Cell Lysis of Cyanobacteria and Its Implications for Nutrient Dynamics

The dynamics of nutrients, such as phosphorus, nitrogen, and carbohydrates, during cyanobacteria cell lysis was investigated under darkness incubation in the laboratory. The cell lysis rate of cyanobacteria sampled from Lake Taihu was measured using an esterase assay. Based on particulate esterase activity, the calculated cyanobacteria lysis rate was 0.094 d^–1. During 30 days of darkness incubation, Chlorophyll a concentration decreased from 56 μg L^–1 to 2.0 μg L^–1. Parallel to this, total particulate carbohydrate concentration decreased rapidly. The fluctuation of dissolved organic carbon concentration was a function of the production of non‐carbohydrate by cyanobacteria and the decomposition of carbohydrate by bacteria. Total dissolved carbohydrates and dissolved polysaccharides concentrations showed a similar pattern, declining at the beginning of the experiment and keeping relatively stable, thereafter. In contrast, the concentration of dissolved monosaccharides remained constant during the entire process. The concentrations of NH₄⁺ and PO₄^3– increased at the early stage, and then decreased afterwards. A gradual decrease in NO₃^– concentration after day 8 indicated that anaerobic conditions might be produced during the cell lysis process. The present results demonstrated cyanobacteria cell lysis has a big influence on the nutrient status of the surrounding water. (© 2010 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)     

Ozanimod(RPC1063)在少突胶质前体细胞分化中的作用和机制

目的:研究Ozanimod(RPC1063)在少突胶质前体细胞(oligodendrocyte precursor cell,OPC)分化中的作用,并初步探讨其分子机制。方法:利用免疫吸附法直接分离OPC诱导培养,使用免疫荧光染色、实时荧光定量PCR(quantitative real time-PCR,qRT-PCR)对细胞进行鉴定。qRTPCR法检测大脑皮层发育、OPC分化过程中的S1pr家族基因mRNA水平变化。OPC经不同浓度RPC1063处理后,使用MTT法、ATP细胞活性检测法、免疫荧光染色、qRT-PCR和Western blot检测RPC1063对OPC分化细胞数目、mRNA或蛋白水平的影响。结果:利用免疫吸附法可获得高纯度的OPC;而MTT、ATP检测结果显示在0、0. 1、1、5、50、100nmol/L浓度下,RPC1063对细胞活性无明显影响。进一步研究发现,RPC1063处理OPC后,O4、MBP阳性细胞形态舒展,MBP蛋白表达量增加,OPC分化相关基因Mbp、Mag、Sox10、Cnp的mRNA水平增加。机制上,少突胶质细胞系Oli-neu或OPC经RPC1063处理5min后,AKT-mTOR信号通路相关蛋白p-AKT、p-mTOR、p-4EBP1显著增加,OPC经RPC1063处理48h后,p-AKT、p-mTOR蛋白水平增加;而抑制m TOR活性,RPC1063作用减弱。结论:RPC1063通过AKT-mTOR信号通路促进少突胶质前体细胞的分化。     

Host cell protein quantification by fourier transform mid infrared spectroscopy (FT‐MIR)

Process development in up‐ and downstream processing requires enhanced, non‐time‐consuming, and non‐expensive monitoring techniques to track product purity, for example, the level of endotoxins, viral particles, and host cell proteins (HCPs). Currently, HCP amounts are measured by laborious and expensive HCP‐enzyme‐linked immunosorbent assay (ELISA) assays best suited for measuring HCP amounts in the low concentration regime. The measurement of higher HCP amounts using this method requires dilution steps, adding dilution errors to the measurement. In this work we evaluated the suitability of attenuated total reflection spectroscopy for HCP quantification in process development, using clarified cell culture fluid from monoclonal antibody producing Chinese hamster ovary‐cells after treatment with different polyelectrolytes for semi‐selective clarification. Forty undiluted samples were chosen for multivariate data analysis in the middle infrared range and predicted HCP‐values were in good agreement with results obtained by an ELISA‐assay, suggesting the suitability of this new method for HCP‐quantification. As this method is able to quantify HCP titers ranging from approximately at least 20,000–200,000 ng mL^?1, it is suitable especially for monitoring of process development steps with higher HCP concentrations, omitting dilution errors associated with ELISA assays. Biotechnol. Bioeng. 2013; 110: 252–259. © 2012 Wiley Periodicals, Inc.     

Cell death and lumen formation in spheroids of MCF‐7 cells

3D (three‐dimensional) cell culture permits a more integrated analysis of the relationship between cells, inserting them into a structure more closely resembling the cellular microenvironment in vivo. The development of in vitro parameters to approximate in vivo 3D cellular environments makes a less reductionist interpretation of cell biology possible. For breast cells, in vitro 3D culture has proven to be an important tool for the analysis of luminal morphogenesis. A greater understanding of this process is necessary because alterations in the lumen arrangement are associated with carcinogenesis. Following lumen formation in 3D cell culture using laser scanning confocal microscopy, we observed alterations in the arrangement of cytoskeletal components (F‐actin and microtubules) and increasing levels of cell death associated with lumen formation. The formation of a polarized monolayer facing the lumen was characterized through 3D reconstructions and the use of TEM (transmission electron microscopy), and this process was found to occur through the gradual clearing of cells from the medullary region of the spheroids. This process was associated with different types of cell death, such as apoptosis, autophagy and entosis. The present study showed that changes in the extracellular matrix associated with long periods of time in 3D cell culture lead to the formation of a lumen in MCF‐7 cell spheroids and that features of differentiation such as lumen and budding formation occur after long periods in 3D culture, even in the absence of exogenous extracellular compounds.     

A pumpless perfusion cell culture cap with two parallel channel layers keeping the flow rate constant

This article presents a novel pumpless perfusion cell culture cap, the gravity‐driven flow rate of which is kept constant by the height difference of two parallel channel layers. Previous pumpless perfusion cell culture systems create a gravity‐driven flow by means of the hydraulic head difference (Δh) between the source reservoir and the drain reservoir. As more media passes from the source reservoir to the drain reservoir, the source media level decreases and the drain media level increases. Thus, previous works based on a gravity‐driven flow were unable to supply a constant flow rate for the perfusion cell culture. However, the proposed perfusion cell culture cap can supply a constant flow rate, because the media level remains unchanged as the media moves laterally through each channel having same media level. In experiments, using the different fluidic resistances, the perfusion cap generated constant flow rates of 871 ± 27 μL h^?1 and 446 ± 11 μL h^?1. The 871 and 446 μL h^?1 flow rates replace the whole 20 mL medium in the petridish with a fresh medium for days 1 and 2, respectively. In the perfusion cell (A549 cell line) culture with the 871 μL h^?1 flow rate, the proposed cap can maintain a lactate concentration of about 2200 nmol mL^?1 and an ammonia concentration of about 3200 nmol mL^?1. Moreover, although the static cell culture maintains cell viability for 5 days, the perfusion cell culture with the 871 μL h^?1 flow rate can maintain cell viability for 9 days. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2012     

Process development for production of human granulocyte-colony stimulating factor by high cell density cultivation of recombinant <Emphasis Type="Italic">Escherichia coli</Emphasis>

The fed-batch process using glucose as the sole source of carbon and energy with exponential feeding rate was carried out for high cell density cultivation of recombinant Escherichia coli BL21 (DE3) expressing human granulocyte-colony stimulating factor (hG-CSF). IPTG was used to induce the expression of hG-CSF at 48 g dry cell wt l⁻¹ during high cell density culture of recombinant E. coli BL21 (DE3) [pET23a-g-csf]. The final cell density, specific yield and overall productivity of hG-CSF were obtained as ~64 g dry cell wt l⁻¹, 223 mg hG-CSF g⁻¹ dry cell wt and 775 mg hG-CSF l⁻¹ h⁻¹, respectively. The resulting purification process used cell lysis, inclusion body (IB) preparation, refolding, DEAE and Butyl-Sepharose. Effects of different process conditions such as cell lysis and washing of IB were evaluated. The results reveal that the cells lyzed at 1,200 bar, 99.9% and Triton removed about 64% of the LPS but sarcosyl had no effect on removal of nucleic acids and LPS. Further analysis show that DEAE column removes DNA about 84%. Cupper concentration was identified as parameter that could have a significant impact on aggregation, as an unacceptable pharmaceutical form that decrease process yields. The purity of purified hG-CSF was more than 99%. Also the comparison of activity between purified hG-CSF and commercial form do not show valuable decrease in activity in purified form.     

Growth and phage production of B. megatherium. I. Growth of cells after infection with C phage. II. Rate of growth,phage yield,and RNA content of cells. III. Effect of various substances on growth rate and phage production

I. Lysogenic B. megatherium 899a (de Jong, 1931) produces two types of phage (Gratia, 1936 c) T and C. The T phage forms cloudy plaques and gives rise to fresh lysogenic strains (Gratia, 1936 b) when added to the sensitive strain of megatherium. It may or may not cause lysis, depending on the media (Northrop, 1951). The C phage occurs very rarely) forms clear plaques, does not give rise to lysogenic strains, and causes complete lysis of the sensitive strain under all conditions tested, provided infection occurs. If C phage is added to the sensitive strain, and the mixture allowed to stand, or made into a hanging drop preparation, the infected cells stop growing and lyse completely after 60 to 80 minutes with the liberation of from 50 to 200 phage particles per cell. If, however, C phage is added to a rapidly growing culture of B. megatherium and the suspension shaken at 34°, the cells continue to grow and divide for 50 to 60 minutes, after infection has occurred. They then lyse, with the liberation of from 1000 to 2500 phage particles per cell. II. The following determinations have been made on megatherium sensitive cells growing in 5 per cent peptone at different stages of growth. (1) Growth rate of infected and uninfected cells; (2) RNA, DNA, and protein content; (3) volume of the cell; (4) phage yield per cell by plaque count; (5) phage yield per cell by cell and plaque count; (6) lysis time. The growth rate decreases as the cell concentration increases. The lysis time and the protein N per cell are nearly independent of the growth rate; all the other values increase as the growth rate increases. The ratio See PDF for Equation is nearly constant. RNA and DNA per cell increase less rapidly than the volume, so that NA per unit volume is not constant, but decreases as the size of the cell increases. The phage yield measured under conditions in which the infected cells do not grow (by plaque count) is very nearly proportional to the size of the cell. The phage yield per cell, under conditions in which the infected cells do grow, increases more rapidly than the size of the cells. The phage yield per cell under these conditions may be calculated by the equation See PDF for Equation The determining factor for the variation in phage yield is the growth rate of the cells. This, in turn, is determined by the composition of the medium. III. The growth and phage production of megatherium 899a have been determined in the presence of the following substances: aureomycin, bacitracin, chloromycetin, gramicidin, Merck AB631, Merck AB191, Merck AB624, penicillin, streptomycin, terramycin, tyrothricin, usnic acid, acetone, chloroform, ethyl alcohol, formaldehyde, gentian violet, glycerin, maleic hydrazide, methyl alcohol, phenyl mercuric acetate, sodium fluoride, sulfanilamide, toluene, and urethane. In every case, the lowest concentration of the substance which completely inhibits growth, is also the lowest concentration which completely inhibits phage production. One antibiotic, Merck AB81, causes increased phage production in concentrations which partially inhibit growth, and low phage production in concentrations which completely inhibit growth (as determined by turbidity). Short exposure to ultraviolet light also decreases the growth rate, with increase in phage production. Longer exposure, which completely inhibits growth (as determined by turbidity) results in lysis and phage liberation.     

Use of enzymes in extraction of polyhydroxyalkanoates produced by Cupriavidus necator

Poly(3‐hydroxybutyrate) (P(3HB)) and its copolymer poly(3‐hydroxybutyrate‐co‐3‐hydroxyvalerate) (P(3HB‐co‐3HV), are biodegradable thermoplastic polymers. They are members of the polyhydroxyalkanoate (PHA) family, synthesized and accumulated as a carbon and energy reserve by a variety of microorganisms. The aim of this study was to evaluate the use of the proteases Corolase^® L10, Alcalase^® 2.4L, Corolase^® 7089 and Protemax^® FC and glycosidases Celumax^® BC, Rohament^® CL and Rohalase^® Barley for the recovery of P(3HB) and P(3HB‐co‐3HV) synthesized by Cupriavidus necator. The enzyme Celumax^® BC provided better lysis of the bacterial cell membrane and the results for the optimization of the operating conditions showed that this enzyme is most stable in acetate buffer at pH 4.0, bath at 60°C, hydrolysis time of 1 h and concentration of 0.02% (w/w). The optimization of the operating conditions showed that the enzyme Celumax^® BC provided better lysis of the bacterial cell in acetate buffer at pH 4.0, bath at 60°C, hydrolysis time of 1 h and concentration of 0.02% (w/w). These conditions resulted in lysis of the membrane of the bacteria with a recovery of 93.2% P(3HB‐co‐3HV) with 94% purity. The results showed that the use of enzymes for the polymer extraction is an efficient process that assists in the cell disruption of Cupriavidus necator. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2012     

Evaluation of a protocol for molecular broad-range diagnosis of culture-negative bacterial infections in clinical routine diagnosis

Aim: Introduction of a protocol for broad‐range diagnosis of bacterial infections, which remain negative in culture. Methods and Results: The new TaqMan real‐time PCR assay amplifies part of the 16S rRNA gene. Species are identified by subsequent sequencing and phylogenetic blast analysis. The analytical sensitivity showed to be 50 fg DNA per PCR. The lowest detectable bacterial cell concentration in blood was 1000 CFU per 200 μl EDTA‐blood. The utility in clinical routine diagnosis was evaluated by testing 136 clinical specimens. Bacterial pathogens were detected in 33 samples (24·3%) either by culture or molecular diagnosis. In 10 culture negative cases, pathogens such as Mycoplasma timone/orale, Ureaplasma parvum/urealyticum, Treponema pallidum, different streptococci and staphylococci were identified by molecular diagnosis only. Conclusions: The introduced broad‐range real‐time PCR protocol showed to be useful in the clinical routine in cases where bacterial infection was highly anticipated but culture remained negative. However, the obtained data have to be always interpreted with caution and in conjunction with the clinical data, crossing‐point values and with the Blast result of both the sample and the controls. Significance and Impact of the Study: This work introduces a new and well‐evaluated broad‐range real‐time PCR protocol for diagnosis of bacterial infections.     

A High-throughput End-point Assay for Viable Mammalian Cell Estimation

A single wavelength colorimetric microplate-based assay was developed using non-cytotoxic dye resazurin for the estimation of viable cell concentrations of Chinese hamster ovary (CHO) and hybridoma cells. Experimental results showed variations in pH and temperature caused by cell cultivation and assay operations were well tolerated. Cell concentrations can be effectively determined in the range of 10⁵–10⁷ cells ml⁻¹ using a microplate reader at the wavelength of 605 nm. This assay can be performed in a high-throughput manner such that a large number of cell culture samples can be screened within a relatively short time frame. When used together with a cell culture system of high-throughput format, it may have potential utilities in applications such as cell culture medium formulation and optimization.     

Cell culture media impact on drug product solution stability

To enable subcutaneous administration of monoclonal antibodies, drug product solutions are often needed at high concentrations. A significant risk associated with high drug product concentrations is an increase in aggregate level over the shelf‐life dating period. While much work has been done to understand the impact of drug product formulation on aggregation, there is limited understanding of the link between cell culture process conditions and soluble aggregate growth in drug product. During cell culture process development, soluble aggregates are often measured at harvest using cell‐free material purified by Protein A chromatography. In the work reported here, cell culture media components were evaluated with respect to their impact on aggregate levels in high concentration solution drug product during accelerated stability studies. Two components, cysteine and ferric ammonium citrate, were found to impact aggregate growth rates in our current media (version 1) leading to the development of new chemically defined media and concentrated feed formulations. The new version of media and associated concentrated feeds (version 2) were evaluated across four cell lines producing recombinant IgG₄ monoclonal antibodies and a bispecific antibody. In all four cell lines, the version 2 media reduced aggregate growth over the course of a 12 week accelerated stability study compared with the version 1 media, although the degree to which aggregate growth decreased was cell line dependent. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:998–1008, 2016     

Optimal nitrogen supply as a key to increased and sustained production of a monoclonal full‐size antibody in BY‐2 suspension culture

Plant cell cultures have been used as expression hosts for recombinant proteins for over two decades. The quality of plant cell culture‐produced proteins such as full‐size monoclonal antibodies has been shown to be excellent in terms of protein folding and binding activity, but the productivity and yield fell short of what was achieved using mammalian cell culture, in which the key to gram‐per‐liter expression levels was strain selection and medium/process optimization. We carried out an extensive media analysis and optimization for the production of the full‐size human anti‐HIV antibody 2G12 in N. tabacum cv. BY‐2. Nitrogen source and availability was found to be one key factor for the volumetric productivity of plant cell cultures. Increased amounts of nitrate in the culture medium had a dramatic impact on protein yields, resulting in a 10–20‐fold increase in product accumulation through a combination of enhanced secretion and higher stability. The results were scalable from shake flasks to stirred‐tank bioreactors, where the maximum yield per cultivation volume was 8 mg L^?1 over 7 days. During the stationary phase, antibody levels were 150‐fold higher in nitrogen‐enriched medium compared to standard medium. The enhanced medium appeared not to affect antibody quality and activity, as determined by Western blots, surface plasmon resonance binding assays and N‐glycan analysis. Biotechnol. Bioeng. 2010;107: 278–289. © 2010 Wiley Periodicals, Inc.     

Automatic Cell Counting in Continuous Flow Cultures of Tetrahymena pyriformis*

This report describes an electronic cell counter constructed for determining cell number in cultures of the ciliate, Tetrahymena pyriformis. The culture chamber has been equipped with a device which determines the number of cells per unit volume and records the number automatically. As cell multiplication is unaffected by the counting procedure the cells are returned to the culture. Furthermore, keeping the culture volume constant we have arranged a continuous flow of fresh nutrient medium through the culture chamber and thus established conditions under which cell multiplication has continued for months while determinations of cell concentrations have been recorded every 10 min. Since the culture volume has been small, ～25 ml, growth studies utilizing this method require less than one liter of fresh medium per week in spite of the fast multiplication (9 generations per 24 hr) occurring in cultures of Tetrahymena pyriformis under optimal conditions.     

The effect of ultraviolet and white light on growth rate,lysis, and phage production of Bacillus megatherium

Cultures of megatherium 899a, growing under different conditions, were exposed to ultraviolet or white light. 1. Cultures exposed to ultraviolet light and then to white light continue to grow at the normal rate. Cultures exposed to ultraviolet light and then placed in the dark grow at the normal rate for varying lengths of time, depending on conditions, and then lyse with the liberation of from 5 to 1000 phage particles per cell, depending on the culture medium. 2. Increasing the time of exposure to ultraviolet light results in an increase in the fraction of cells which lyse in the dark. The lysis time decreases at first, remains constant over a wide range of exposure, and then increases. The lysis can be prevented by visible light after short exposure, but not after long exposures. 3. The time required for lysis is independent of the cell concentration. 4. Effect of temperature. After exposure to ultraviolet the cell concentration increases about 4 times at 20°, 30°, or 35°C., but only 1.5 to 2.0 times at 40–45°. This is due to the fact that the growth rate of the culture reaches a maximum at 38° while the lysis rate increases steadily up to 45°. 5. Terramycin decreases the growth rate and lysis rate in proportion. 6. At pH 5.1, the cultures continue to grow slowly in the dark after exposure to ultraviolet light. 7. Megatherium sensitive cells infected with T phage lyse more rapidly than ultraviolet-treated 899a, and visible light does not affect the lysis time. The results agree with the assumption that exposure to ultraviolet results in the production of a toxic (mutagenic) substance inside the bacterial cell. This substance is inactivated by white light.     

不同处理方法对肺炎链球菌基因组提取的影响

为了获得简便、高效的提取肺炎链球菌基因组DNA方法,分别采用不同处理方法(溶菌酶法和脱氧胆酸钠(DOC)法)、不同处理时间对8株不同血清型的肺炎链球菌进行破壁,同时菌株采用不同培养时间进行基因组的提取,提取基因组后利用紫外分光光度计测定样品中DNA的浓度和纯度以及琼脂糖凝胶电泳检测基因组DNA的质量。结果表明,菌株培养12~16 h、质量分数1%DOC处理2 h能提取出高质量的肺炎链球菌基因组DNA。该方法提取的肺炎链球菌基因组DNA具有质量高、完整性好的优点,为肺炎链球菌全基因组序列的测定提供了前提条件。     

Growth kinetics under adenine-limiting conditions of Bacillus subtilis KYA 741, an adenine-requiring strain

The growth kinetics of Bacillus subtilis KYA 741, an adenine-requiring strain, was investigated under adenine-limiting conditions. The concentration of adenine (the limiting substrate for cell growth) in the culture filtrate remained constant during the stationary phase. In this phase, DNA turnover was active and the DNA content per cell was constant throughout the cultivation period. When cells were transferred to medium without adenine, the cell concentration began to decrease immediately and then reached a constant level due to the supply of adenine from lysing to growing cells. The rates of degradation of cells and DNA were both found to be 0.2 hr^?1. An equation for cell growth in this pseudostationary phase was obtained by combining Contois' equation, in which the apparent saturation constant was a function of the cell concentration, with a term for cell degradation. This equation satisfactorily expressed the feature of cell growth and adenine consumption by B. subtilis KYA 741 under adenine-limiting conditions.     

Intracellular CHO Cell Metabolite Profiling Reveals Steady‐State Dependent Metabolic Fingerprints in Perfusion Culture

Perfusion cell culture processes allow the steady‐state culture of mammalian cells at high viable cell density, which is beneficial for overall product yields and homogeneity of product quality in the manufacturing of therapeutic proteins. In this study, the extent of metabolic steady state and the change of the metabolite profile between different steady states of an industrial Chinese hamster ovary (CHO) cell line producing a monoclonal antibody (mAb) was investigated in stirred tank perfusion bioreactors. Matrix‐assisted laser desorption/ionization time of flight mass spectrometry (MALDI‐TOF‐MS) of daily cell extracts revealed more than a hundred peaks, among which 76 metabolites were identified by tandem MS (MS/MS) and high resolution Fourier transform ion cyclotron resonance (FT‐ICR) MS. Nucleotide ratios (Uridine (U)‐ratio, nucleotide triphosphate (NTP)‐ratio and energy charge (EC)) and multivariate analysis of all features indicated a consistent metabolite profile for a stable culture performed at 40 × 10⁶ cells/mL over 26 days of culture. Conversely, the reactor was operated continuously so as to reach three distinct steady states one after the other at 20, 60, and 40 × 10⁶ cells/mL. In each case, a stable metabolite profile was achieved after an initial transient phase of approximately three days at constant cell density when varying between these set points. Clear clustering according to cell density was observed by principal component analysis, indicating steady‐state dependent metabolite profiles. In particular, varying levels of nucleotides, nucleotide sugar, and lipid precursors explained most of the variance between the different cell density set points. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 33:879–890, 2017     

A procedure for the isolation and purification of plasmid DNA from Rhizobium meliloti

A procedure is described for the isolation and purification of the DNA of plasmids that are indigenous to the agriculturally important nitrogen-fixing bacterium Rhizobium meliloti. The procedure involves the lysis of bacteria with an ionic detergent or a mixture of ionic and nonionic detergents, the extraction of total DNA from precipitated membrane-DNA complexes, the enrichment of supercoiled plasmid DNA by the selective alkaline denaturation of chromosomal DNA, and a further purification of plasmid DNA using cesium chloridepropidium diiodide gradients. This procedure yields pure plasmid DNA in amounts of 30 to 50 μg per liter of a culture of cell density of approximately one A550 unit. The DNA thus obtained has been found to be of sufficient purity to serve as substrate for the most commonly used restriction endonucleases.     

On Further Study of Extracellular Accumulation of DNA by Hydrocarbon-utilizing Pseudomonas Species

Extracellular accumulation of high molecular weight DNA was further studied using Pseudomonas species. More efficient production was obtained by the use of glucose-grown seed culture and by controlling the broth-pH at around 6.0 for first 24 hr and then around 8.0 during the fermentation. The maximum yield was 5 to 6 g per liter of the broth culture, which corresponded to 10-fold of that reported in the previous work.

Purified DNA (4 × 10⁶ daltons) was obtained successfully by applying an aqueous biphase system of dextran-polyethyleneglycol and dextranase.

Significant release of DNA occurred only with cell lysis of H-paraffin-grown bacteria. The primary cause of rapid lysis was explained by the exhaustion of cellular glucose pool. Relation of DNA accumulation to the effect of rhamnolipids on cell membrane was also investigated.