Influence of low temperature on productivity, proteome and protein phosphorylation of CHO cells.

Proliferation of mammalian cells can be controlled by low cultivation temperature. However, depending on cell type and expression system, varying effects of a temperature shift on heterologous protein production have been reported. Here, we characterize growth behavior and productivity of the Chinese hamster ovary (CHO) cell line XM111-10 engineered to synthesize the model-product-secreted alkaline phosphatase (SEAP). Shift of cultivation temperature from 37 degrees C to 30 degrees C caused a growth arrest mainly in the G1 phase of the cell cycle concomitant with an up to 1.7-fold increase of specific productivity. A low temperature cultivation provided 3.4 times higher overall product yield compared to a standard cultivation at 37 degrees C. The cellular and molecular mechanisms underlying the effects of low temperature on growth and productivity of mammalian cells are poorly understood. Separation of total protein extracts by two-dimensional gel electrophoresis showed altered expression levels of CHO-K1 proteins after decrease in cultivation temperature to 30 degrees C. These changes in the proteome suggest that mammalian cells respond actively to low temperature by synthesizing specific cold-inducible proteins. In addition, we provide the first evidence that the cold response of mammalian cells includes changes in postranslational protein modifications. Two CHO proteins were found to be phosphorylated at tyrosine residues following downshift of cultivation temperature to 30 degrees C. Elucidating cellular events during cold exposure is necessary for further optimization of host-cell lines and expression systems and can provide new strategies for metabolic engineering.     

Temperature Response and Effect of Ca2+ and Mg2+ on ATPases from Roots of Oats and Wheat as Influenced by Growth Temperature and Nutritional Status

Activation by Ca²⁺, Mg²⁺, Zn²⁺, or Mn²⁺ of adenosine triphosphatases in a microsomal fraction from wheat roots depends upon the growth temperature when the plants are grown under low salt conditions, but not when the plants get a full-strength culture medium. At low ionic strength, cultivation at 25°C gives only half as high activation as cultivation at 18°C or at high ionic strength at both temperatures. Corresponding data for activation of ATPases from oats also show that low ionic strength during growth gives the highest temperature dependence. Low temperature together with low salt conditions during growth gives the highest ATPase activity after stimulation with divalent cations. High growth temperature and full-strength medium decrease the ATPase activity. Activation energies (Ea) were calculated for the two temperature intervals 35–20°C and 20–5°C. The dominating ATPase stimulation (Ca²⁺ in wheat, Mg²⁺ in oats) is characterized by high specific activity combined with a low Ea value. The differences in ATPase activity between oats and wheat can be correlated with different cultivation requirements known from agriculture.     

Pathogenetic significance of the psychrophilia of Yersinia pseudotuberculosis

The work presents the data indicating that the temperature of Y. pseudotuberculosis cultivation is very important in regulating the activity of pathogenicity factors, necessary for the initiation of the pathogenic process in the cells of the macroorganism. Low temperature (8-10 degrees C), necessary for the growth of Y. pseudotuberculosis, facilitates the activation of invasive and toxic pathogenicity factors. At a growth temperature of 37 degrees C the inhibition of such necessary attributes of virulence as adhesion and invasion into epithelial cells occurs in Y. pseudotuberculosis, which decreases the capacity of these bacteria for inducing the infectious process. The virulence of Y. pseudotuberculosis population, lost as the result of its cultivation in synthetic culture media at a temperature of 37 degrees C, has been found to be restored at low temperature.     

Growth limitations and biosynthesis of gramicidin in Bacillus brevis var. G.-B

Gramicidin S biosynthesis was studied in Bacillus brevis var. G.-B. during its batch and continuous cultivation when the culture growth was limited with nutrient sources (glycerol, ammonium nitrogen, phosphate), oxygen deficiency and the action of a physical factor (a low temperature). The antibiotic biosynthesis was shown to be induced by a change in the growth rate caused by the action of any factor decelerating the growth. The authors propose a mathematical model for the antibiotic synthesis, biomass accumulation and the utilization of a substrate limiting the growth. The model is based on the age separation of cells. The model is analyzed in terms of optimizing the one-stage continuous cultivation process. The model allows one to calculate optimal conditions of the antibiotic synthesis in the process of one-stage continuous cultivation.     

Carotenoid accumulation in the psychrotrophic bacterium Arthrobacter agilis in response to thermal and salt stress

A psychrotrophic strain of Arthrobacter agilis, isolated from Antarctic sea ice, grows from 5 degrees C to 40 degrees C and in culture media containing 0-10% (w/v) NaCl. Maximum growth rate occurred at 30-35 degrees C with a drastic decline as the cultivation temperatures diverged. Adaptation to extremes of low temperature may be partially attributed to the production of the C-50 carotenoid bacterioruberin, and its glycosylated derivatives. Lowering of the cultivation temperature resulted in a concomitant increase in carotenoid production, which may contribute to membrane stabilisation at low temperature. Maximum biomass accumulation occurred at 5-30 degrees C with a tenfold reduction at 40 degrees C. Changes in growth rates were minimal in culture media containing 0-2% (w/v) NaCl at 10 degrees C while a gradual decrease in growth rates occurred at higher salinity. Biomass accumulation at different salinity followed a trend similar to that observed with different cultivation temperatures. Maximum biomass accumulation was observed in culture media containing 0-5% (w/v) NaCl with a tenfold reduction at 10% (w/v) NaCl. Carotenoid production also decreased as salinity increased.     

ABA对毛白杨抗冻性影响的研究

采用正交试验的方法设计了以ABA水溶液对毛白杨枝条进行水培的处理条件,并让每个处理接受两种低温条件,用电导法测定其伤害程度,得出冰冻1h和3h条件下的最佳水培条件为：ABA浓度30umol／L,无光照条件下水培2h。分别研究了脱落酸浓度、水培时间、水培光照条件对植物抗冻性的影响。     

Effect of cultivation conditions on the adhesive activity of Rhodococcus cells towards n-Hexadecane

The effect of cultivation conditions (the composition, acidity, and salinity of the cultivation medium; temperature; and the hydrodynamic conditions of cultivation) on the adhesion of actinobacteria of the genus Rhodococcus to n-hexadecane has been investigated. A study performed showed that the adhesive activity of rhodococci depends on the composition of the cultivation medium and on the cultivation temperature. The possible mechanisms underlying the effect of growth conditions on the adhesion of rhodococci to liquid hydrocarbons and involving changes in the cell lipid content or the zeta potential of cells are addressed. Rhodococcal strains displaying high adhesive activity (80–90%) at a low temperature (18°C), high salinity (5.0% NaCl), and acidity (pH 6.0) of the cultivation medium have been selected as a result of the present work; these strains have a considerable potential for use in bioremediation of soil and water contaminated by hydrocarbons.     

恒温和变温培养对羊肚菌菌丝生长及菌核形成影响的比较研究

为了探究恒温和变温培养对羊肚菌菌丝生长和菌核形成的影响,设置-9℃-30℃的7个恒温处理,3个变温处理,通过观察和记录在两种不同培养方式下菌丝的长势、生长速度、菌落干重、产核时间、菌核数量等内容,从而比较出恒温和变温培养对羊肚菌菌丝生长和菌核形成的影响效果。结果表明,在恒温条件下羊肚菌菌丝生长和菌核发育比变温好,20℃最适宜菌丝生长,菌丝生长速度较快,菌落干重最大;25℃最适宜菌核生长发育,产核最早。菌核数量最多。     

肺形侧耳‘杭秀2号’的选育

肺形侧耳‘杭秀2号’以‘台秀57’菌株为亲本采用多孢自交育种技术选育而成。该品种菌丝生长适温26-28℃,子实体生长发育适温22-28℃。菌盖扇形,深灰色,菌盖大小平均为4.38cm×3.65cm;菌柄圆柱形,白色,直径平均为1.06cm。鲜菇蛋白质含量2.94%,氨基酸总量2.54%。示范栽培表明,‘杭秀2号’平均生物学效率为71.2%。低温刺激后,经5-6d可完成一茬菇采收。该品种具有出菇整齐、商品性好等优良性状,适于设施栽培。     

Growth and lipid accumulation properties of a freshwater microalga Scenedesmus sp. under different cultivation temperature

Microalgal lipid is a promising feedstock for biodiesel production. Effect of cultivation temperature on the growth and lipid accumulation properties of a freshwater microalga Scenedesmus sp. LX1 was studied. Scenedesmus sp. LX1 could grow in a wide range of temperature (10～30°C), and the growth activation energy was 49.3 kJ·mol(-1). The optimal temperature to produce microalgal biomass and lipid was 20°C, and after 15 days of batch cultivation the productivities of 313.3 g biomass·(g P)(-1), 112 g lipid (g P)(-1) and 14.7 g TAGs·(g P)(-1) were obtained. The content of polyunsaturated fatty acids decreased with the increase of cultivation temperature. The reactive oxygen species (ROS) levels at 10°C and 20°C were higher than that under higher temperature. For the first time the cultivation temperature, ROS level, specific growth rate and lipid content per microalgal biomass were correlated together.     

Effects of growth phase and oxygen supply on the cytochrome composition and morphology ofArthrobacter crystallopoietes

Cytochromed concentration inArthrobacter crystallopoietes can be induced or inhibited by varying the oxygen content of the cultivation medium. Its synthesis is stimulated at a low oxygen concentration, as is usually present in the stationary growth phase, where spheres exclusively occur. The rod-sphere transition is dependent not only on the oxygen supply but also on other factors influencing the growth rate, such as nutrients and temperature. At a high growth rate, rods are formed, and at a low growth rate, spheres are formed. Under oxygencontrolled conditions, spheres can be induced both in the presence or absence of cytochromed.     

Directed biosynthesis of proteolytic enzymes in Actinomyces thermovulgaris]

The biosynthesis of proteolytic enzymes in the thermophilic culture of Actinomyces thermovulgaris, strain T-54, was directed by changing the composition of the medium and the temperature of cultivation. A temperature of 40 degrees C is optimal for the growth and production of neutral and alkaline proteases. The maximum activity of acid proteases was found during the growth on a complex medium at 30 degrees C. An increase of temperature to 50 degrees C during the cultivation of the microorganism on a chemically defined medium resulted in its secondary growth and a sharp rise in the activity of alkaline and neutral proteases.     

Reduced temperature sensitivity of immobilized Nitrobacter agilis cells caused by diffusion limitation

A dynamic model describing substrate consumption and growth of immobilized biomass was extended to predict and study the effect of variations in temperature. This was done by including temperature relations for all the individual parameters that are influenced by temperature.

A sensitivity analysis was executed to identify the parameters that determine the temperature sensitivity of the overall process in the different cultivation phases. The model was evaluated by cultivating immobilized Nitrobacter agilis cells in an airlift loop reactor at various temperatures between 6–30°C. The dynamics of the system were studied by imposing temperature changes during the cultivation. The model describes the effect of low temperatures on the macroscopic consumption rate fairly well. As predicted, immobilized cells are less sensitive to temperature changes than suspended cells. The macroscopic consumption rate of immobilized N. agilis cells at 10°C is around 70% of the macroscopic consumption rate at 30°C while in the case of suspended cells, this consumption rate is only 15%.     

Influence of cultivation conditions on spatial structure and functional activity of OmpF-like porin from outer membrane of <Emphasis Type="Italic">Yersinia pseudotuberculosis</Emphasis>

The influence of cultivation conditions of pseudotuberculosis bacteria on the spatial structure and the functional activity of nonspecific OmpF-like porin was studied by means of optical spectroscopy, scanning microcalorimetry, and bilayer lipid membrane technique. With this goal, porin samples isolated from microbial masses grown at different temperatures, nutrient medium densities, and growth phases were characterized. According to CD data, the porin samples under investigation represent beta-sheet proteins. It was found that the protein isolated from the colonial culture of pseudotuberculosis bacteria grown at low temperature has the most compact structure. Using intrinsic protein fluorescence, it was shown that different conditions of pseudotuberculosis bacteria cultivation (temperature, medium, growth phase) led to the changes in spectral properties of porin fluorescence due to the redistribution of the contributions of tyrosine and different classes of tryptophan residues to the total protein emission. Heat inactivation of porin samples was studied using CD spectroscopy, intrinsic protein fluorescence, and scanning microcalorimetry. Spatial features of the porin samples were found to affect their functional activities. Considering all these data, it is possible to correlate the spatial structure and functional activity of porin samples isolated under different cultivation conditions of bacteria and the composition of the outer membrane lipid matrix.     

Effect of the commercial extract of the brown alga Ascophyllum nodosum Mont. on Kappaphycus alvarezii (Doty) Doty ex P.C. Silva in situ submitted to lethal temperatures

Kappaphycus alvarezii is being introduced in several countries and in some of them there is a need to adapt this cultivation to periods with lethal temperatures, such as the 16–18 °C that occurs in the winter in southern Brazil. Moreover, there is the need to maintain the seedlings during this lethal temperature period. Considering the promising results obtained with the commercial powder extract of Ascophyllum nodosum (Acadian marine plant extract powder—AMPEP) treatment in the cultivation of K. alvarezii in vitro and in the sea allowing more resistance to epiphytes and increasing the growth rate and carrageenan yield, it was hypothesized that seedlings previously subjected to an AMPEP treatment could be more resilient to lethal temperatures. The daily growth rate and carrageenan yield and gel quality (gel strength and gel viscosity) of K. alvarezii in vitro previously treated with AMPEP were analyzed under temperature stress. The daily growth rates and the gel strengths of the AMPEP-treated samples were increased. In spite of the lower carrageenan yield and lower gel viscosity, the values were within the ones accepted by the carrageenan industry. Thus, the treatment of the seedlings of the K. alvarezii with AMPEP solution can be used as an alternative to lower temperature effects on crops as a preventive action for the cultivation of the seedlings in tanks and in the sea in periods of low temperatures at sea.     

Effect of cultivation temperature on nucleic acid level in bacteria Listeria monocytogenes and Yersinia pseudotuberculosis

The relationship between the multiplication of bacteria, the content of nucleic acid and the specific rate of their growth during their batch cultivation in nutrient broth and mineral medium at temperatures of 37 degrees C and 4-6 degrees C was studied in the causative agents of saprozoonotic infections with L. monocytogenes and Y. pseudotuberculosis used as typical representatives of such bacteria. The content of DNA was shown to remain practically unchanged after the alteration of cultivation temperature and the conditions of nutrition. The linear relationship between the content of RNA and specific growth rate was registered both at 37 degrees C and 4-6 degrees C. However a higher content of RNA at low temperatures was found to correspond to one and the same specific growth rate, which was linked with the additional synthesis of this nucleic acid.     

Bioconversion of starch processing waste to Phellinus linteus mycelium in solid-state cultivation

The objective of the experiment was to use starch processing waste as an alternative growth medium for cultivation of mycelia of the mushroom Phellinus linteus and to find an optimum condition under solid-state cultivation. Response surface analysis along with a central composite design was successfully applied to approximate the simultaneous effects of the substrate concentration (16-36 g l(-1)), pH (4.5-6.5), and temperature (25-35 degrees C) on the mycelial growth rate. In the model, pH and temperature significantly affected the mycelial growth but substrate concentration did not. The optimal substrate concentration, pH, and temperature for maximizing growth rate of P. linteus mycelia were found to be 16.5 g l(-1), pH 6.0, and 29.7 degrees C, respectively. Subsequent verification of these levels agreed with model predictions and the maximum mycelial growth rate at these conditions was 6.1 +/- 0.8 mm day(-1). Therefore, the results of the experiments suggest that starch processing waste could be utilized as a growth substrate for the cultivation of the mushroom mycelia of P. linteus, enhancing the usefulness of this byproduct of the starch manufacturing industry. This approach is likely to be useful for establishing similar parameters for the cultivation of other fungi.     

Effect of cultivation conditions on the age structure of a yeast population

The work was aimed at studying the effect exerted by mineral components of the medium and a carbon source limiting the growth of Candida boidinii and Saccharomyces cerevisiae as well as by the dilution rate in the course of chemostat cultivation and by the temperature of growth on the age structure of a population, i.e. on the proportion of cells at different phases of the cell cycle. Nitrogen, phosphorus and magnesium deficiency delayed the growth of cells in the G1 phase and, if the growth rate was low, at the end of budding. The rise of the growth rate increased the proportion of budding cells. A temperature drop below 23 degrees C delayed the separation of the daughter and mother cells.     

温度对梯棱羊肚菌抗氧化酶活及其基因表达的影响

大田栽培条件下,环境温度无法精确调控,温度胁迫是影响羊肚菌生长发育的重要因素。抗氧化酶和抗氧化活性物质是羊肚菌抵御逆境胁迫的重要因子。温度胁迫下,羊肚菌菌丝会通过增加相应酶活性来减少活性氧的积累,降低对细胞的损伤。作者研究了不同温度对梯棱羊肚菌菌丝生长、抗氧化酶（超氧化物歧化酶SOD、过氧化氢酶CAT、谷胱甘肽还原酶GR、谷胱甘肽过氧化物酶GPX）活性及其基因表达和抗氧化活性物质的影响,结果显示：在5-25℃的温度区间内,随着温度的增加,菌丝生长速度加快,菌丝的老化速度也加快;对抗氧化酶活性研究发现,SOD、GPX和GR在低温下活性更高,CAT在高温下活性更高;抗氧化活性物质含量会随温度升高而增加,如还原型抗坏血酸（AsA）和还原型谷胱甘肽（GSH）;温度越高,羊肚菌菌丝中H₂O₂、O^2-和丙二醛含量也随之增加。因此,在温度胁迫下,羊肚菌通过启动不同的抗氧化酶和抗氧化活性物质来减少活性氧含量,缓解菌丝损伤,本研究为探讨温度对羊肚菌种质质量的影响和栽培条件优化提供了基础数据支撑。     

Combined effects of seawater temperature and nutrient condition on growth and survival of juvenile sporophytes of the kelp Undaria pinnatifida (Laminariales; Phaeophyta) cultivated in northern Honshu, Japan

Recently, withering of farmed juvenile sporophytes of the kelp Undaria pinnatifida (Harvey) Suringar has led to reduced production of this species in northern Japan, possibly because of the high water temperature and low nutrient concentration in cultivation areas. This problem may be solved by introducing parental plants with greater tolerance to high temperature and low nutrient conditions. We examined the combined effects of various temperatures (15, 20, 24, and 27 °C) and nutrient availabilities (seawater enriched with 25 % PESI medium and non-enriched seawater) on the growth and survival of cultivated juvenile sporophytes (1–2 cm) collected from Matsushima Bay, Miyagi Prefecture in northern Japan and Naruto, Tokushima Prefecture in southern Japan. The relative growth rates of juvenile sporophytes from both locations were significantly greater at 15 and 20 °C than at 24 and 27 °C. The juvenile sporophytes cultured in enriched medium had significantly higher relative growth rates than those cultivated in non-enriched seawater. Dead juveniles were observed in non-enriched seawater at all temperatures and the survival percentage decreased with increasing seawater temperatures. Compared to the juvenile sporophytes from Matsushima Bay, those from Naruto showed greater tolerance to high temperature even under the low nutrient condition. These results suggest that the withering of juvenile sporophytes is caused by the combined effects of low nutrient availability and high temperature. A potential solution to this problem is to introduce ecotypes with greater tolerance to high temperature and low nutrient conditions from a warmer region of Japan.