Flow cytometric characteristics of subchloroplast particles prepared by the action of various detergents

Agranal thylakoid membranes from leaves of Phaseolus vulgaris L. were fragmented using seven distinct detergents: digitonin, Triton X-100, cetylpyridinium chloride, sodium dodecylsulfate, and Zwittergents 3-12, 3-14, and 3-16, differing in chemical composition and/or electric charges. Subchloroplast particles separated on a Percoll gradient were examined by flow cytometry to determine their size and shape. Vesicle size was also determined by a haematological analyzer, which produced comparable results. Individual green bands consisted of vesicles of fairly wide size distribution. Simple direct proportionality between the particle density and their size was not observed in any case, nevertheless, bigger particles were more abundant in fractions of higher density. Some vesicles had even a larger size than the original thylakoids. This might reflect a specific action of the detergents in low concentrations on agranal membranes, with incorporation of detergent molecules into vesicles. Inner structures of particles of the same size and density were not necessarily identical, but represented several populations, as was apparent from the side scatter analysis. Flow cytometric analysis can thus be used for the investigation of mechanisms of membrane fragmentation by detergents.     

Separation of subchloroplast membrane particles by counter-current distribution

Counter-current distribution in an aqueous Dextran-polyethylene glycol two-phase system has been used to fractionate membrane fragments obtained by press treatment of Class II chloroplasts. By the counter-current distribution technique membrane particles are separated according to their surface properties such as charge and hydrophobicity.The fractions obtained were analysed with respect to photochemical activities, chlorophyll and P-700 contents. The Photosystem II enrichment after counter-current distribution was better than that obtained by differential centrifugation of the disrupted chloroplasts. However, the best separation of Photosystem I and II enriched particles could be achieved if differential centrifugation was combined with the counter-current distribution technique.Each centrifugal fraction could be further separated into Photosystems I and II enriched fractions since the Photosystem II particles preferred the dextran-rich bottom phase while the Photosystem I particles preferred the polyethylene glycol-rich top phase. By this procedure it was possible, without the use of detergents, to obtain vesicles which were more enriched in Photosystem II as compared to intact grana stacks.The partition behaviour of undisrupted Class II chloroplasts and the Photosystem I centrifugal fraction was the same. This similarity indicates that the membrane which is exposed to the surrounding polymers by the Class II chloroplasts is the Photosystem I rich membrane of the stroma lamellae.     

Separation of subchloroplast membrane particles by counter-current distribution.

Counter-current distribution in an aqueous Dextran-polyethylene glycol two-phase system has been used to fractionate membrane fragments obtained by press treatment of Class II chloroplasts. By the counter-current distribution technique membrane particles are separated according to their surface properties such as charge and hydrophobicity. The fractions obtained were analysed with respect to photochemical activities, chlorophyll and P-700 contents. The Photosystem II enrichment after counter-current distribution was better than that obtained by differential centrifugation of the disrupted chloroplasts. However, the best separation of Photosystem I and II enriched particles could be achieved if differential centrifugation was combined with the counter-current distribution technique. Each centrifugal fraction could be further separated into Photosystems I and II enriched fractions since the Photosystem II particles preferred the dextran-rich bottom phase while the Photosystem I particles preferred the polyethylene glycol-rich top phase. By this procedure it was possible, without the use of detergents, to obtain vesicles which were more enriched in Photosystem II as compared to intact grana stacks. The partition behaviour of undisrupted Class II chloroplasts and the Photosystem I centrifugal fraction was the same. This similarity indicated that the membrane which is exposed to the surrounding polymers by the Class II chloroplasts is the Photosystem I rich membrane of the stroma lamellae.     

Flow cytometric detection of tandem repeat mutations induced by various chemical classes

To facilitate detection of genotoxicity from environmental mutagen exposure, we generated an in vitro enhanced green fluorescence protein (EGFP) reactivation assay that quickly and effectively detects frameshift mutations in tandem repeat sequences (TRS). Two murine cell lines, C3H10T1/2 and mismatch repair deficient MC2a, were stably transfected with EGFP reporter plasmids in which the EGFP constructs contain TRS that put the EGFP sequence out of frame. These included several 2, 3, 4, 5 and 6 bp repeat sequences, a control non-repetitive sequence and a human gene sequence containing a 4 bp repeat motif. Transfected cultures were exposed to five model mutagens and carcinogens: hydrogen peroxide (H(2)O(2)), 12-O-tetradecanoyl-phorbol-13-acetate (TPA), benzo-a-pyrene-diol-epoxide (BPDE), ethyl nitrosourea (ENU), 9-aminoacridine (9AA) and two controls: acetone and ethanol. Frameshift mutations resulted in green fluorescent revertants, as determined by flow cytometry, and were confirmed, for 9AA treatments, by sequencing. All five treatments with model agents induced statistically significant sequence- and exposure-dependent responses in MC2a cells and a negative response with the two negative control treatments, acetone and ethanol. Similar responses were seen in a smaller panel of treatments and plasmids in C3H10T1/2 cells. The mutation frequencies were higher in cells transfected with the plasmids containing TRS than those harbouring the control construct lacking repeats. The highest mutation frequencies were observed with H(2)O(2) and 9AA treatments, yielding up to a 50-fold difference between vehicle and highest concentration treatment. ENU, BPDE, and to a lesser extent TPA treatments, also showed a statistically significant exposure response. Results from these experiments reveal that the assay responds robustly to various classes of mutagenic substances, as well as to rodent carcinogens that are inactive in conventional mutation assays, and that responses are not linked to cytotoxicity. This assay is a promising approach for detecting chemically induced frameshifts within certain DNA sequences of interest, but further characterization and validation are required prior to general use in genotoxicity screening.     

Flow cytometric analysis of benthic prokaryotes attached to sediment particles

Appropriate detachment treatments are required to analyze prokaryotes associated with streambed sediments by flow cytometry. Using our previously optimized protocol, two groups of cells exhibiting different nucleic acid contents were easily detectable. However, the Nucleic Acid Double Staining assay proved that detachment procedures negatively affect the cell membrane integrity.     

Flow cytometric immunophenotypic characteristics of plasma cell leukemia

The aim of this prospective study was to define the flow cytometric characteristics of simultaneously investigated bone marrow and peripheral blood plasma cells antigens expression in 36 plasma cell leukemia (PCL) patients. The immunophenotypic profile of plasma cells was determined with a panel of monoclonal antibodies. The antigen expression intensity was calculated as relative fluorescence intensity (RFI). Bone marrow plasma cells showed expression of particular antigens in the following proportion of cases: CD49d 100%, CD29 94%, CD54 93%, CD44 83%, CD56 60%, CD18 26%, CD11b 29%, CD11a 19%, CD117 27%, CD71 30%, CD126 100% and CD19 0%, while the expression of those antigens on peripheral blood plasma cells was present in the following percentage of patients: CD49d 100%, CD29 96%, CD54 93%, CD44 95%, CD56 56%, CD18 50%, CD11b 53%, CD11a 29%, CD117 26%, CD71 28%, CD126 100% and CD19 0%. The expression of CD54 was significantly higher than that of adhesion molecules belonging to the integrin b2 family: CD11a, CD18 and CD11b, on both bone marrow and peripheral blood cells (p < 0.01). Expression of CD18, CD11a and CD11b was differential between two cell compartments: lower on bone marrow and higher on peripheral blood cells. We found that plasma cells in the bone marrow of patients with plasma cell leukaemia showed significantly greater granularity and size than those in the peripheral blood (p = 0.0001 and p = 0.04, respectively). However, no differences in cell size or granularity were revealed between bone marrow plasma cells from patients with PCL and multiple myeloma. In conclusion, impaired expression of adhesion molecules such as CD11a/CD18 (LFA-1) or CD56 may explain hematogenic dissemination characterizing PCL. The following pattern of adhesion molecule expression according to the proportion of plasma cells expressing a given antigen in peripheral blood and bone marrow and arranged in diminishing order may be established: CD49d > CD44 > CD54 > CD29 > CD56 > CD18 > CD11b > CD11a. Immuno-phenotyping of plasma cells in PCL, as in multiple myeloma, might be useful in detecting minimal residual disease in cases with aberrant antigen expression and for selecting therapeutic agents towards specific membrane targets.     

Flow cytometric analysis of fine particles in a eutrophic lake.

Fine particles play an important role, not only in aquatic biogeochemical processing but also in the distribution, transfer and transformation of pollutants in the aquatic environment. Flow cytometry, widely used in biomedical research, allows fast counting and optical analysis of individual particles. Organic autotrophic particles contain naturally fluorescing pigments, such as chlorophyll and phycoerythrin. Different populations have different sizes and pigments. They also have different ratios of pigments. In general, side angle scatter (SSC) is related to the size, shape and refractive index of particles. When a 488 nm wavelength was used to excite chlorophyll and phycoerythrin fluorescence, the pigments of organic autotrophic particles emitted red and orange light. Fine particles were detected by flow cytometry (FCM) in the southern part of a eutrophic lake in winter. We found that organic autotrophic particles belonged to three populations, which represented only 15.89% of total fine particles. Organic non-living particles and inorganic particles represented the greater part (84.11%) of total fine particles. This study also demonstrated that flow cytometry is well suited to the dynamic monitoring and analysis of natural water aquatic particles that were difficult to study with traditional methods.     

Flow cytometric analysis of bacteria- and virus-like particles in lake sediments

Flow cytometry (FCM) was successfully used to analyze freshwater bacteria and viruses in lake sediments after relatively simple sample treatment and optimization of dilution/fixation/staining procedures. Biological particles from Lakes Geneva and Bourget were first separated from the sediments by using both Sodium Pyrophosphate (0.01 M final concentration) and Polyoxyethylene-Sorbitan Monooleate (10% final concentration) and sonicating for 3 min in a water bath. The best results (based on FCM signature and the highest virus and bacterial yields from the sediments) were obtained by formaldehyde fixation carried out within less than one hour (2% final concentration, vs. no fixation or using glutaraldehyde at different concentrations), SYBR-Green II staining (x1/20,000 stock solution concentration, vs. use of SYBR-Gold and SYBR-Green I dyes at different concentrations). There was a considerable loss of particles after only a few days of storage at either 4 or -22 degrees C. For FCM analysis, the samples were diluted in Tris-EDTA buffer (pH 8) and heated for 10 min at 75 degrees C after incubating for 5 min in the dark. The bacterial and viral counts paralleled those obtained using epifluorescence microscopy (EFM), but EFM always gave lower counts than FCM. Analysis of the distribution of the viruses in the water column and in the sediments of Lakes Bourget revealed a marked gradient, with larger quantities in the top layer of the sediment than in the water above it. These results are discussed, as well as the possible novel application of flow cytometry in the study of aquatic viral ecology.     

Flow cytometric discrimination of various phycobilin-containing phytoplankton groups in a hypertrophic reservoir

BACKGROUND: Knowledge of phytoplankton structure is important information in water quality control. Lake restoration and sanitation measures in particular must be evaluated on the organismic level to valuate biological effects and assess the risk of potentially toxic Cyanobacteria blooms. We used and comparatively tested three independent methods for phytoplankton analysis in a hypertrophic reservoir under restoration. METHODS: Nine unialgal cultures and outdoor samples were examined by high-performance liquid chromatography pigment analysis, microscopical cell counting, and flow cytometric (FCM) light scatter and fluorescence analysis to measure the percentage contribution of the major algal groups to chlorophyll a and biovolume. The FCM instrument settings and identification criteria were developed using a single excitation wavelength at 514 nm to differentiate nine algal species representing the major groups of algae. Fluorescence was detected at 585, 620, 650, and 680 nm. RESULTS: The results show that FCM is the only method for determining changes in the phytoplankton composition on both a chlorophyll a and biovolume basis. CONCLUSIONS: Each of the three methods has specific advantages and disadvantages, and should be chosen depending on the experimental problem. FCM sorting allows the combination of all three and offers further new perspectives.     

5'-Iodothyronine deiodinase of rat liver: activity in microsomes prepared by various methods, solubilization by detergents and partial purification

Iodothyronine deiodinase activities of rat liver microsomes prepared by (1) differential centrifugation, (2) column chromatography, (3) precipitation with Ca2+, (4) precipitation at low pH, or combinations of these were compared. Method 2 or 2 followed by 4 provided microsomes with specific activities 4.6- and 7.4-times higher than method 1, respectively. Both Triton X-100 at 0.1% (w/v) and 3-[(3-cholamidopropyl)dimethylammonio]-1-propane sulfonate (Chaps) at 4-6 mM efficiently solubilized deiodinase and were not inhibitory at low concentrations. The Chaps-soluble enzyme could be moderately purified by fractionation with ammonium sulfate but more effectively with poly(ethylene glycol).     

Spectral anisotropy of chloroplasts, subchloroplast particles and pigment-protein complexes

Anisotropic properties of pea chloroplasts, subchloroplast fragments (photosystem 1 particles and pigment-protein complexes) and the blue-green algae oriented in polyacrylamide gel were investigated. It was shown that linear dichroism spectra of chloroplasts are the superposition of the corresponding spectra for the main light harvesting complex (HMLC) and P 700 chlorophyll a--protein complex (CP 1). Anisotropic properties of the photosystem 1 particles and blue-green algae are mainly caused by CP 1 anisotropy. Qy-transition moments tend to perpendicular orientation to the membrane plane for the Chl. b 649, Chl. a 660 and parallel orientation--for Chl. b 654, Chl. a 682. The degree of Qy-transition moments parallel orientation is higher for the longwave forms (Chl. a 690, Chl. a 702, Chl. a 712), than for the shortwave ones and coincides with this degree for the reaction centre pigment P 700 transition moment. It is suggested that the specific orientation of the pigment-protein complexes in the chloroplast membrane is important for the regulation of the spillover between two photosystems.     

Energy conversion and changes in physical parameters in chloroplasts and subchloroplast particles II. Energy conversion in chloroplasts and different types of subchloroplast particles

The light-induced absorbance change at 515 nm, light-inducedhydrogen ion uptake and ATP formation were compared in chloroplastsand different types of sonicated subchloroplast particles. Noparallel relationship among the activities for ATP formation,hydrogen ion uptake and the 515-nm change was observed in differenttypes of preparations. NH₄Cl inhibited ATP formation in chloroplastsbut had little effect on subchloroplast particles. In contrast,the light-induced hydrogen ion uptake was inhibited by NH₄Clin a similar manner. Tetraphenylboron (TPB), at 1 µM, inhibited ATP formationby about 30% in both chloroplasts and subchloroplast particles.In the presence of TPB, ATP formation in chloroplasts was stronglyinhibited by NHC₄Cl, but in subchloroplast particles the additionalinhibitory effect of NH₄Cl was small. A synergistic inhibitionof photophosphorylation by valinomycin plus NH₄Cl was much clearer.Although acceleration of the recovery of the 515-nm change byNH₄Cl or valinomycin was moderate, the 515-nm change virtuallydisappeared when NH₄Cl and valinomycin were added simultaneously. Although the membrane potential has a major role as the principaldriving force for ATP formation in subchloroplast particles,the simultaneous abolishment of the pH gradient and membranepotential may be required to uncouple ATP formation. ¹Present address: Fukuoka Women's University, Kasumigaoka, Fukuoka813, Japan. ²Present address: Ryukyu University, Naha, Okinawa 903, Japan. (Received February 5, 1974; )     

5′-Iodothyronine deiodinase of rat liver: activity in microsomes prepared by various methods,solubilization by detergents and partial purification

Iodothyronine deiodinase activities of rat liver microsomes prepared by (1) differential centrifugation, (2) column chromatography, (3) precipitation with Ca²⁺, (4) precipitation at low pH, or combinations of these were compared. Method 2 or 2 followed by 4 provided microsomes with specific activities 4.6- and 7.4-times higher than method 1, respectively. Both Triton X-100 at 0.1% (w/v) and 3-[(3-cholamidopropyl)dimethylamonio]-1-propane sulfonate (Chaps) at 4–6 mM efficiently solubilized deiodinase and were not inhibitory at low concentrations. The Chaps-soluble enzyme could be moderately purified by fractionation with ammonium sulfate but more effectively with poly(ethylene glycol).     

Regulation of excitation energy distribution in subchloroplast particles: photosystem I

Mono- and divalent cations were found to increase the transfer of excitation energy within Photosystem I from the light-harvesting chlorophyll a molecules to P700. The P700-chlorophyll a protein of Shiozawa et al. (J. A. Shiozawa, R. S. Alberte, and J. P. Thornber, 1974, Arch. Biochem. Biophys.165, 388–397) was used for these studies. Cations stimulated the quantum yields for electron transport when the light-harvesting chlorophyll a molecules were irradiated. They also decreased chlorophyll a fluorescence. Half-maximal effects were observed at 0.5–0.6 mm for divalent cations and at 5–6 mm for monovalent cations. Triton X-100, 0.02%, also increased energy transfer. The increases in energy transfer are due to an intramolecular conformational change in the protein. A structural change is involved, since there is a correlation between the cation-induced changes in energy transfer and increases in 90 ° light scattering. However, there was no change in the molecular weight upon the addition of MgCl₂. The molecular weight, as determined by gel filtration, was 105,000 in the presence of 0.05% Triton X-100. On the other hand, circular dichroism measurements showed an increase in the α-helical content from 51 to 63% when 5 mm MgCl₂ was added. Changes in the absorption spectra were also observed. We believe that the cation regulation of Photosystem I activity provides a fine-tuning mechanism for the regulation of energy transfer.     

Initial events of light-dependent ATP synthesis in spinach subchloroplast particles.

The kinetics of 32Pi incorporation into adenine nucleotides by subchloroplast particles in the light is studied with a continuous flow apparatus allowing measurements between 3 and 200 ms. After a short lag time from 1 to 3 ms ATP synthesis proceeds with a constant rate. During the first few milliseconds a faster labelling of ADP is detected. This labelling of ADP reaches a constant level up to 1 molecule ADP labelled per molecule of coupling factor present. The labelling pattern in ATP indicates that the labelled ADP does not equilibrate with free ADP. The addition of 32Pi to a phosphorylating system during the light phase (32Pi pulse) exhibits unchanged kinetic characteristics for labelling of ATP and ADP. These results indicate a phosphorylation of AMP to ADP being an intermediate step in photophosphorylation. In experiments carried out in the dark no label is found in ATP within the time analysed. However the labelling of ADP occurs in the same way as in the light.     

Effect of digitonin concentration on electron transport, phosphorylation, and proton uptake by subchloroplast particles

The relative activity of photosystem I subchloroplast particles was dependent on the digitonin concentration used during incubation. At low digitonin concentrations (2 mg digitonin per mg chlorophyll), the particles were greatly enriched in photosystem I activities and showed high rates of cyclic phosphorylation and appreciable light-induced proton uptake. Increasing the concentration of digitonin increased the yield of photosystem I particles but decreased their specific activity of electron transport and of cyclic phosphorylation. The decrease in activity was not related to the degree of enrichment of the pigments associated with photosystem I nor to the degree of separation of the photosystems. Release of plastocyanin was dependent on the digitonin concentration. As the digitonin concentration was increased, the plastocyanin content of the photosystem I particles decreased. The decrease in photochemical activity with increasing digitonin concentration was attributed to the loss of plastocyanin during isolation.     

Flow cytometric analysis of microorganisms

The application of flow cytometry to microorganisms is as old as the technique itself, but it has historically been underexploited for microbial applications. This is now being reversed and microbiologists are ideally placed to benefit from recent technological advances. While earlier papers demonstrated the use of flow cytometry for studies of viability and taxonomy, recent developments in bioinformatics and reporter gene technologies are leading to novel applications in microbiology. Variants of green fluorescent protein have been used for the study of conditional microbial gene regulation in medically important host-pathogen interactions and fluorescence-activated cell sorting is being applied to the isolation of novel mutants in directed evolution studies. This paper reviews the reasons for the delay in the application of flow cytometry to microbial problems, the range of applications, and their limitations and considers the progress made in developing new strategies for use in microbiological investigations.