Isolamento e identificação de bactérias com potencial para realizar biorremediação de cobre. / Isolation and identification of bacteria with potencial to biorremediate copper.

Hornink, Karina Regueira

05 November 2015

A aplicação de microrganismos capazes de adsorver metais se destaca dentre as técnicas para biorremediação ambiental. O objetivo deste trabalho foi isolar e identificar bactérias com potencial de emprego nesta tecnologia. A partir de amostras de solo, água e sedimentos coletadas da mina Sossego da VALE em 4 eventos de coleta, foram isoladas 73 bactérias resistentes à altas concentrações de Cu2+. Para a identificação dos isolados utilizaram-se diversos métodos: MALDI-TOF; sequenciamento de parte dos genes 16S rRNA e rpoD; construção de árvores filogenéticas; e provas bioquímicas. Foram selecionadas 12 bactérias pertencentes a pelo menos, 8 espécies diferentes, sendo a maioria pertencente ao gênero Cupriavidus. 75% dos isolados apresentou resistência a Cu2+ superior a de C. metallidurans CH34, bactéria mais resistente a Cu2+ conhecida. Valores de adsorção de Cu2+ superiores aos desta bactéria também foram observados em 5 isolados. Os resultados obtidos indicam que os isolados selecionados apresentam alto potencial para aplicação em biorremediação ambiental. / The application of microorganisms capable of adsorbing toxic metals stands out from other bioremediation techniques. This study aimed to isolate and identify bacteria with potential for bioremediation of environments contaminated by copper ions. From soil, water and sediment samples collected at VALE`s Sossego mine collected at 4 different occasions, 73 copper resistant bacteria were isolated. For the identification of the isolates, various methods were used: MALDI-TOF, sequencing of part from the genes rRNA and rpoD; construction of phylogenetic trees; and biochemical tests. 12 bacteria that belong to at least 8 different species were selected. 75% of the isolates were resistant to Cu2+ exceeding C. metallidurans CH34, the, most resistant bacteria to Cu2+ known. The ion adsorption capacity of 5 isolates was greater than those for C. metallidurans. The results obtained for the bacterial isolates indicate that they have a high potential for application in environmental bioremediation.

Cupriavidus

Cupriavidus

Pseudomonas

Pseudomonas

Adsorção de metais

Bacterial biodiversity

Biodiversidade bacteriana

Biorremediação de metais

Cobre

Copper

Maldi-TOF

Maldi-TOF

Metal adsorption

Metals bioremediation

Isolamento e identificação de bactérias com potencial para realizar biorremediação de cobre. / Isolation and identification of bacteria with potencial to biorremediate copper.

Karina Regueira Hornink

05 November 2015

A aplicação de microrganismos capazes de adsorver metais se destaca dentre as técnicas para biorremediação ambiental. O objetivo deste trabalho foi isolar e identificar bactérias com potencial de emprego nesta tecnologia. A partir de amostras de solo, água e sedimentos coletadas da mina Sossego da VALE em 4 eventos de coleta, foram isoladas 73 bactérias resistentes à altas concentrações de Cu2+. Para a identificação dos isolados utilizaram-se diversos métodos: MALDI-TOF; sequenciamento de parte dos genes 16S rRNA e rpoD; construção de árvores filogenéticas; e provas bioquímicas. Foram selecionadas 12 bactérias pertencentes a pelo menos, 8 espécies diferentes, sendo a maioria pertencente ao gênero Cupriavidus. 75% dos isolados apresentou resistência a Cu2+ superior a de C. metallidurans CH34, bactéria mais resistente a Cu2+ conhecida. Valores de adsorção de Cu2+ superiores aos desta bactéria também foram observados em 5 isolados. Os resultados obtidos indicam que os isolados selecionados apresentam alto potencial para aplicação em biorremediação ambiental. / The application of microorganisms capable of adsorbing toxic metals stands out from other bioremediation techniques. This study aimed to isolate and identify bacteria with potential for bioremediation of environments contaminated by copper ions. From soil, water and sediment samples collected at VALE`s Sossego mine collected at 4 different occasions, 73 copper resistant bacteria were isolated. For the identification of the isolates, various methods were used: MALDI-TOF, sequencing of part from the genes rRNA and rpoD; construction of phylogenetic trees; and biochemical tests. 12 bacteria that belong to at least 8 different species were selected. 75% of the isolates were resistant to Cu2+ exceeding C. metallidurans CH34, the, most resistant bacteria to Cu2+ known. The ion adsorption capacity of 5 isolates was greater than those for C. metallidurans. The results obtained for the bacterial isolates indicate that they have a high potential for application in environmental bioremediation.

Cupriavidus

Pseudomonas

Adsorção de metais

Biodiversidade bacteriana

Biorremediação de metais

Cobre

Maldi-TOF

Cupriavidus

Pseudomonas

Bacterial biodiversity

Copper

Maldi-TOF

Metal adsorption

Metals bioremediation

Avaliação do efeito da expressão heteróloga da proteorrodopsina de SAR86 em bactérias Gram-negativas na otimização da produção de hidrogênio. / Evaluation of the effect of heterologous expression of the SAR86 proteorhodopsin in gram-negative bactéria on hydrogen production optimization.

Taís Mayumi Kuniyoshi

09 June 2015

O aproveitamento da energia luminosa por bactérias que produzem hidrogenases poderia aumentar a eficiência do processo de produção de biohidrogênio. Neste trabalho, foi realizada a clonagem do gene que codifica a proteorrodopsina (PR) do isolado metagenômico SAR86 num plasmídeo de expressão para bactérias Gram-negativas. PR é uma proteína ligada ao cromóforo retinal, que, sob iluminação, promove o efluxo de prótons através da membrana celular. O excesso de prótons na face externa da membrana pode servir como substrato para a hidrogenase, resultando em maior eficiência na produção de hidrogênio (2H+ + 2e→ H2). O plasmídeo contendo o gene da PR foi utilizado na transformação genética das bactérias Cupriavidus necator e Escherichia coli, que produzem diversas hidrogenases. Enquanto a PR não se mostrou funcional em C. necator, na linhagem recombinante de E. coli, cultivada em presença de luz e retinal, foi obtido um aumento de até 2,17 vezes na produção de H2 em relação ao cultivo no escuro, desde que a linhagem estivesse produzindo a hidrogenase endógena HYD-4. / The utilization of light energy by hydrogenase producing bacteria could increase the efficiency of the biohydrogen production process. In the present work, the gene coding for proteorhodopsin (PR) of the SAR86 metagenomic lineage was cloned in an expression plasmid for Gram-negative bacteria. PR is an apoprotein linked to the chromophore retinal, which, upon illumination, promotes proton efflux across the cell membrane. The excess of protons on the plasma membrane surface may serve as a substrate for hydrogenases, resulting in a higher efficiency of hydrogen production (2H+ + 2e→ H2). The plasmid containing the PR gene was used to transform the Gram-negative bacteria Cupriavidus necator and Escherichia coli which produce several hydrogenases. Whereas PR did not display functionality in C. necator, in the recombinant E. coli cells, grown under illumination in the presence of retinal, an enhancement up to 2.17 fold in H2 production was found, relative to cells grown under darkness, provided that the cells were expressing the endogenous HYD-4 hydrogenase.

Cupriavidus necator

Escherichia coli

Biohidrogênio

Combustíveis renováveis

Hidrogenases de membrana

Proteorrodopsina

Cupriavidus necator

Escherichia coli

Biohydrogen

Membrane bound hydrogenases

Proteorhodopsin

Renewable fuels

Využití Ramanovy spektroskopie a Ramanovské pinzety k analýze a isolaci PHA produkujících bakterií / Utilization of Raman spectroscopy and Raman tweezers for analysis and isolation of PHA producing bacteria

Beránková, Barbora

January 2019

This diploma thesis deals with the study of the utilization of Raman spectroscopy and Raman tweezers for analysis and isolation of polyhydroxyalkanoates (PHA) producing bacteria. Using gas chromatography with FID detection, we determined the polyhydroxybutyrate (P(3HB)) content of the PHA biomass of bacterial strains Burkholderia cepacia, Halomonas halophila, Cupriavidus necator H16 and its mutant strain Cupriavidus necator H16/PHB-4 and Lactobacillus delbrueckii, which is not a producer of polyhydroxyalkanoates but this bactrea was selected as representative of Gram-positive bacteria. Subsequently, thanks to Raman microspectroscopy, Raman tweezers and FT-IR spectrometer in combination with Raman FT-module, we were able to confirm or disprove the presence of P(3HB) in bacteria. Furthermore, the thesis describes Cupriavidus necator H16, which is a model organism for the production of P(3HB), and his mutant strain Cupriavidus necator H16/PHB-4. The bacterial strain Cupriavidus necator H16 was cultivated in a production mineral medium of various nitrogen contents, while cultivation was also carried out in liquid Nutrient Broth. By this cultivation we were able to reach various P(3HB) content in bacterial biomass, the spectra were subsequently compared with the spectrum of the bacterial strain Cupriavidus necator H16/PHB-4. Raman spectroscopy is well used to characterize the composition of individual bacterial cells, is a fast, versatile, and virtually non-invasive tool for studying cells.

Organisation et expression des gènes de résistance aux métaux lourds chez Cupriavidus metallidurans CH34

Monchy, Sébastien

04 June 2007

Cupriavidus metallidurans CH34 est une béta-protéobactérie, résistante aux métaux lourds, isolée des sédiments d'une usine de métallurgie non-ferreuse en Belgique. Le génome de cette bactérie contient un chromosome (3.6 Mb), un mégaplasmide (2.6 Mb) et deux plasmides pMOL28 (171 kb) et pMOL30 (234 kb) déjà connus pour porter des gènes de résistance aux métaux lourds. Nous avons d'abord fait le catalogue des gènes impliqués dans la résistance aux métaux lourds et, ensuite, cherché à mesurer leur expression par deux approches transcriptomiques : RT-PCR et puces à ADN. L'analyse du génome montre au moins 170 gènes relatifs à la résistance aux ions métalliques localisés sur les 4 réplicons, principalement sur les deux plasmides. Ces gènes codent essentiellement pour des systèmes d'efflux tel que les HME-RND (transport chimioosmotique avec flux de protons à contresens), les ATPases de type P ou encore pour le système de résistance aux ions Cu(II). Dans le génome de C. metallidurans, nous avons identifié 13 opérons qui codent pour des systèmes HME-RND, seuls trois, localisés sur les plasmides, sont surexprimés en présence de métaux lourds. Huit gènes codent pour des ATPases de type P, dont deux appartiennent à une classe dont les substrats ne sont pas métalliques. Deux ATPases appartiennent à une famille spécialisée pour l'efflux du Cu(II) et les quatre autres à une autre grande famille impliquée dans l'efflux des ions Cd(II), Pb(II) et Zn(II). Les analyses transcriptomiques montrent la surexpression des deux premières classes d'ATPases P en présence des métaux lourds. La mutagenèse du gène zntA (mégaplasmide), codant pour l'une des ATPases, provoque une diminution de la viabilité en présence de Zn(II), Cd(II) et dans une moindre mesure de Pb(II), Tl(I) et Bi(III). Sur pMOL30, la résistance au cuivre implique un groupe de 19 gènes cop codant pour la résistance au cuivre au niveau du périplasme et du cytoplasme, et vraisemblablement pour une forme de stockage du cuivre essentiel. Ces 19 gènes sont surexprimés en présence de cuivre, mais une quinzaine de gènes proches semblent aussi requis pour une expression optimale de la résistance au cuivre. L'annotation des plasmides a mis en évidence la parenté du plasmide pMOL28 avec le plasmide pHG1 (hydrogénotrophie, fixation du CO2) de C. eutrophus H16 et le plasmide pSym (fixation de l'azote) de C. taiwanensis, et chez pMOL30, la présence de deux îlots génomiques concentrant la plupart des résistances aux métaux lourds. Les puces montrent la surexpression de 83 sur 164 gènes dans pMOL28, et de 143 sur 250 gènes dans pMOL30. Elles montrent aussi que les gènes présents sur les deux plasmides sont davantage surexprimés que ceux localisés sur les deux mégaréplicons. Parmi les gènes surexprimés les plus intéressants du plasmide pMOL30, il faut mentionner des transposases tronquées et des gènes impliqués dans la synthèse des membranes (glycosyltransférases). L'analyse de l'expression des gènes plasmidiens de résistance aux métaux lourds montre la surexpression en présence de plusieurs ions métalliques ajoutés indépendamment et pas seulement par les substrats métalliques de ces opérons, ce qui suggère l'intervention de deux types de régulation dont les gènes correspondants sont aussi localisés sur le chromosome et le mégaplasmide. Ce travail met en évidence la spécialisation de la bactérie dans la réponse à un grand spectre de concentrations de métaux lourds, jusqu'à la limite majeure de la toxicité observée pour les bactéries mésophiles hétérotrophes. Cette spécialisation correspond bien aux biotopes industriels de divers continents dans lesquels on l'a trouvée.

CH34

RND

cop

ATPase

metaux lourds

HME-RND

pMOL28

pMOL30

ralstonia

metallidurans

Cupriavidus

Dynamic metabolic studies of C. necator producing PHB from glycerol

Sun, Chenhao

January 2018

The development of human society, which is highly dependent on fossil fuels, is now facing a range of global issues, such as rising energy prices, energy security and climate changes. To successfully tackle the resultant issues, the energy transition from fossil fuels to renewable energy sources, such as solar energy, tide energy, hydroelectric power, geothermal heat and biofuels, is under way. Biodiesel, as an important type of biofuels, has been increasingly produced from vegetable oil or used cooking oil, especially in Europe. Nevertheless, considering the high production cost of biodiesel, there is still much to be done to improve the economics of biodiesel industry. Utilisation of crude glycerol, the main by-product of the biodiesel industry, to produce value-added products appears to be a promising solution. Poly(3-hydroxybutyric acid) (PHB), a biodegradable plastic, can be converted from glycerol by Cupriavidus necator DSM 545 under unbalanced growth conditions, such as nitrogen limitation. One way to enhance the batch production of PHB is to genetically engineer the strain of C. necator, which requires insights of the dynamic impact of extracellular environment on cell phenotypes. Hence in this thesis, we aim to perform metabolic modelling based on experimental measurements to gain a better understanding of the behaviour of the metabolic network of Cupriavidus necator DSM 545 and identify potential bottlenecks of the process. Initially, C. necator DSM 545 is a strain that hardly grows on glycerol, so in a preliminary study, we investigate the process by which the strain was adapted to consume glycerol through serial subcultivation. It is found that the adaptation can be achieved within 15 cell generations over three passages in basal mineral medium, and the acquired phenotype is sufficiently stable upon further passage. The study of metabolism started with the reconstruction of the cell's metabolic network, followed by a thermodynamic analysis to check the feasibility and reversibility of all the biochemical reactions included. Then the static flux balance analysis was extended and applied to analyse the shift of metabolic states during the microbial fermentation in different batch conditions. The resulting patterns of flux distribution reveal the TCA cycle to be the major competitor for PHB synthesis at the ACCoA node. Cells have the potential to enter an efficient PHB-production phase that features minimal TCA/PHB flux split ratio, and the length of the phase can be manipulated by aeration. Although low aeration rate favours optimal flux split ratio, such condition that limits respiration also limits nutrient uptake, leading to low PHB productivity overall. To identify the actual limiting factors of PHB synthesis in the system, we further performed metabolic control analysis based on the calculated flux distributions. The analysis demonstrated how the distribution of the metabolic control can vary widely, depending on the aeration conditions used and the flux split ratios. Glycerolipid pathway, glycolysis, PHB metabolism, as well as the electron transport chain are revealed to be potential engineering targets as they contribute to the great majority of the positive control of PHB flux.

660

Bioconversion of biodiesel by-products to value-added chemicals

Salakkam, Apilak

January 2012

To mitigate the problems of depleting and soaring price of fossil fuels, the production and use of renewable energy have been vigorously promoted. In Europe, the role of biologically-derived fuels and in particular biodiesel is gradually increasing in prominent. Rapeseed biodiesel is the most widely produced in Europe. As a consequence, enormous amount of by-products from production processes are being generated. Current strategies for managing these by-products (mainly rapeseed meal and crude glycerol) seem not to be economically sustainable. More efficient utilisation could add more value to the production chain which in turn would raise the competitiveness of biodiesel compared to petro-diesel. The aim of the project reported in this thesis was to study the feasibility of producing a value added product, polyhydroxybutyrate (PHB), from by-products generated from rapeseed biodiesel production processes as well as to investigate the effects of methanol, a major impurity in crude glycerol, on growth of Cupriavidus necator, a PHB-producing micro-organism.The preliminary study of C. necator growth in crude glycerol based media revealed that optimum concentration of crude glycerol was in a range 15-25 g/L. It was also found that slight changes in the carbon to nitrogen ratio of the feedstock did not significantly affect the growth while methanol at concentrations beyond 10 g/L did. A model based on a saturation equation was developed and used to successfully predict the inhibition of growth by methanol. From the developed model, mechanisms of the inhibition were proposed. The model could also be used to predict satisfactorily growth or productivity rates in other systems containing short-chain alcohols. The growth in solutions derived from rapeseed meal (designated as hydrolysate) via solid-state fermentation by Aspergillus oryzae followed by hydrolysis of the fermented solids was also studied. The biomass production was found to increase as a function of initial free amino nitrogen (FAN) concentration presented in the hydrolysate. However, at higher initial FAN concentrations, a lower conversion of nitrogen to biomass was observed. PHB production was studied using a feedstock which was a mixture of the hydrolysate and crude glycerol. Total biomass concentration reached 28.8 g/L at 120 h with 86% PHB content. PHB productivity and PHB yield on glycerol were 0.21 g/L•h and 0.32 g/g respectively. These results were comparable with those obtained when pure glycerol and synthetic crude glycerol were used, suggesting that, technically, the use of the generic rapeseed- and crude glycerol-based feedstock to produce PHB is feasible.Overall, the feasibility of producing PHB from rapeseed biodiesel by-products has been demonstrated. The satisfactory result leads to the more important outlook that the generic feedstock derived from rapeseed biodiesel by-products has the potential to be used to produce a wide range of products depending on the micro-organism used. Further development of this process to improve nutrient production efficiency as well as product yields and subsequent integration of the process into the biodiesel production process could well be an important contribution in the development of a sustainable biodiesel industry.

665

Validación de una metodología para la determinación de benceno en suelos mediante HS-GC-FID y su aplicación en biorremediación en suelos co-contaminados con Hg (ii)

Rojas Molina, Nataly Andrea

03 1900

Seminario de Título entregado a la Universidad de Chile en cumplimiento parcial de los requisitos para optar al Título de Química Ambiental. / Los suelos se han constituido como el principal sumidero de metales pesados y otros contaminantes producto de causas naturales y actividades antropogénicas. Ejemplo de estas actividades son las mineras que liberan metales pesados, tales como Hg+2, Pb+2, Cu+2 y Zn+2, y las plantas petroquímicas que producen hidrocarburos aromáticos como Benceno, Tolueno, Etilbenceno, y Xilenos (BTEX) a partir de la fracción volátil del petróleo. El objetivo de este seminario de título consiste en validar un método analítico para la cuantificación de benceno en microcosmos conformados por muestras de suelo co-contaminado contenidas en viales, a los cuales se le adiciona una bacteria especializada. De esta forma, se desarrolla una metodología para determinar benceno remanente en suelo, carente de solventes orgánicos, simple y costo-efectiva, mediante un sistema de extracción de espacio de cabeza acoplado a un cromatógrafo de gases junto a un detector de ionización de llama (HS-GC-FID), que permita monitorear la cinética de remoción de benceno en un suelo co-contaminado con Hg (II), durante un proceso de biorremediación bacteriana utilizando la cepa modificada genéticamente Cupriavidus metallidurans MSR33 que es altamente resistente a mercurio. De esta manera, en el presente trabajo se utilizó un suelo contaminado con benceno y mercurio como una aproximación a una situación real de co-contaminación, donde se aplicó una técnica de remediación a través de la utilización de bacterias especializadas capaces de remover benceno en presencia de mercurio. La medición de benceno con la metodología validada permitió monitorear la cinética de biorremediación utilizando la bacteria C. metallidurans MSR33 entregando información rápida y veraz al aplicar directamente en viales con microcosmos de suelo contaminados con Benceno 200 mg×Kg-1 y Hg (II) 2 mg×Kg-1. La determinación de benceno permitió demostrar que este proceso de biorremediación conforma una novedosa tecnología costo-efectiva y amigable con el medioambiente, aplicable a suelos impactados con BTEX en presencia de metales tóxicos. / Soils have been established as the main sink for heavy metals and other pollutants due to natural causes and anthropogenic activities. Examples of these are mining activities which release heavy metals, such as Hg+2, Pb+2, Cu+2 and Zn+2, and petrochemical plants which produce aromatic hydrocarbons such as Benzene, Toluene, Ethylbenzene, and Xylene (BTEX) from volatile fractions of petroleum. The aim of this seminar consists of validate an analytical method for the quantification of benzene in microcosms consisting on vials containing co-contaminated soil samples, which are inoculated with a specially adapted bacterial culture. The methodology was developed in order to measure benzene concentrations remaining in soil in an organic solvent-free, simple and cost-effective manner. This was carried by means of a headspace extraction system coupled to a gas chromatograph with flame ionization detector (HS-GC-FID), that allowed to monitor the kinetics of benzene removal in a soil co-contaminated with Hg (II), during the process of bacterial bioremediation with the genetically modified strain Cupriavidus metallidurans MSR33 that is highly resistant to mercury. Thus, soil samples polluted with benzene and mercury were used on this research as a practical approach to a real co-contamination scenario. A remediation technique was applied by means of bacteria specially adapted to remove benzene from soil in presence of mercury. The measurement of benzene with the validated methodology allowed to monitor the kinetics of bioremediation using the C. metallidurans MSR33 bacterial strain delivering fast and accurate information when applied directly in vials with soil microcosms contaminated with Benzene 200 mg×Kg-1 and Hg (II) 2 mg×Kg-1. The determination of benzene allowed to demonstrate that this process of bioremediation forms a novel, cost-effective and environmental-friendly technology, potentially useful for treatment of soils impacted with BTEX in the presence of toxic metals.

Suelos

Benceno

Benceno remanente en suelo

Cupriavidus metallidurans

Vnitřní fluorescence bakterií Cupriavidus necator / Intrinsic fluorescence of bacteria Cupriavidus necator

Marková, Kateřina

January 2018

This thesis focuses on autofluorescence of flavins in gram-negative bacteria Cupriavidus necator H16 and its mutant strain PHB-4. The main methods used were fluorescence microscopy and flow cytometry. To confirm the presence of flavins, excitation and emission spectra of the bacterial suspension were measured, which were compared with flavin standards. In the part of testing cells without stress response, the autofluorescence of bacteria in PBS buffer and cell suspensions stained with fluorescence probe BODIPY 493/503 was measured. The ratio of short fluorescence lifetime to long autofluorescence lifetime, and its dependence on fluorescence probe was compared with previous conditions. Autofluorescence of the supernatant was measured; it was found that the relative amplitude of long lifetime was multiple times higher than in the cell. In the part devoted to the stress response, this thesis was focused on the amount of dissolved oxygen in the production medium and the effect on bacterial autofluorescence. Then differently concentrated hydrogen peroxide was used, the best results were obtained from the concentration of 100 mM in media. For comparison a combination of hydrogen peroxide with ferro-ammonium sulphate was used, but there was no big difference. Sodium azide and antimycin A were selected as substances that directly influence on bacterial respiratory chain. Both compounds affected change in the ratio of the relative amplitudes, but the distribution of these lifetimes and the autofluorescence change over time was affected only by sodium azide.

Využití spektroskopických metod při studiu stresové odolnosti bakterií na úrovni jednotlivých buněk / Utilization of spectroscopy in study on stress-resistance of bacteria on the sigle-cell level

Köbölová, Klaudia

January 2019

This diploma thesis deals with the possibilities of stress resistance analysis of the Cupriavidus necator H16 and PHB-4 bacterial cells by spectroscopic methods and by testing the suitability of acridine orange as a viable dye. Based on research in literature, suitable analytical methods have been proposed, namely flow cytometer and fluorescence microscope. The first part of the experimental work was focused on the fluorescence microscope, which confirmed the basic character of acridine orange. Three stress factors, 50% and 70% ethanol, and acidic pH (pH = 1) were selected for viability monitoring. The bacteria fluoresced with green color after exposure to ethanol and red spots were found next to the cells, indicating their loss of integrity. In an acidic environment, the bacteria fluoresced red because of a partial DNA breakdown. The results were verified by the combination of propidium iodide with SYTO9 and the acridine orange suitability proved to be useful in this method. Image records were processed using image analysis. In the second part, acridine orange was used to monitor fluorescence using a flow cytometer. The result of the measurement was fluorescence expressed as histograms for individual channels, where fluorescence was characterized by median and mean intensity. By comparing the methods used, the acridine orange appears to be a more suitable fluorescent dye for the microscope than for a flow cytometer in which it was more difficult to obtain cell viability information. In the last part of the experimental work interesting photophysical properties of acridine orange were investigated.