Application of the standard addition method for the absolute quantification of neutral lipids in microalgae using Nile red

Microalgae are considered one of the best candidates for biofuel production due to their high content in neutral lipids, therefore, an accurate quantification of these lipids in microalgae is fundamental for the identification of the better candidates as biodiesel source.Nile red is a fluorescent dye widely employed for the quantification of neutral lipids in microalgae. Usually, the fluorescence intensity of the stained samples is correlated to the neutral lipid content determined with standard methods, in order to draw a standard curve and deduce the neutral lipids concentration of the unknown samples positioning their fluorescence intensity values on the curve.Standard methods used for the neutral lipids determination are laborious and often implying solvent extraction and/or other transformation (i.e. saponification or transesterification) of the sample. These methods are also time consuming and may give rise to an underestimation of the lipid content due to variable extraction yields.The approach described in this paper combines the standard addition method and the fluorometric staining using Nile red, avoiding the association of traditional neutral lipids quantification methods to the fluorometric determination. After optimization of instrument parameters and staining conditions, a linear correlation between the fluorescence intensity of each sample stained with the Nile red and its neutral lipids content deduced with the standard addition method was identified. The obtained curve allowed the direct determination of neutral lipids content maintaining a linearity range from 0.12 to 12 μg of neutral lipids per ml of sample, without need of pre-concentration. This curve was then used in the quantification of the neutral lipids content in culture of Skeletonema marinoi (Bacillariophyceae) at different days from the inoculum. This method was also successfully applied on Chaetoceros socialis (Bacillariophyceae) and Alexandrium minutum (Dinophyceae).     

Characterization of the isolated calcium-binding vesicles from the green alga Mougeotia scalaris,and their relevance to chloroplast movement

The calcium-binding vesicles from the green alga Mougeotia scalaris were isolated and characterized after staining in vivo by neutral red or rhodamine B. They were found to possess, a protonated group with a pK_a-9.9, typifying phenolic hydroxyl groups; upon titration, both, phenolic compound(s) and vital dye were concomitantly released from the vesicular matrix. A shift in peak absorbance from 450 nm to 540 nm of the vitally stained vesicles indicated that the neutral form of neutral red was bound to the vesicular, matrix as an intermediate form, stabilized via intermolecular hydrogen bonds to the phenolic compound(s). Up to 8.5.10⁹ dye molecules were calculated to be adsorbed to a mean-size vesicle. Analysis of Langmuir adsorption isotherms, indicated that there were two binding sites each for both neutral red and rhodamine B. The isolated vesicles were devoid of calcium, probably because vesicular calcium, bound to the vesicle matrix, was displaced upon dye binding. Dye adsorption to the vesicles in vivo results in substantial inhibition of the reorientational movement of the Mougeotia chloroplast and is explained by dye-mediated disorder of the cellular calcium homoeostasis.Abbreviations NR neutral red - RB rhodamine B - SDS sodium dodecyl sulfate This paper is part of the Ph.D. thesis of F. Grolig at Justus-Liebig-Universität Giessen, FRG     

RELATIONSHIPS BETWEEN DISTRIBUTION OF TUBULIN-PARACRYSTALS,GRANULES STAINING WITH NEUTRAL RED AND CLEAVAGE ACTIVITY IN SEA URCHIN EGG-FRAGMENTS1,2

Unfertilized eggs of Japanese sea urchins (Temnopleurus toreumaticus and Hemicentrotus pulcherrimus)were separated by centrifugation into two fractions (nucleated light and enucleated heavy fragments) or three fractions (nucleated light, enucleated middle, and enucleated heavy fragments). These fragments were stained with neutral red and then fertilized. Cleavage took place only in fragments containing cytoplasmic granules staining with neutral red: no cleavage occurred in fragment without these granules. When fragments of unfertilized eggs were incubated in a solution in sea water of 10^?4M vinblastine, a mitotic poison that specifically binds to tubulin, tubulin-paracrystals were found in all kinds of fragments, irrespective of whether they had stained granules and cleavage activity. These results suggest that lack of cleavage activity in the fragments is not due to the absence of polymerizable tubulin molecules in the cytoplasm, but rather to other factors, such as the absence of granules staining with neutral red. In other words, there is no relation between the distribution of these granules and polymerizable tubulin, but a close relation between the number of stainable granules and cleavage activity. Quantitative analysis of tubulin molecules in the egg fragments is necessary for confirmation of this idea.     

Microwave-assisted Nile red method for in vivo quantification of neutral lipids in microalgae

In vivo determination of neutral lipids with Nile red fluorescence has been used as a rapid screening method for certain types of microalgae, but has been unsuccessful in others, particularly those with thick, rigid cell walls that prevent penetration of the fluorescence dye into the cell. To solve the problem, a microwave-assisted Nile red staining method for microalgal lipid determination was developed. In a two-step staining protocol, 50 and 60 s were selected as the optimal microwave times for the pretreatment and staining process, respectively. Moreover, several calibration methods for quantitative analysis of neutral lipids in microalgae were investigated and compared with conventional gravimetric methods. Factors that affected the in vivo quantification of cellular neutral lipids were also investigated. Application of the new method for detection and quantification of neutral lipids in a number of green microalgae was demonstrated.     

Electron microscopic characterization of calcium-binding physodes in the green alga Mougeotia scalaris

Summary Effect of the covalently cross-linking agents glutardialdehyde and osmium tetroxide, and of adsorption of the vital dye, neutral red, to the matrix of the calcium-binding vesicles from the green alga Mougeotia scalaris has been analysed in situ, both in terms of structural preservation and of the calcium-binding capacity of the vesicles. Upon cell fixation in glutardialdehyde without OsO₄, the vesicles appear to dissolve, but upon simultaneous fixation in glutardialdehyde with OsO₄ (1% w/v), the vesicles retain a globular form, are evenly stained by osmium and appear to be surrounded by a membrane-like structure. This structure was also observed around the vesicles in cells preincubated for 10 min in 0.1 mM neutral red and then fixed in glutardialdehyde/OsO₄ for 1 h. More detailed information of the matrix structure is obtained when simultaneous fixation of the Mougeotia cells was shortened to 15 min: a membrane-like structure was no longer observed around the vesicles. After cell treatment in the presence of neutral red, no calcium at all was found inside the vesicles. A small amount of calcium remained, when cells were fixed simultaneously and extensively in the absence of neutral red. However, calcium was found, to a considerable extent, inside the vesicles after short simultaneous fixation of the cells in the absence of neutral red. Based on the ultrastructural and elemental features presented here, the calcium-binding vesicles in Mougeotia appear to represent a member of the large family of (calcium-binding) physodes in lower plants (CaBP).     

Virulence and Enzyme Production of Erwinia carotovora ssp. atroseptica on Potato Tuber Tissue

The elicitation of pathogenesis on potato tuber slices by 6 strains of Erwinia carotovora ssp. atroseptica was investigated by neutral red vital staining and has been compared with bacterial growth rate, penetration ability, enzyme production and enzyme spectrum. The induction of enzyme synthesis (particularly, of the extracellular polygalacturonase) elicites the rot attack on tuber tissue and this requires a sufficient bacterial density. Due to wound healing, the inductors of enzyme production are removed, and after 48 h enzymes do not attack tuber tissue any more. Therefore, growth rate and penetration ability (to get the necessary bacterial density and inductor substances) may limit virulence. A similar influence of enzyme production and enzyme spectrum of the strains on the virulence was not detected.     

Ultrastructural and immunocytochemical observations of the nervous systems of three macrodasyidan gastrotrichs

The nervous systems of three macrodasyidan gastrotrichs, Dactylopodola baltica, Macrodasys caudatus and Dolichodasys elongatus, were investigated using immunocytochemistry and electron microscopy. Labelling of neural structures against serotonin revealed the presence of two pairs of cerebral cells, a dorsal cerebral connective, and paired ventral nerve cords in D. baltica. In M. caudatus and D. elongatus serotonin immunoreactivity was present in a single pair of dorsal cerebral cells and the ventral nerve cords; the dorsal connective of D. elongatus was also immunoreactive to serotonin and acetylated α‐tubulin. The presence of paired, serotonin‐like immunoreactive cells in D. baltica and other species may represent the plesiomorphic condition in Macrodasyida. The fine structure of the photoreceptors in D. baltica was also investigated to explore the potential ground pattern for eyes in the Macrodasyida. The pigmented photoreceptors of D. baltica contain a unicellular pigment cup, sheath cell and sensory receptor. The pigment cup contains numerous osmiophilic granules that presumably function to shield the eyes from downwelling light in the red part of the spectrum. Projecting into the pigment cup and sheath cell are numerous microvilli from a bipolar sensory cell. A single sensory cell may represent the plesiomorphic condition in Macrodasyida, with multiplication of sensory cells representative of more derived taxa.     

Selective Vital Staining of Companion Cells of Potato Tuber and Parsnip Root with Neutral Red

When staining the internal phloem region of a potato tuber with the vital stain neutral red, it was observed that files of elongated cells of narrow diameter were heavily stained nod were easily distinguishable from the more isodiametric parenchyma cells, many of which did not stain with neutral red. The elongated cells were identified as companion cells by locating the adjacent sieve-tube members through counterstaining with aniline blue and viewing under violet light. Of a numb of other plants surveyed, only parsnip roots possessed companion cells exhibiting a similar selective staining. In other plants both the companion cells and the surrounding parenchyma cells usually stained. Sieve-tube members never accumulated neutral red. It was concluded that the vacuoles of the companion cells of the potato tuber were stained by the ion trap mechanism because of the color of the accumulated stain, the lack of staining when neutral red was applied in an acidic solution, and the complete destaining after waking in dilute ammonium hydroxide.     

Selective vital staining of companion cells of potato tuber and parsnip root with neutral red.

When staining the internal phloem region of a potato tuber with the vital stain neutral red, it was observed that files of elongated cells of narrow diameter were heavily stained and were easily distinguishable from the more isodiametric parenchyma cells, many of which did not stain with neutral red. The elongated cells were identified as companion cells by locating the adjacent sieve-tube members through counterstaining with aniline blue and reviewing under violet light. Of a number of other plants surveyed, only parsnip roots possessed companion cells exhibiting a similar slective staining. In other plants both the companion cells and the surrounding parenchyma cells usually stained. Sieve-tube members never accumulated neutral red. It was concluded that the vacuoles of the companion cells of the potato tuber were stained by the ion trap mechanism because of the color of the accumulated stain, the lack of staining when neutral red was applied in an acidic solution, and the complete destaining after soaking in dilute ammonium hydroxide.     

Polysaccharides associated with chromosomes and their behavior in the cell cycle

Summary The interphase nuclei, especially of the latest stages (G₂ or early prophase), in the mouse and rat livers were stained blue in the histochemical demonstration of acidic polysaccharide according to the method of Mowry, while the mitotic chromosomes (meta-, ana- and telophase) in the livers, sea urchin embryos as well as root tips of broad beans were stained red, suggesting the presence of neutral polysaccharide. The giant polytenic interphase chromosome of the salivary gland of Chironomus larvae was stained blue in the puffing and nucleolar regions while stained red in the condensed part of the chromosome. ³H-Glucosamine as well as ³H-glucose incorporations into the regenerating rat liver nuclei reached a peak at 30 h after partial hepatectomy when the highest mitosis is seen. These results suggest that the nuclear acid mucopolysaccharide present in the swollen chromosomes may be converted to or replaced with the neutral polysaccharide in the condensed chromosomes such as mitotic chromosomes or polytenic giant interphase chromosomes.     

Histochemical staining of the complex carbohydrates of the midgut of the mosquito,Culex tarsalis coquillett

Histochemical staining of the midgut epithelial cell surface complex carbohydrates of the mosquito Culex tarsalis was examined electron microscopically. The microvillar surface is composed primarily of neutral vic-glycoconjugates; positively stained by silver methenamine and silver protein. Lanthanum and alcian blue staining indicate that the microvilli contain a minimal anionic component; possibly phosphoglycoconjugates. Similarly, the intercellular junctions contain a predominance of neutral vic-glycoconjugates. In addition, the intercellular junctions contain fixed positive charges, based on en bloc phosphotungstic acid staining. The midgut basolateral membrane system and the basal lamina are both highly anionic; stained by ruthenium red, tannic acid, alcian blue and periodic acid-chromic acid-phosphotungstic acid. The basolateral plasma membrane also contains some vic-glycoconjugates. Selective staining indicates that the anionic component of the basolateral plasma membrane and the basal lamina is predominantly carboxyl groups; no specific staining for sulfo- or phosphoglycoconjugates was observed.     

A Staining Method for Assessing the Viability of Esteya vermicola Conidia

The viability of conidia of Esteya vermicola, a potentially important biocontrol agent against the pinewood nematode Bursaphelenchus xylophilus, is usually determined by cultivation for 18–48 h in culture medium. As an alternative to this labor-intensive method, we have developed a rapid, simple, and low-cost staining method for assessing E vermicola conidia survival rates. A mixture of neutral red and methylene blue was found to be the most optimal among several stains that also included safranin O and Janus green B. This mixture stained nonviable conidia blue, in contrast to viable conidia, which were stained red in the cytoplasm and blue in the cell wall. This method may be particularly useful for traditional research laboratories, as it provides rapid results using common, relatively inexpensive laboratory equipment.     

Zur Physikochemie der vitalen Kern- und Plasmafluorochromierung vonAllium cepa-Epidermen

Summary Microfluorimetrically recorded fluorescence bands of vitally stained nuclei and protoplasts from the inner epidermis of yellow onion(Allium cepa) scales are compared with fluorescence bands of Tarions model solutions. The strong fluorescent staining of the nucleus and the weaker hue of the cytoplasm after application of acridine orange is mainly due to the accumulation of monomeric dye cations in polar cytoplasmic lipids. Vital fluorescent staining with neutral red shows similar effects, but in addition an accumulation of the dye base in apolar lipids can be ascertained without doubt. On the other hand, the major accumulation of the acid fluorochrome uranin (sodium fluorescein) does not take place in polar cytoplasmic lipids but, apparently, rather in the form of anions in the water phase of the ground cytoplasm and inner nuclear plasm owing to a mechanism of plasmatic ion trap.The proof that dye ions are present in vitally stained protoplasm suggests the possibility, that the familiar phenomenon of vacuole contraction may depend on a Donnan effect in the case of basic dyes and might be a consequence of the raising of osmotic values by dye anions in the case of acid dyes.Experiments with three phases (dye solution-oil-blood plasma) yield fluorescent stainings of blood plasma with acridine orange, neutral red and uranin, which may be compared to vital staining of nuclei and cytoplasm. The well-known properties of blood plasma-lipids suggest a similar function of cytoplasmic lipids, viz. as a vehicle of lipid transport in a mainly aquatic, molecular-disperse phase. A diagram (Fig. 15) illustrates the cooperation between sheetlike lipoproteid complexes (boundary layers) and lipoproteid complexes of the ground cytoplasm dispersed as particles.     

Network distribution of mitochondria and lipid droplets in human muscle fibres

The objective of the present study was to develop a combination of fluorescent stains that would allow visualisation of the network of mitochondria and lipid droplets (intramyocellular lipids or IMCL) in human skeletal muscle fibres by means of conventional and confocal microscopy. Muscle biopsies were taken from the vastus lateralis of three lean, healthy and physically active male subjects. Frozen muscle sections were stained for mitochondria using antibodies against three mitochondrial proteins; porin, cytochrome c oxidase (COX) and NADH-ubiquinol oxidoreductase and neutral lipids were stained with oil red O. Anti-COX staining produced images with the strongest fluorescence signal and the highest resolution of the mitochondrial network and this stain was successfully combined with the antibody against type I fibre myosin. A highly organised matrix arrangement of mitochondria within the sarcomeres (in pairs at the I-band) was observed in the oxidative type I fibres. The density of mitochondria was the highest in the subsarcolemmal region. Anti-COX staining was combined with oil red O demonstrating that in type I fibres lipid droplets are mainly located in the space between the mitochondria.     

Tracking living decapod larvae: mass staining of eggs with neutral red prior to hatching

Abstract

Mass staining of decapod females carrying eggs, with subsequent identification of hatched larvae in the environment, is a research tool with great potential for field ecologists wishing to track the movements of larvae. For this to be achieved, however, numerous requirements must be met. These include adequate dye solubility, short staining time, dye penetration through different tissues, dye retention within the organism, absence of toxic and behavioral effects, low visibility to predators of stained larvae, no loss of staining owing to preservatives and low cost. The dye, neutral red, appears to meet most of these requirements. This dye was used in aliquots of 0.7 g/770 ml seawater applied to the females of Norway lobster (Nephrops norvegicus) and European lobster (Homarus gammarus) for 10 min. This procedure stained lobster eggs and embryos so that hatched larvae could be distinguished easily by fluorescence microscopy from larvae that hatched from unstained eggs. Stained larvae that were preserved in 4% formaldehyde in seawater were still stained after 1 year. Larvae should not come in contact with ethanol, because it extracts the dye rapidly.     

Lipoide als zytochemisches Substrat der Bindungsorte basischer Vitalfarbstoffe in Blut-, Epithel- und Tumorzellen

Zusammenfassung Die zytochemische Natur der Anreicherungsorte basischer Vitalfarbstoffe (Akridinorange, Nilblausulfat und Neutralrot) im Zytoplasma von Blutplättchen, Leukozyten, Mäuseaszites-Tumorzellen und Epithelzellen wurde untersucht. Dabei stellte sich heraus, daß bei allen untersuchten Zelltypen Phospholipoide oder Phospholipoproteide als Substrat der umschriebenen Farbstoffbindung in lysosomalen Zellstrukturen dienen. Die Supravitalfärbung mit basischen Farbstoffen ist demnach als zytochemischer Lipoidnachweis geeignet, wenn unter bestimmten Bedingungen und unter Einhaltung eines definierten Färbestadiums (Stadium der granulären oder vakuolären Farbstoffverteilung) beobachtet wird. Auf die methodischen Vorteile der Supravitalfärbung wird hingewiesen.

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Summary The cytochemical character of the substrat for basic vital dyes (acridine orange, nil blue sulfate, neutral red) has been studied in the cytoplasma of blood platelets, leucocytes, Ehrlich Ascites tumor cells and epithelial cells. It could be demonstrated that the vital dyes are bound to lysosomal phospholipids or phospholipoproteins in the different cell types. Supravital staining with basic dyes is therefore considered to be a useful method for identifying lipid material in cytology, provided defined conditions and stades of staining are observed. The advantages of the proposed method are discussed.

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Stipendiat der Deutschen Forschungsgemeinschaft     

Does anthocyanin degradation play a significant role in determining pigment concentration in plants?

In contrast to the detailed knowledge available on anthocyanin synthesis, very little is known about its stability and catabolism in plants. Here we review evidence supporting in planta turnover and degradation of anthocyanins. Transient anthocyanin accumulation and disappearance during plant development or changes in environmental conditions suggest that anthocyanin degradation is controlled and induced when beneficial to the plant. Several enzymes have been isolated that degrade anthocyanins in postharvest fruit that may be candidates for in vivo degradation. Three enzyme groups that control degradation rates of anthocyanins in fruit extracts and juices are polyphenol oxidases, peroxidases and β-glucosidases. Evidence supporting the involvement of peroxidases and β-glucosidases in in vivo anthocyanin degradation in Brunfelsia flowers is presented. Understanding the in vivo anthocyanin degradation process has potential for enabling increased pigmentation and prevention of color degradation in crops.     

Acid glycosaminoglycans of mouse neuroblastoma C1300 cells

Synopsis Cultured mouse neuroblastoma C1300 cells were examined for acid glycosaminoglycans using the Alcian Blue and periodic acid-Schiff staining techniques. It was found that the cells contained hyaluronidase-resistant sulphated glycosaminoglycans; hyaluronic acid, chondroitin sulphate, and sialoglycoproteins were not demonstrated. These properties are held in common with foetal mouse brain spongioblasts in culture. In contrast to the latter cells, but in common with some peripheral neuronsin vivo, C1300 cells were stained by the periodic acid-Schiff technique for neutral polysaccharides. The results are discussed in relation to the poor adhesive properties of neuroblastoma cells.     

Altered lipid composition and enhanced lipid production in green microalga by introduction of brassica diacylglycerol acyltransferase 2

Higher lipid biosynthesis and accumulation are important to achieve economic viability of biofuel production via microalgae. To enhance lipid content, Chlamydomonas reinhardtii was genetically engineered with a key enzyme diacylglycerol acyltransferase (BnDGAT2) from Brassica napus, responsible for neutral lipid biosynthesis. The transformed colonies harbouring aph7 gene, screened on hygromycin‐supplemented medium, achieved transformation frequency of ~120 ± 10 colonies/1 × 10⁶ cells. Transgene integration and expression were confirmed by PCR, Southern blots, staining lipid droplets, proteins and spectro‐fluorometric analysis of Nile red‐stained cells. The neutral lipid is a major class (over 80% of total lipids) and most significant requirement for biodiesel production; this was remarkably higher in the transformed alga than the untransformed control. The levels of saturated fatty acids in the transformed alga decreased to about 7% while unsaturated fatty acids increased proportionately when compared to wild type cells. Polyunsaturated fatty acids, especially α‐linolenic acid, an essential omega‐3 fatty acid, were enhanced up to 12% in the transformed line. Nile red staining confirmed formation of a large number of lipid globules in the transformed alga. Evaluation of long‐term stability and vitality of the transgenic alga revealed that cryopreservation produced significantly higher quantity of lipid than those maintained continuously over 128 generations on solid medium. The overexpression of BnDGAT2 significantly altered the fatty acids profile in the transformed alga. Results of this study offer a valuable strategy of genetic manipulation for enhancing polyunsaturated fatty acids and neutral lipids for biofuel production in algae.