The kinetics of glycol destruction by a Pseudomonas putida BS-2 strain]

Destruction of ethylene glycol and diethylene glycol by Pseudomonas putida BS-2 culture under conditions of its batch cultivation has been studied for its physiological regularities. The specific rate of the biomass growth in the region of limiting substrate concentrations depends on the diethylene glycol concentration in the medium and follows the Mono equation. A semisaturation constant for diethylene glycol is 209 +/- 17 mg/d. The specific rate of the culture growth is independent of the ethylene glycol concentration in the medium within a wide range from 0.08 to 10 g/l. Kinetics of the bacteria growth inhibition by excess of substrates is a complex character and obeys none of the known models of the substrate inhibition.     

Biodegradation of chlorophenol mixtures by Pseudomonas putida

The dynamic growth behavior of Pseudomonas putida has been studied when resting calls were inoculated into a growth medium containing inhibitory concentrations of mixtures of phenol and monochlorophenols. Resting cells inoculated into single carbon substrate media did not demonstrate enhanced cell lysis by any of the phenol substrates. The apprarent death rate was reduced as the concentrations of phenol or chlorophenols were increased. This behavior was modeled by employing a constant specific death rate (k(d) = 0.0075 h(-1)) and assuming all organic species result in a lag-phase, specific growth rate which may be larger or smaller than k(d).Logarithmic biomass growth on pure monochlorophenols did not occur within 2 weeks after inoculation. Logarithmic growth phases were only observed when the monochlorophenols were cometabolized with phenol. The delay time over which the lag phase exists increased exponentially with phenol concentration and linearly with monochlorophenol concentration. The log growth yield coefficient decreased linearly with monochlorophenol concentration.The lag-phase, specific growth rate was found to decrease exponentially with the concentration of monochlorophenols. This resulted in a 50% lag growth rate inhibition for both 3- and 4-chlorophenol of 9 ppm and for 2-chlorophenol of only 2 ppm. The new, empirical correlations are shown to closely model the complete lag and log growth behavior ot P. putida on phenol and chlorophenol mixtures. (c) 1992 John Wiley & Sons, Inc.     

The Effect of Nacl on Campylobacter Jejuni/Coli

The growth of 2 strains of Campylobacter jejuni/coli was investigated in 0–2.0 % NaCl in Brucella broth at 35° G and 30° C. Both strains tolerated more NaCl in the growth medium at 35° C than at 30° C. 2 % NaCl was bacteriocidic at both temperatures. The strains also grew in the medium without added NaCl. At 35° C, low concentrations of NaCl stimulated the growth of strain 5616, but not the growth of strain B33. At 30° C, strain 5616 grew in NaCl concentrations up to 1.0 % and strain B33 in 0 % and at the control concentration (0.5 % NaCl). The survival of 22 C. jejuni/coli strains in 2.0 % NaCl at 4° C and 35° C was also investigated. Human strains showed significantly greater tolerance to 2.0 % NaCl at both temperatures than did the strains isolated from animals. These findings suggest that the salting of food can be effective in preventing the growth or survival of C. jejuni/coli.     

Effects of sodium chloride on biodegradation of crude oils by two species ofAeromonas

Summary The biodegradation of five weathered crude oils by two species ofAeromonas, (B59-4 and E. BOB) was investigated in varying concentrations of sodium chloride. A minimal salts medium whose NaCl concentration increased serially by 0.5% w/v up to 1.5% w/v was used to investigate the growth of these strains in glucose, and their biodegradation of the crude oils. The latter was also investigated in fresh and aged sea water. Strain B59-4 was more potent than E. BOB in the degradation of all five crude oils and at all four levels of salt concentration tested. The amount of oil degraded by each strain increased initially to a maximum level at 0.5% w/v NaCl, but thereafter decreased with increasing salt concentration, and the patterns were similar to those of aged and fresh sea water, respectively. The Forties and Nigerian crude oils with lower specific gravity, were more readily degraded than the Libyan and Venezuelan with higher specific gravity. The growth of the two strains ofAeromonas in glucose and their biodegradation of crude oils was optimal at 0.5% w/v NaCl, and thereafter decreased with increasing salt concentration of the basal medium.     

Effects of Temperature, pH, and NaCl on Growth and Pectinolytic Activity of Pseudomonas marginalis

The interaction of temperature (4, 10, 18, and 30°C), pH (6, 7, and 8), and NaCl (0, 2.5, and 5%) and their effects on specific growth rate, lag phase, and pectinolytic enzymes of Pseudomonas marginalis were evaluated. Response surface methodology was adapted to describe the response of growth parameters to environmental changes. To obtain good conditions of storage, the combined action of salt and temperature is necessary. At 4°C with an NaCl concentration of 5% and a pH of 7, the lag time was 8 days and no growth was observed at 4°C with 5% NaCl and a pH of 6. In the absence of salt, P. marginalis could grow regardless of temperature and pH. Pectate lyase and pectin lyase were produced by P. marginalis, while pectin methyl esterase activity was not observed in our culture conditions. The enzyme production depended on temperature, pH, and salt concentration but also on the age of the culture. Pectinolytic enzymes were abundantly excreted during the stationary phase, and even at 4°C, after 2 weeks of storage, enzyme activities in supernatant culture were sufficient to damage vegetables. Both bacterial growth and enzymatic production have to be taken into account in order to estimate correctly the shelf life of vegetables.     

Optimisation of Microbial 3-methylcatechol Production as Affected by Culture Conditions

Pseudomonas putida MC2 can be used to produce catechols. The accumulation, specific and volumetric production rates of 3-methylcatechol from toluene have been studied. Production rates were shown to depend on growth medium, pH and toluene concentration. Minimal glucose medium and rich LB medium were the best growth media for 3-methylcatechol production. A lower pH often resulted in slower growth and a higher specific production rate, but a lower volumetric production rate. Specific production rates also increased at higher initial toluene concentrations. The best process conditions in terms of substrate conversion and specific production rate were found in minimal glucose medium at an initial aqueous toluene concentration of 1.0 λmM and an initial pH of 6. At pH 7 and 2.0 λmM toluene, more product was accumulated at a lower specific rate, but at a higher volumetric production rate.     

Optimisation of Microbial 3-methylcatechol Production as Affected by Culture Conditions

Pseudomonas putida MC2 can be used to produce catechols. The accumulation, specific and volumetric production rates of 3-methylcatechol from toluene have been studied. Production rates were shown to depend on growth medium, pH and toluene concentration. Minimal glucose medium and rich LB medium were the best growth media for 3-methylcatechol production. A lower pH often resulted in slower growth and a higher specific production rate, but a lower volumetric production rate. Specific production rates also increased at higher initial toluene concentrations. The best process conditions in terms of substrate conversion and specific production rate were found in minimal glucose medium at an initial aqueous toluene concentration of 1.0 &#117 mM and an initial pH of 6. At pH 7 and 2.0 &#117 mM toluene, more product was accumulated at a lower specific rate, but at a higher volumetric production rate.     

龙珠果茎段离体培养和组培苗耐盐性分析

为建立龙珠果(Passiflora foetida)的快繁再生体系,以实生苗茎段为外植体,研究了植物生长调节剂对丛生芽诱导、壮苗生根的影响,同时对组培苗的耐盐性进行研究.结果表明,MS+6-BA 0.5 mg/L+NAA 0.05 mg/L培养基有利于诱导丛生芽并促进芽的生长;MS+6-BA 3.0 mg/L+NAA ...     

Biotransformation in double-phase systems: physiological responses of Pseudomonas putida DOT-T1E to a double phase made of aliphatic alcohols and biosynthesis of substituted catechols

Pseudomonas putida strain DOT-T1E is highly tolerant to organic solvents, with a logP(ow) (the logarithm of the partition coefficient of a solvent in a two-phase water-octanol system of > or =2.5. Solvent tolerant microorganisms can be exploited to develop double-phase (organic solvent and water) biotransformation systems in which toxic substrates or products are kept in the organic phase. We tested P. putida DOT-T1E tolerance to different aliphatic alcohols with a logP(ow) value between 2 and 4, such as decanol, nonanol, and octanol, which are potentially useful in biotransformations in double-phase systems in which compounds with a logP(ow) around 1.5 are produced. P. putida DOT-T1E responds to aliphatic alcohols as the second phase through cis-to-trans isomerization of unsaturated cis fatty acids and through efflux of these aliphatic alcohols via a series of pumps that also extrude aromatic hydrocarbons. These defense mechanisms allow P. putida DOT-T1E to survive well in the presence of high concentrations of the aliphatic alcohols, and growth with nonanol or decanol occurred at a high rate, whereas in the presence of an octanol double-phase growth was compromised. Our results support that the logP(ow) of aliphatic alcohols correlates with their toxic effects, as octanol (logP(ow) = 2.9) has more negative effects in P. putida cells than 1-nonanol (logP(ow) = 3.4) or 1-decanol (logP(ow) = 4). A P. putida DOT-T1E derivative bearing plasmid pWW0-xylE::Km transforms m-xylene (logP(ow) = 3.2) into 3-methylcatechol (logP(ow) = 1.8). The amount of 3-methylcatechol produced in an aliphatic alcohol/water bioreactor was 10- to 20-fold higher than in an aqueous medium, demonstrating the usefulness of double-phase systems for this particular biotransformation.     

Effect of ammonium ion concentration and osmotic pressure on growth of Ureaplasma urealyticum (T-strain mycoplasma).

The effect of ammonium ion concentration and osmotic pressure on growth of Ureaplasma urealyticum type VIII was determined by using a well-buffered broth medium containing 10 mM urea. The addition of NH4Cl to the medium at concentrations up to 10 mM did not affect growth; however, addition of larger quantities progressively decreased both the specific growth rate (mu) and the maximum yield of the culture, with concentrations of 80 mM completely inhibiting growth. Addition of either 150 mM KCl or NaCl to the medium did not inhibit growth, indicating that the growth-inhibitory effect was specific to NH4+ and was neither a result of increased Cl- concentration nor increased osmotic pressure. Concentrations of NH4Cl as high as 100 mM did not affect growth of either Acholeplasma laidlawii or Mycoplasma hominis. U. urealyticum was more sensitive to osmotic pressure: osmotic pressures of 710 to 780 mosmol/kg (with KCl, NaCl, or sucrose) resulted in both a substantially lower growth rate and a 5- to 10-fold lower peak yield of organisms. Both A laidlawii and M. hominis were less sensitive to increased osmotic pressure.     

毛白杨愈伤组织悬浮细胞耐盐性研究

把生长在全盐含量为 0 .361%的土壤中的毛白杨 ( Populus tomentosa Carr.)愈伤组织悬浮细胞培养在含不同浓度 Na Cl的液体培养基中 ,定期测量各组的细胞密度 ,根据生长曲线研究其耐盐性。结果显示 ,与不加 Na Cl的液体培养基相比 ,生长于含较低浓度 Na Cl( 2 .7‰和 5.5‰ )液体培养基中的细胞生长较好 ,而在含较高浓度 Na Cl( 8.2‰和 10 .9‰ )的液体培养基中 ,细胞生长受到较强抑制。     

耐盐药蒲公英(Taraxacum officinale Weber)愈伤组织筛选及生理生化特性分析

为获得耐1.5% NaCl的药蒲公英(Taraxacum officinale Weber)愈伤组织, 以药蒲公英叶片外植体为材料诱导愈伤组织。以NaCl为选择因子, 从愈伤组织直接筛选。在选择培养基上, 大部分愈伤组织褐化死亡, 个别褐化死亡的愈伤组织周围有少量新的细胞团长出, 将其转接到新鲜的选择培养基上, 每3周继代一次, 经3个月继代筛选获得了耐1.5% NaCl的药蒲公英细胞团。以普通愈伤组织为对照, 发现随着NaCl浓度升高, 耐盐愈伤组织的相对生长率下降但显著高于对照; 且随着盐胁迫处理时间延长持续升高, 而普通愈伤组织对照几乎停止生长, 说明耐盐愈伤组织具有相对稳定的耐盐性。在蛋白水平上, 耐盐愈伤组织与对照愈伤组织差异明显, SDS-PAGE分析显示: 耐盐愈伤组织比对照多出一条34 kD大小的蛋白带, 且30 kD、18 kD左右的蛋白带明显上调。相同处理条件下耐盐愈伤组织脯氨酸的增加幅度高于对照。盐胁迫条件下, 耐盐愈伤组织的超氧化物歧化酶(Super oxidase dimutase, SOD)、过氧化物酶(Peroxidase, POD)和过氧化氢酶(Catalase, CAT)活性明显高于对照,且随着处理时间的延长和盐浓度的增加呈现升高的趋势, 而对照则呈现先升高后下降的趋势。结果说明耐盐愈伤组织一方面通过小分子有机溶质如脯氨酸的方式调节其渗透平衡, 另一方面还可通过提高抗氧化能力降低盐分造成的次级伤害。积累蛋白也可能是耐盐愈伤组织调节渗透平衡的一种方式。通过生理生化分析确定我们获得的耐盐愈伤组织为耐盐变异体。     

Biodesulfurization in biphasic systems containing organic solvents

Biphasic systems can overcome the problem of low productivity in conventional media and have been exploited for biocatalysis. Solvent-tolerant microorganisms are useful in biotransformation with whole cells in biphasic reactions. A solvent-tolerant desulfurizing bacterium, Pseudomonas putida A4, was constructed by introducing the biodesulfurizing gene cluster dszABCD, which was from Rhodococcus erythropolis XP, into the solvent-tolerant strain P. putida Idaho. Biphasic reactions were performed to investigate the desulfurization of various sulfur-containing heterocyclic compounds in the presence of various organic solvents. P. putida A4 had the same substrate range as R. erythropolis XP and could degrade dibenzothiophene at a specific rate of 1.29 mM g (dry weight) of cells(-1) h(-1) for the first 2 h in the presence of 10% (vol/vol) p-xylene. P. putida A4 was also able to degrade dibenzothiophene in the presence of many other organic solvents at a concentration of 10% (vol/vol). This study is a significant step in the exploration of the biotechnological potential of novel biocatalysts for developing an efficient biodesulfurization process in biphasic reaction mixtures containing toxic organic solvents.     

Water stress effects on toluene biodegradation by Pseudomonas putida

We quantified the effects of matric and solute waterpotential on toluene biodegradation by Pseudomonasputida mt-2, a bacterial strain originally isolated fromsoil. Across the matric potential range of 0 to – 1.5 MPa,growth rates were maximal for P. putida at – 0.25MPa and further reductions in the matric potentialresulted in concomitant reductions in growth rates.Growth rates were constant over the solute potential range0 to – 1.0 MPa and lower at – 1.5 MPa. First ordertoluene depletion rate coefficients were highest at0.0 MPa as compared to other matric water potentialsdown to – 1.5 MPa. Solute potentials down to – 1.5 MPadid not affect first order toluene depletion ratecoefficients. Total yield (protein) and carbon utilizationefficiency were not affected by water potential, indicatingthat water potentials common to temperate soils were notsufficiently stressful to change cellular energyrequirements. We conclude that for P. putida: (1)slightly negative matric potentials facilitate faster growthrates on toluene but more negative water potentials resultin slower growth, (2) toluene utilization rate per cell massis highest without matric water stress and is unaffected bysolute potential, (3) growth efficiency did not differ acrossthe range of matric water potentials 0.0 to – 1.5 MPa.     

酿酒酵母3-磷酸甘油脱氢酶的诱导、提纯和性质

在YEPD培养基中添加NaCl,可以诱导酿酒酵母(Saccharomyces cerevisiae)细胞内3-磷酸甘油脱氢酶的形成,当NaCl浓度达5％时,酶比活从0.05U/mg提高0.5U/mg;若再限制培养墓中葡萄糖浓度在100mg/L以下,酶比活可达到0.89U/mg。酶比活与培养基中的NaCl浓度的函数关系式为:Sa=0.129C~3-0.038C~2+0.034C+0.063(0≤C≤5％)。粗酶液经Sephadex G-25凝胶过滤,Blue Sepharose亲和层析以及Mono Q离子交换等步骤,提纯123.6倍,得纯酶液。经SDS-凝胶电泳测得分子量为45000±2000。酶的最适温度为51℃,最适pH值为6.8。保温30分钟的半失活温度(t_(1/2))为41℃。NADH和DHAP的Km(mmol/L)值分别为:0.017和0.134。     

Tracking genetically engineered bacteria: monoclonal antibodies against surface determinants of the soil bacterium Pseudomonas putida 2440.

Assessment of potential risks involved in the release of genetically engineered microorganisms is facilitated by the availability of monoclonal antibodies (MAbs), a tool potentially able to monitor specific organisms. We raised a bank of MAbs against the soil bacterium Pseudomonas putida 2440, which is a host for modified TOL plasmids and other recombinant plasmids. Three MAbs, 7.3B, 7.4D, and 7.5D, were highly specific and recognized only P. putida bacteria. Furthermore, we developed a semiquantitative dot blot assay that allowed us to detect as few as 100 cells per spot. A 40-kDa cell surface protein was the target for MAbs 7.4D and 7.5D. Detection of the cell antigen depended on the bacterial growth phase and culture medium. The O antigen of lipopolysaccharide seems to be the target for MAb 7.3B, and its in vivo detection was independent of the bacterial growth phase and culture medium. MAb 7.3B was used successfully to track P. putida (pWW0) released in unsterile lake mesocosms.     

枯草芽孢杆菌对杨树水泡溃疡病菌菌丝生长的抑制作用

测定了枯草芽孢杆菌BS-2菌株对杨树水泡溃疡病菌菌丝生长的影响,发现BS-2菌株能够抑制病菌菌丝的生长,并导致菌丝形态畸变,表现为菌丝伸长生长受抑制、扭曲、原生质浓缩、局部膨大成球形或椭圆形以及菌丝断裂和菌丝细胞变成空泡等。BS-2发酵液对病菌菌丝生长也有明显的抑制作用,培养时间越长,其培养液的抑菌作用越强;在不同培养基中获得的发酵液对病菌的抑制效果不同。     

The effects of NaCl and CaCl2 on photosynthesis and growth of alfalfa plants

The effects of 0, 30, 60, and 90 mM NaCl, and 0 and 5 mM CaCl2 on certain parameters of photosynthesis and growth in alfalfa (Medicago sativa L. cv. Ghara yonjeh) plants were studied. The increasing NaCl concentration in the Hoagland nutrient solution decreased the contents of chlorophylls and the net photosynthetic rate, and increased the rate of respiration (RD) and CO2 compensation concentration in the leaves of treated plants. The contents of carotenoids (Car) were not significantly affected. The addition of 5 mM CaCl2 enhanced the RD and increased the Car contents in treated leaves. With the NaCl concentration in the culture medium increasing, the dry matter production in both root and shoot decreased, as well as the relative growth rate (RGR), net assimilation rate (NAR), and leaf area ratio (LAR). The addition of CaCl2 caused a partial elimination of the NaCl effects on the root and shoot, RGR and NAR, and it decreased the LAR.