the rate of hydrolysis was measured as a function of fatty acid and glycerol concentrations. Relations for the initial rate and equilibrium ester fraction as a function of the glycerol concentration were determined. Further, the reaction rate could be described with the power-law model with a power of 1.75 in the hydrolyzable ester fraction for a wide range of glycerol concentrations. The model with power 1.75 gave much better results when compared to a similar first order model. Although simpler, the first order model can not be used. The power law model was applied in the simulation of a reactor composed of three modules. The fatty acid production rate was calculated for this reactor system as a function of the outgoing glycerol concentration at different conditions.     

Estimation of plasma free fatty acids as the trimethylsilyl (TMS) esters

Quantitative estimates of free fatty acids in total lipid extracts of plasma were obtained by glc on nonpolar columns following trimethylsilylation. The presence of other lipid esters in the reaction mixture had no effect upon the yield of the trimethylsilyl (TMS) esters or upon their resolution on the glc column. Routine quantitations by gas-liquid chromatography (glc) were obtained on 2 ft × 1/8 in. o.d. stainless steel columns packed with 3% OV-1 on 100–120 mesh Gas Chrom Q by means of temperature programming in the range 175–350°C with tridecanoin as internal standard. High resolution glc of the TMS esters of fatty acids was done on a 6 ft × 1/8 in. o.d. glass column packed with 1% SE-30 on Gas Chrom Q. In both instances the fatty acids were resolved on the basis of carbon number and by the presence or absence of double bonds. On gas chromatography/mass spectrometry (GC/MS), TMS esters of fatty acids were shown to yield proportionally greater amounts of high mass fragments, including the parent ions, than their methyl or ethyl esters, which has special advantages for the detection and characterization of polyunsaturated fatty acids.     

The Plastic Ethyl Methacrylate in Routine Laboratory Technic

The use of ethyl methacrylate as a permanent, transparent, colorless medium for mounting in toto invertebrate and vertebrate embryos and small adults is demonstrated.

The liquid monomer is partially polymerized by heating over a hot-plate, the reaction being aided by the use of benzoyl peroxide as a catalyst. The object to be mounted is fixed, stained, dehydrated, and cleared in the usual manner, and is then infiltrated with the partially polymerized ethyl methacrylate. It is oriented on a hardened base in a glass or porcelain dish, and the mold is then allowed to harden (polymerize) completely at a temperature of 38-40° C. under a 250-watt infra-red, ultra-violet bulb. After the block is removed from the dish it may be polished by the ordinary metallurgical methods. More than 40 species of animals have been satisfactorily treated in this manner.     

Hematoxylin Substitutes: Fluorone Black and Methyl Fluorone Black (9-Phenyl- and 9-Methyl-2, 3, 7-Trihydroxy-6-Fluorone) as Metachrome Iron Alum Mordant Dyes

The phenyl and methyl trihydroxyfluorones, hitherto used histologically only in the rather difficult and unreliable Turchini tecbnics for discriminating deoxyribonucleic from ribonucleic acid, find a new use as iron mordant metachrome dyes which act as nuclear stains. Nuclear staining is unaffected by acid extraction of nudeic acids, as with hematoxylin lakes.

The two dyes, named by Liebermann and Lindenbanm 9-phenyl-2, 3, 7-trihydroxy-6-fluorone and 9-methyl-2, 3, 7-trihydroxy-6-Ruorone, have also acquired (illustrating with the phenyl homolog) longer chemical names of the form 2, 6, 7-trihydroxy-9-phenylisoxanthene-3-one (Eastman). Aldrich and Pfalz-Bauer adhere to the Liebermann-Lindenbaum nomenclature. The trivial name fluorone black is proposed for the phenyl homolog and methyl fluorone black for the methyl homolog.

The iron lake of fluorone black appears to be a useful substitute for iron hematoxylin, methyl fluorone black less useful. Neither dye has the diverse capability of hematoxylin.

Aided by a contract from the National Cancer Institute NO-1-CB-43912     

An Ice-Solvent Method of Drying Frozen Tissue for Plant Cytology

A freeze-dry method where cold absolute ethanol is used as a dehydrating agent in place of vacuum dehydration has been applied to various plant materials with good cytological results. The method involves: (a) freezing rapidly small pieces of tissue 1 cubic mm or less in partly frozen isopentane cooled with liquid nitrogen, (b) transferring quickly to vials of cold absolute ethanol at -41° to -45°C, and (c) holding within this temperature range for 3 days to dissolve the ice. A simply constructed cryostat is used to maintain the vials of absolute alcohol and tissue at the cold temperature. This consists of a semi-frozen constant temperature bath of either 65% ethanol or pure diethyl oxalate in a tightly covered beaker which fits within a large dewar flask half filled with dry ice. The bath is arranged so that it will be on top of and in contact with the dry ice but properly insulated to prevent freezing completely.

The resulting dried tissue is very unstable in either water or hot absolute ethanol; therefore, to prevent loss of cytological detail during further processing, the tissue must be treated to render the proteins insoluble. Either (a) replace the cold absolute ethanol in the tissue vials with cold (approx. -40°C) 75% ethanol, warm slowly to 60°C, and hold for 1 hour, or (b) replace with cold acidulated 95% ethanol (100 ml. of 95% ethanol + 0.30 ml. of glacial acetic acid), warm to room temperature, and hold for 30 minutes. Following either treatment the tissues are dehydrated to absolute alcohol and embedded in paraffin by the usual technics. Sections are attached to slides by flattening over warm water and drying.

When epidermis from onion bulbs was used as a basis of comparison of fixed and living material with the phase-contrast microscope, the mitochondria, plastids, and other fine structures in fixed preparations appear to be nearly identical with the living. Fat droplets disappear. With larger tissues such as onion root tips, thin freehand sections must be prepared before freezing to obtain good cytological results. The application of the method to cytochemical studies is discussed and in many ways it seems to be as useful as the freeze vacuum-dry method.