Variables Affecting the Foam Separation of Escherichia coli

The removal of washed and standardized Escherichia coli from distilled-water suspension by foam separation with nitrogen gas and 30 μg/ml of ethylhexadecyldimethylammonium bromide surfactant was increased by increasing the gas rate from 4.3 to 9.3 liters per min and by lowering the port level at which foam was removed from 60.4 to 20.4 cm, but with concomitant increases in foam volumes. The concentrations of cells and of surfactant in the residual suspensions were related to foam volumes; a given number of cells adsorbed a constant amount of surfactant. The addition of from 10 to 500 μg/ml of inorganic salts decreased the total cell removal, with magnesium sulfate producing an anomalously large effect. The addition of surfactant in several doses (compared with a single dose) together with an increase in foaming time from 10 to 24 min produced residual suspensions with lower cell concentrations, and, when salts were present in the initial suspensions, produced lower foam volumes and more concentrated foams.     

Foam separation of bacteria with a cationic surfactant

An experimental investigation is presented of the foam separation of six species of bacteria: Escherichia coli, Serratia marcescens, Proteus vulgaris, Pseudomonas fluorescens, Bacillus cereus, and Bacillus subtilis var niger. A cationic surfactant, ethylhexadeeyldimethylammonium bromide is used and results are evaluated in terms of total cell count, using a membrane filtration technique. From similar neutral distilled water suspensions of the pure cultures (approximately 10⁷ cells/ml.) and using the same operating conditions, ratios of cell concentrations in the residual suspensions to those in the initial suspensions range from 0.0013 for Bacillus subtilis var niger to 0.25 for Serratia marcescens. The presence of bacteria, compared to pure surfactant solutions, produces lower collapsed foam volumes; the foam volumes have a strong influence on the separations achieved with the various species, with enrichment ratios ranging from 27 to 3088 and residual ratios ranging from 0.001 to 0.247.     

The influence of hydrostatic pressure and pH on the rate of lysis of Micrococcus lysodeikticus by lysozyme

Under the conditions employed, the rate of clearing of washed cell suspensions of Micrococcus lysodeikticus, measured photometrically, is nearly proportional to enzyme concentration and nearly inversely proportional to the initial concentration of cells. With a given amount of lysozyme (usually 1.5 μg./ml.) the density of a cell suspension decreases exponentially with time, until it is reduced to between 20 and 40% of that at the start, followed by a decreasing rate of clearing. Under increased hydrostatic pressures of 4000 and 8000 p.s.i., respectively, the rate of clearing is faster than at normal pressure at various pH's between 5.65 and 8.70, at 35 °C.     

Control by cell interaction of phosphate uptake in 3T3 cells.

Phosphate uptake by monolayers of 3T3 cell decreases when the cultures enter the stationary phase, even when incubated in fresh medium containing 10% serum. However, SV 3T3 cultures retain a high rate of phosphate uptake when the cells reach saturation densities.We have observed that 3T3 cells grown to stationary phase in monolayers and then trypsinized and incubated in suspension, display an increase in phosphate uptake when the cell concentration is decreased from 10⁶ cells/ml to 10⁵ cells/ml. Where the cell concentration is further reduced from 10⁵ cells/ml to 2.5 × 10⁴ cells/ml there is no further increase in the rate of phosphate uptake. We observed, on the contrary, a small decrease.The “concentration effect” (the decrease of phosphate uptake when the cell concentration increases from 10⁵ to 10⁶ cells/ml) is larger when cells originate from a culture in stationary phase than when they originate from a culture in log phase.The “concentration effect” may be observed 10 min after cell incubation but is larger after a lag time of 40 min incubation.Differences in the “concentration effect” may be noted between 3T3 and SV 3T3 cells. In SV 3T3 cells no significant variations of phosphate uptake were observed when the cell concentration was changed. Thus, differences between phosphate uptake in 3T3 and SV 3T3 cells are large when cells are incubated at high concentrations or at high densities and small when they are incubated at low concentrations or at low densities.The “concentration effect” in 3T3 cells supports the assumption that interactions between cells cause the decrease of phosphate metabolism in dense culture. Diffusion of an inhibitor into the medium remains the more plausible explanation of the data.     

Cryoprotection of murine lymphocyte subpopulations using a microprocessor-controlled cooling system

Single-cell suspensions of splenic lymphocytes from 5- to 6-month-old C57BL/6 mice were cryopreserved using cooling rates ranging from ?0.25 to ?10.0 °C/min with the microprocessor-controlled cooling system developed in our laboratory. The cells (30 × 10⁶ cells/ml) were suspended in RPMI 1640 containing 10% FCS and 10% DMSO, and a total volume of 1.75 ml was frozen. Fluorescein-diacetate staining identified viable cells in unfrozen controls and frozen-thawed suspensions. Functional capacity was assessed in vitro by the incorporation of [³H]thymidine by dividing cells activated with graded concentrations of the T-lymphocyte mitogens, PHA-P and Con A, and the B-lymphocyte mitogen, LPS. High percentages of viable cells were recovered after cooling at rates ranging from ?0.5 to ?5.0 °C/min, as compared with those of unfrozen control suspensions. Incorporation of [³H]thymidine by T and B cells reached similar levels after cooling at rates ranging from ?0.25 to ?5.0 °C/min, and the percentage incorporation of [³H]thymidine as compared with that of unfrozen cells was 80–100%, except for T lymphocytes activated with PHA-P after cooling at ?5.0 °C/min. The relative response of cell suspensions to T- and B-cell mitogens, the relative mitogenic index, was unchanged from that of unfrozen controls in suspensions cooled at all rates including two (?0.25 and ?10.0 °C/min), which permitted recovery of only 55% of unfrozen cells. The importance of the constant cooling rates and rapid compensation for heat released at the phase change using the microprocessor-controlled system and of precise determinations of cellular viability and function are discussed and related to the apparent protection conferred on subpopulations of murine lymphocytes using cooling rates ranging from ? 0.25 to ?10.0 °C/min.     

Electropermeabilization of dense cell suspensions

This paper investigates the influence of cell density on cell membrane electropermeabilization. The experiments were performed on dense cell suspensions (up to 400 × 10⁶ cells/ml), which represent a simple model for studying electropermeabilization of tissues. Permeabilization was assayed with a fluorescence test using Propidium iodide to obtain the mean number of permeabilized cells (i.e. fluorescence positive) and the mean fluorescence per cell (amount of loaded dye). In our study, as the cell density increased from 10 × 10⁶ to 400 × 10⁶ cells/ml, the fraction of permeabilized cells decreased by approximately 50%. We attributed this to the changes in the local electric field, which led to a decrease in the amplitude of the induced transmembrane voltage. To obtain the same fraction of cell permeabilization in suspensions with 10 × 10⁶ and 400 × 10⁶ cells/ml, the latter suspension had to be permeabilized with higher pulse amplitude, which is in qualitative agreement with numerical computations. The electroloading of the cells also decreased with cell density. The decrease was considerably larger than expected from the differences in the permeabilized cell fractions alone. The additional decrease in fluorescence was mainly due to cell swelling after permeabilization, which reduced extracellular dye availability to the permeabilized membrane and hindered the dye diffusion into the cells. We also observed that resealing of cells appeared to be slower in dense suspensions, which can be attributed to cell swelling resulting from electropermeabilization.     

Foam Separation of Pseudomonas fluorescens and Bacillus subtilis var. niger

An experimental investigation established the effect of the presence of inorganic salts on the foam separation of Pseudomonas fluorescens and of Bacillus subtilis var. niger (B. globigii) from aqueous suspension by use of a cationic surfactant. For P. fluorescens, 5.0 mueq/ml of NaCl, KCl, Na(2)SO(4), K(2)SO(4), CaCl(2), CaSO(4), MgCl(2), or MgSO(4) produced increases in the cell concentration in the residual suspension (not carried into the foam) from 2.9 x 10(5) up to 1.6 x 10(6) to 2.8 x 10(7) cells per milliliter (initial suspensions contain from 3.3 x 10(7) to 4.8 x 10(7) cells per milliliter). The exceptional influence of magnesium was overcome by bringing the cells into contact first with the surfactant and then the salt. For B. subtilis, the presence of 5.0 mueq/ml of any of the eight salts increased the residual cell concentration by one order of magnitude from 1.2 x 10(4) to about 4.0 x 10(5) cells per milliliter. This occurred regardless of the sequence of contact as long as the surfactant contact period was sufficient. The presence of salts increased collapsed foam volumes with P. fluorescens and decreased collapsed foam volumes with B. subtilis.     

The cAMP signal from Dictyostelium discoideum amoebae.

Dictyostelium discoideum cells were allowed to differentiate on agar for 600 min at room temperature. All of the cells were then competent to relay or amplify a cAMP signal, but none to produce a cAMP signal autonomously. The cells were stimulated with cAMP concentrations ranging from 10^?9 to 3.5 × 10^?7M. Populations of 10⁶ cells could amplify an initial cAMP concentration of 2.5 × 10^?9M with a low probability, while an initial cAMP concentration of 5 × 10^?8M always induced a response. An initial cAMP concentration of 1.2 × 10^?7M induced the maximum cellular release of cAMP observed; this corresponded to 3 × 10⁷ molecules per cell. No cellular release of cAMP was detected for initial cAMP concentrations of 3 × 10^?7M or more. The amplification of a 10^?7M cAMP stimulus was complete within 8 sec, indicating the pulsatile nature of the cellular release of cAMP. The phosphodiesterase (PDE) activities of D. discoideum cells were measured over a wide range of cell densities. At densities above 7.5 × 10⁴ cells/cm², both cell-bound and extracellular (ePDE) activities declined, per cell, as cell density increased. These results are compared to ePDE activities derived from critical density measurements. We found that PDE activities were in the range of 10^?13–10^?14 moles of cAMP converted/cell/min under culture conditions consistent with normal aggregation.     

Dispersal of Septoria nodorum Pycnidiospores by Simulated Raindrops in Still Air

Simulated raindrops, diameter c. 3 or 4 mm, fell 13 m down a raintower onto suspensions of Septoria nodorum pycnidiospores, depth 0.5 mm, or infected straw pieces. Splash droplets were collected on pieces of fixed photographic film. It was estimated that one drop generated c. 300 spore carrying splash droplets, containing c. 6000 spores, from a concentrated spore suspension (6.5 × 10⁵ spores/ml) and c. 25 spore-carrying droplets, containing c. 30 spores, from infected straw pieces (11 × 10⁶ spores/g dry wt). When the target was a spore suspension in water without surfactant, most spore-carrying droplets were in the 200—400 μm size category and most spores were carried in droplets with diameter >1000 μm. When surfactant was added to spore suspensions, most spore-carrying droplets were in the 0–200 μm category and most spores were carried in droplets with diameter 200–400 μm and none in droplets >1000 μm. Regression analyses showed a significant (p < 0.001) relationship between square root (number of spores per droplet) and droplet diameter; the slope of the regression line was greatest when surfactant was added to the spore suspensions. The distribution of splash droplets with distance travelled from the target was better fitted by an exponential model than by power law or Gaussian models. The distributions of spore-carrying droplets and spores with distance were fitted better by an exponential model than by a power law model. Thus regressions of log, (number collected) against distance were all significant (p < 0.01); the slopes of the regression lines were steepest when surfactant was added to the spore suspension. At a distance of 10 cm from target spore suspensions most splash droplets and spore-carrying droplets were collected at height 10–20 cm, with none above 40 cm; at a distance of 20 cm there were most at heights 0–10 cm and 40–50 cm.     

Apparatus for automatically maintaining cell suspension at low,constant oxygen concentrations: The oxystat

An apparatus which rapidly provides and maintains constant oxygen partial pressure from 1 to 150 Torr (1.4 to 211 μm) in suspensions of respiring rat hepatocytes (0.50 – 0.87 μm s^?1) was developed. Voltage output from a Clark-type electrode in an incubation vessel regulates oxygen flow into the vessel to control solution oxygen concentration at a predetermined level. After maintenance of cell suspensions (4–15 ml) for 10 to 30 min, metabolism can be quenched and examined.     

Growth characterizations of a human monocytic leukemia cell line in a serum-free medium

A clone, AH-01S, derived from a human monocytic leukemia cell line, THP-1, grew rapidly in a serum-free medium containing insulin, transferrin, ethanolamine, and sodium selenite. In batch culture using the serum-free medium, the AH-01S cells proliferated at a specific growth rate (μ) of 0.30 to 0.50 (1/day) from a cell concentration of 1 × 10⁴ cells/ml to 1.6 × 10⁶ cells/ml, an increase of 160 times. A higher cell concentration of 0.45 × 10⁷ cells/ml (cell volume ratio was 0.5%) was obtained in spinner flask culture using the serum-free medium. A mean specific growth rate 0.50 (1/day) was also observed in a culture in a fully instrumented cell culture fermentor. However, μ decreased drastically after the cell concentration reached 1.5 × 10⁶ cells/ml. Analyses of medium composition during cultivation revealed that under lower cell concentration, l-glutamine was the main carbon source while glucose was converted to lactate almost stoichiometrically, and that the production of lactate from glucose decreased at higher cell concentrations. To obtain cultures of 1 × 10⁹ cells, 1,200 to 1,300 mg of a carbon source (glucose) and 400 to 500 of amino acids were consumed during high cell concentration cultivation of the AH-01S cells in the serum-free medium.     

Industrial wastewaters and dewatered sludge: rich nutrient source for production and formulation of biocontrol agent, <Emphasis Type="Italic">Trichoderma viride</Emphasis>

Axenic cultivation of biocontrol fungus Trichoderma viride was conducted on a synthetic medium and different wastewaters and wastewater sludges in shake flasks to search for a suitable raw material resulting in higher biocontrol activity. Soluble starch based synthetic medium, dewatered municipal sludge, cheese industry wastewater sludge, pre-treated and untreated pulp and paper industry wastewater and slaughter house wastewater (SHW) were tested for T. viride conidia and protease enzyme production. The maximum conidia production followed the order, soluble starch medium (>10⁹ c.f.u./mL), untreated pulp and paper industry wastewater (4.9 × 10⁷ c.f.u./mL) > cheese industry wastewater (1.88 × 10⁷ c.f.u./mL) ≈ SHW (1.63 × 10⁷ c.f.u./mL) > dewatered municipal sludge (3.5 × 10⁶ c.f.u./mL) > pre-treated pulp and paper industry wastewater (1.55 × 10⁶ c.f.u./mL). The protease activity of T. viride was particularly higher in slaughterhouse wastewater (2.14 IU/mL) and dewatered municipal sludge (1.94 IU/mL). The entomotoxicity of soluble starch based synthetic medium was lower (≈6090 SBU/μL) in contrast to other raw materials. The entomotoxicity inversely decreased with carbon to nitrogen ratio in the growth medium and the conidia concentration and protease activity also contributed to the entomotoxicity. The residual c.f.u./g formulation of T. viride conidia were up to approximately, 90% after 1 month at 4 ± 1 °C and about 70% after 6 months at 25 ± 1 °C. Thus, production of T. viride conidia would help in marketability of low cost biopesticide from the sludge and safe reduction of pollution load.     

Electrochemical analysis of blood cell/substrate interactions under flow conditions

Interactions of blood cells (RBCs) with a microelectrode of 50 (im diameter have been examined under flow conditions using impedance measurements at high frequencies. At such frequencies, the electrolyte resistance (R_e,) is assimilated to the real part of impedance, and interactions are associated with transient fluctuations of R_e. Sedimentation experiments suggest that one erythrocyte contributes to a 1.1% R_e, increase. Effects of wall shear rate (from 25 to 140 s¹) and RBC concentration (from 8.4 × 10⁵ to 2.7 × 10⁶ cells/ml) have been investigated; the number of interactions rapidly decreases with wall shear rate. Event frequency is proportional to RBC concentration ranging from 3.1 × 10⁶ cells/ml to 1.3 × 10⁷ cells/ml. At high concentrations of RBCs, some transient events overlap. Videotaped images help to determine how many RBCs interact with the microelectrode at the same time on separate surface areas. Under flow conditions, the contribution of one RBC on the R_e increase is similar to the mathematical value obtained by sedimentation and decreases slightly with wall shear rate.     

On-line measurement of hybridoma growth by culture fluorescence

Summary Fluorescence measurement of viable hybridoma cell cultures provides a convenient method for monitoring the progress of a batch culture. It is shown that cell concentration changes as low as 35,000 cells/ml during initial stages of growth can be measured reliably. This sensitivity, however, decreases to 2 × 10⁶ cells/ml at cell concentration greater than 2 × 10⁶ cells/ml. The culture fluorescence of hybridoma culture is a characteristic property of the cell and the medium used. Consequently, processes in which the medium composition and cell lines are invariant, a direct on-line estimate of viable cell count can be made using the method investigated in this paper.     

Studies on melon necrotic spot virus disease of cucumber and on the control of the fungus vector (Olpidium radicale)

Melon necrotic leaf spot virus (MNSV) caused a major outbreak of a leaf necrosis disease of hydroponically-grown cucumber plants at Humberside in 1983. The virus had c. 33 nm diam. particles which reacted serologically with MNSV antiserum of Dutch or American origin. Virus particles, which contained a single polypeptide (mol. wt 45 × 10³) and a presumed RNA species (mol. wt 1.5 × 10⁶), had a sedimentation coefficient (s_20.w) of 134 S and a buoyant density in caesium chloride of 1.35 g/cm³. The virus was mechanically transmissible, confined to species of Cucurbitaceae, transmitted by zoospores of Olpidium radicale and retained in the resting spores of the fungus. MNSV is thus both water-borne and soil-borne. O. radicale zoospores were killed in <5 min in suspensions containing 20 μg/ml of the surfactant Agral (alkyl phenol ethylene oxide). The disease did not reappear in 1984 when the cucumber crops were fed with nutrients containing 20μg/ml Agral.     

Primary suspension culture of calf anterior pituitary cells on a microcarrier surface

In order to achieve a steady-state primary culture system for mammalian cells, with the potential to eventually correlate and control cell function and growth, a serious evaluation of various suspension systems was made. Calf anterior pituitary cells were employed as a differentiated cell type and successfully cultivated in a microcarrier suspension culture system. DEAE-Sephadex was demonstrated to be a satisfactory type of microcarrier. The cells readily attached to the bead and, after a short lag period, they actively proliferated on the bead surface to yield growth of a predominantly epithelial cell type. Under specific conditions the microcarrier supported primary cell growth up to levels of 2 × 10⁶ cells per ml. High bead concentrations inhibited cell growth. The inhibition could be overcome by using proportionately higher cell inoculum so that a concentrated culture with 5 × 10⁶ cells per ml was achieved. The inhibitory effect of high bead concentration was found to be due to the absorption of serum protein and certain growth enhancing factors. The fact that the growth enhancing factors were released from cells during the period of trypsinization and were both thermostable and nondialyzable, seems to suggest one approach to a dialysis culture system. In addition, relatively trauma-free primary cell cultures can be achieved by using explant culture without prior trypsinization. In microcarrier suspensions direct growth of primary rat mammary tumor cells was also demonstrated.     

The In Vitro Growth Response of Giardia Trophozoites from the Rabbit*

SYNOPSIS. A visual technic has been developed for determining concentration of Giardia trophozoites in culture tubes. Such a technic is desirable because the nature of Giardia growth makes routine enumeration of these organisms by hemocytometer or electronic cell counter expensive in both time and material. The visual method of counting Giardia trophozoites was correlated with counts of the same suspensions of organisms using an electronic particle counter. As a part of the correlation, the growth response, as measured by electronic cell counter, was established for 8 primary axenic cultures of Giardia trophozoites from the rabbit. The average starting number of organisms was 3.7 ± 0.6 × 10³ per ml, the average number of organisms at the peak of logarithmic growth was 1.78 ± 0.2 × 10⁵ per ml, and the generation time was 18.1 ± 1.6 hr. These data are compared with the available literature data quantitating Giardia growth.     

Characterization of Odorous Compounds in Rotten Blue-green Algae

An ice-nucleating bacterium, strain KUIN-1, was isolated from the leaves of field beans (Phaseolus vulgaris L.). Strain KUIN-1 was identified as Pseudomonas fluorescens from its taxonomical characteristics. Ice-nucleating activity was obtained when strain KUIN-1 was cultured aerobically in a medium containing Koser citrate broth (pH 7.0) for 24 hr at 18°C. The ice- nucleating activity did not appear until the bacterial cell concentration reached 10⁷ to 10⁸/ml. Nucleation at — 3.0°C was detected in suspensions (1.8 × 10⁹ cells/ml) of cells that had been grown on the medium containing Koser citrate broth. Strain KUIN-1 produced a lower nucleation frequency (i.e. the number of ice nuclei/cell) than did ice-nucleating Pseudomonas syringae No. 31 suspensions, particularly at temperatures above — 5°C. The nucleation frequency of strain KUIN- 1-suspensions was similar to that obtained for an ice-nucleating Erwinia herbicola No. 26 at — 5°C.     

INFLUX OF GLUTAMIC ACID IN PERIPHERAL NERVE—CHARACTERISTICS OF INFLUX1

Abstract— —The influx of glutamic acid in frog sciatic nerve has been studied by monitoring the disappearance of ¹⁴C labelled compound from the bathing medium. After 5hr of incubation in 10 ⁻⁶m non-labelled l -glutamic acid and 0·01, μc/ml labelled isotope, the intracellular concentration of labelled glutamic acid is about 15 times the concentration in the bathing medium; however, there appears to be a net loss of non-labelled compound with incubation. Uptake of L,-glutamic acid is accompanied by conversion of significant amounts of labelled E-glutamic acid to carbon dioxide and glutamine; small amounts of γ-aminobutyric acid and aspartic acid are also formed. The rate of disappearance of labelled l -glutamic acid decreases with increasing concentration of non-labelled isotope in the bathing medium. Construction of a Lineweaver-Burk plot from initial velocities of influx yields an average V_m of 4·02 × 10⁻⁹ moles/g/min and an average K_m. of 3·23 × 10 ⁻⁵ moles/l. The influx of glutamic acid is highly specific with regard to molecular structure; of the compounds tested, only l -glutamine, l -glutamic acid, GABA, l -lysine, and l -aspartic acid are taken up, and only l -aspartic acid will compete with l -glutamic acid for uptake.     

Isolation and characterization of pathogens attacking Pomacea canaliculata

Seven microorganisms capable of killing Pomacea canaliculata were isolated from soil samples obtained from various agricultural areas of Thailand. The identification of these microorganisms was performed using microscopic examination and biochemical tests. Five strains were identified as Pseudomonas aeruginosa and were designated P. aeruginosa 19.1, 21.2.1, B1.1, P1 and P2. The other two strains were identified as Pseudomonas fluorescens and were designated P. fluorescens 13.1 and Ct1. Pathogenicity studies of these microorganisms to P. canaliculata (Lamarck) were performed and characterized by LC₅₀ levels. The LC₅₀ levels of non-autoclave-treated and autoclave-treated cell suspensions to P. canaliculata were found to be 3.56 × 10⁴–1.35 × 10⁶ c.f.u./ml and 3.09 × 10⁴ to 1.23 × 10⁶ c.f.u./ml, respectively.