Growth and Metabolism of Lactic Acid Bacteria during and after Malolactic Fermentation of Wines at Different pH

A new medium, called novobiocin-brilliant green-glucose (NBG) agar, was developed for the isolation of Salmonella spp. and evaluated against other conventionally used media including bismuth sulfite, xylose-lysine decarboxylase, brilliant green-sulfa, hektoen enteric, and salmonella-shigella agars. NBG had recovery rates comparable to the other enteric media tested with pure cultures as well as with naturally contaminated amphibian and reptile waters and fecal specimens. However, NBG, hektoen enteric, and salmonella-shigella agars failed to differentiate Salmonella typhi from a fecal specimen even after enrichment in selenite F. Although Citrobacter freundii could grow and resembled salmonellae on NBG, at no time was the recovery of Salmonella spp. colonies jeopardized by the presence of C. freundii in either seeded or naturally contaminated samples. Confirmation rates of typical colonies from NBG agar also compared favorably to the other media tested; however, bismuth sulfite, although selective, was found to have varied differential characteristics for Salmonella spp. As a result, many more colonies had to be picked, which caused bismuth sulfite agar to have the lowest confirmation rate of the media tested. The distinct advantage that NBG agar offers over the conventional method tested, including bismuth sulfite, is the consistent differential reaction of all Salmonella subgroups including biochemically atypical strains. The medium is inexpensive, easy to prepare, and can be stored for at least 2 weeks at 4 degrees C without loss of selective or differential properties.     

Growth and Metabolism of Lactic Acid Bacteria during and after Malolactic Fermentation of Wines at Different pH

A new medium, called novobiocin-brilliant green-glucose (NBG) agar, was developed for the isolation of Salmonella spp. and evaluated against other conventionally used media including bismuth sulfite, xylose-lysine decarboxylase, brilliant green-sulfa, hektoen enteric, and salmonella-shigella agars. NBG had recovery rates comparable to the other enteric media tested with pure cultures as well as with naturally contaminated amphibian and reptile waters and fecal specimens. However, NBG, hektoen enteric, and salmonella-shigella agars failed to differentiate Salmonella typhi from a fecal specimen even after enrichment in selenite F. Although Citrobacter freundii could grow and resembled salmonellae on NBG, at no time was the recovery of Salmonella spp. colonies jeopardized by the presence of C. freundii in either seeded or naturally contaminated samples. Confirmation rates of typical colonies from NBG agar also compared favorably to the other media tested; however, bismuth sulfite, although selective, was found to have varied differential characteristics for Salmonella spp. As a result, many more colonies had to be picked, which caused bismuth sulfite agar to have the lowest confirmation rate of the media tested. The distinct advantage that NBG agar offers over the conventional method tested, including bismuth sulfite, is the consistent differential reaction of all Salmonella subgroups including biochemically atypical strains. The medium is inexpensive, easy to prepare, and can be stored for at least 2 weeks at 4 degrees C without loss of selective or differential properties.     

Influence of diluents, media, and membrane filters on detection fo injured waterborne coliform bacteria.

Pure cultures of Escherichia coli, Klebsiella pneumoniae, Enterobacter aerogenes, and Citrobacter freundii were injured ( greater than 90%) in water from a dead-end section of the Bozeman, Montana, distribution system. The effects of the following laboratory variables on the enumeration efficiency of injured and undamaged control cells were examined: (i) diluent composition, temperature, and time of exposure; (ii) media, using various formulations employed in enumerating gram-negative bacteria; and (iii) surface pore morphology of membrane filters. The addition of peptone or milk solids to diluents and low temperature (4 degrees C) maximized the recovery of injured cells, but had little effect on undamaged cells. Control cells were recovered with high efficiencies on most media tested, but recoveries of injured cells ranged from 0 to near 100%. Most of the media commonly used in water analysis recovered less than 30% of injured cells. This was explained in part by the sensitivity of injured bacteria to deoxycholate concentrations greater than 0.01%, whereas control cells were unaffected by 0.1%. Membrane filter surface pore morphology (at 35 degrees C) had a negligible effect on total coliform recoveries. Recommendations are made regarding procedures to improve the recovery of injured coliforms by routine laboratory practices.     

渗透压对痢疾志贺菌水通道蛋白glpF基因表达的影响

目的探讨细菌水-甘油通道蛋白（GlpF）的生理功能及其对生长繁殖的影响。方法将用简并PCR发现表达水通道蛋白glpF基因的痢疾志贺菌接种于不同渗透压的液体培养基和添加了GlpF功能抑制剂的相应培养基中,培养不同时间后取培养液检测其生长繁殖量,RT-PCR分析其GlpF的表达。结果痢疾志贺菌GlpF的表达随培养基渗透压的改变而变化,在低渗培养基中的表达低于在等渗环境中;在高渗透压的培养基中,其表达显著高于在等渗培养基中。在加入Hg2＋抑制剂抑制GlpF的表达后,在低渗培养基中,未明显影响细菌的生长繁殖,但在较高渗透压的培养基中,细菌的繁殖量显著少于在未加Hg2＋抑制剂的同样渗透压培养基中。结论在非等渗环境中,细菌GlpF的表达对细菌细胞内外水分的调节,维持胞内环境稳定起到重要作用,尤其在高渗透压环境中更为明显。     

EFFECT OF NITROGEN,SULFUR AND OTHER FACTORS ON ZOOSPORE PRODUCTION BY PROTOSIPHON BOTRYOIDES

O'Kelley , J. C., and T. R. Deason . (U. Alabama, University.) Effect of nitrogen, sulfur and other factors on zoospore production by Protosiphon botryoides. Amer. Jour. Bot. 49(7): 771–777. Illus. 1962.—Nutrient-medium pH, osmotic pressure, staling products, and mineral depletion were studied in relation to zoospore production by Protosiphon botryoides in liquid media. In an intermediate range (pH 5.1–7.7), pH has little or no influence specifically on zoospore production. Although distilled water is an unsuitable medium for zoospore production, if a balanced nutrient medium is supplied, osmotic pressure is without pronounced influence over a wide range. Staling products in old cultures exert a minor inhibitory effect. Deficiencies of nitrate, sulfate, or calcium in liquid media can decrease drastically zoospore production or release, and nitrate or calcium depletion appears to be mainly responsible for loss of the capacity of Protosiphon to produce and release zoospores in aged liquid cultures.     

Viability of Escherichia coli after combined osmotic and thermal treatment: a plasma membrane implication

This study investigates the influence of temperature (T) and osmotic pressure (Pi) on the viability of Escherichia coli K12 during an osmotic treatment. Osmotic shock (dehydration and rehydration within 1 s) in liquid media at different temperatures (4, 10, 30 and 37 degrees C) and different levels of osmotic pressure (26, 30, 35, 40, 82 and 133 MPa) were realized.Results show that a sudden dehydration, below 40 MPa, destroyed up to 80% of the bacterial population for each tested temperature, whereas viability was greater than 90% for an osmotic pressure less than 26 MPa. The influence of T and Pi on the membrane's physical structure is finally considered to explain the results in light of FTIR and electron microscopy study of the influence of temperature and osmotic pressure on E. coli membrane phospholipids conformation.     

A comparison of solid and liquid media for resuscitation of starvation- and low-temperature-induced nonculturable cells of Aeromonas hydrophila

Like many other gram-negative bacteria, starved cells of Aeromonas hydrophila can be induced into a viable but nonculturable (VBNC) state by incubation at low temperature, as shown here by using various bacterial enumeration methods. Starved A. hydrophila strain HR7 cells at 4 degrees C reached the nonculturable stage in about 45 days. The cells were resuscitated by either a solid medium resuscitation method, using solid agar amended with H2O2-degrading agents, catalase or sodium pyruvate, or a liquid medium resuscitation method, by incubating nonculturable cells in liquid media containing these compounds before spreading onto plates. The liquid medium resuscitation method using catalase resulted in nearly complete recovery of nonculturable cells.     

The effect of media tonicity on Escherichia coli resistance to heating with different gradient

The influence of NaCl water solutions and glycerine hypertonic concentration on the survival of bacteria Escherichia coli B/r heated with different values of heat drop was investigated. It was shown that the transfer of cell suspensions from isotonic conditions to media with raised osmotic pressure, preliminarily heated up to 60 degrees C, and the following heating at this temperature inhibited differences in cell sensitivity to heating at different heat drop. Unlike, it was found that the transfer of cell suspensions from isotonic conditions to hypertonic media before and after heating at 60 degrees C increased differences in resistance of these microorganisms to heating at different heat drop. It is proposed that different resistance of bacteria to damaging action of hyperthermia at different heat drop, and a modified influence of hypertonic solutions on these differences may be due to heat induced destabilization of cell osmotic homeostasis. The extent of expression of this destabilization may be determined by a quantitative ratio of osmotic pressure values in the cell-suspension medium system in particular temperature and tonic environmental conditions.     

Spin label studies on osmotically-induced changes in the aqueous cytoplasm of Phaeodactylum tricornutum

The effects of hyperosmotic stress and adaption on the aqueous cytoplasm of Phaeodactylum tricornutum have been studied with spin labels using 0.2M external Ni2+ to obtain spectra solely from labels within the cells. From partitioning of the TEMPO spin label between the internal aqueous phase and the membrane it is found that the internal volume of the cells decreased by approx. 50-60% in media of high osmotic strength (1.9 osmol/l). During the accumulation of proline in the cells (8.8 mg/ml packed cells) on incubation in the medium of high osmolarity for 3 days, the recovery of the volume was 80%. Further addition of proline to the medium resulted in an increase in the proline concentration in the cells (12.2 mg/ml packed cells) and a recovery in volume of 90%. Cells incubated in the absence of any nitrogen source showed very little recovery and were in a stressed state even in the absence of an osmotic gradient. From the rotational correlation times of the TEMPONE spin label it was found that the effective microviscosity in the cytoplasm of normal cells (approx. 3-8 cP) was considerably higher than that of the external medium (1 cP) and increased 1.5-2-fold under high osmotic stress (1.9 osmol/l). Adaption during the accumulation of proline only decreased the effective microviscosity by approx. 50% of the stressed-induced increase, a considerably smaller recovery than that of the cell volume.     

水稻原生质体培养及植株再生的研究

由粳稻77-170品系及籼稻品种IR-50的细胞悬浮培养物游离的原生质体,用琼脂糖包埋于RY-2培养基中,发生了持续分裂。前者植板率达2.5％以上,二者最后都再生出植株。对游离和培养方法做了如下改进:1)采用两步法,即先用果胶酶,再用果胶酶和纤维素酶的混合酶进行游离,可避免原生质体发生融合并获得高质量的原生质体;2)悬浮细胞培养基中加入ABA有利于原生质体的存活和分裂;3)琼脂糖包埋培养可大大提高植板率;4)用较高渗透压的培养基培养原生质体再生的细胞团及愈伤组织,可提高植株再生频率。由于这两个品种(系)的培养物都已继代一年半之久,再生植株均为白化苗。这是迄今第一个由籼稻原生质体再生植株的报道。     

Spin label studies on osmotically-induced changes in the aqueous cytoplasm of Phaeodactylum tricornutum

The effects of hyperosmotic stress and adaption on the aqueous cytoplasm of Phaeodactylum tricornutum have been studied with spin labels using 0.2 M external Ni²⁺ to obtain spectra solely from labels within the cells. From partitioning of the TEMPO spin label between the internal aqueous phase and the membrane it is found that the internal volume of the cells decreased by approx. 50–60% in media of high osmotic strength (1.9 osmol/l). During the accumulation of proline in the cells (8.8 mg/ml packed cells) on incubation in the medium of high osmolarity for 3 days, the recovery of the volume was 80%. Further addition of proline to the medium resulted in an increase in the proline concentration in the cells (12.2 mg/ml packed cells) and a recovery in volume of 90%. Cells incubated in the absence of any nitrogen source showed very little recovery and were in a stressed state even in the absence of an osmotic gradient. From the rotational correlation times of the TEMPONE spin label it was found that the effective microviscosity in the cytoplasm of normal cells (approx. 3–8 cP) was considerably higher than that of the external medium (1 cP) and increased 1.5–2-fold under high osmotic stress (1.9 osmol/l). Adaption during the accumulation of proline only decreased the effective microviscosity by approx. 50% of the stressed-induced increase, a considerably smaller recovery than that of the cell volume.     

Enzyme activity of the formate hydrogenlyase complex in Citrobacter freundii

Citrobacter freundii 62 can grow in the absence of oxygen in media containing glucose, peptone, fumarate or malate. When the medium contained fumarate or malate, the culture could grow under anaerobic conditions only in the presence of molecular hydrogen, formate or nitrate. The highest activity of formatehydrogenlyase and hydrogenase was found when C. freundii grew in a medium with glucose and formate. The activity was lower in media with other organic substrates, particularly, in the absence of formate or H2. The activity of hydrogenase was very low in cells grown under aerobic conditions or in the presence of nitrates while the activity of formatehydrogenlyase was not found at all for all practical purposes. The activity of formate dehydrogenase assessed in the presence of methylene blue was rather high irrespective of the conditions under which the culture was grown. However, when the activity of formate dehydrogenase was determined in the presence of benzyl viologen, it was high only in cells grown in the medium with glucose and formate.     

Gliding motility of Mycoplasma sp. nov. strain 163K.

The gliding movements of Mycoplasma sp. nov. strain 163K cells were characterized by photomicrographic and microcinematographic studies. The capability of gliding proved to be a very stable property of strain 163K. Cells were continuously moving, without interruption by resting periods, on glass as well as on plastic surfaces covered with liquid medium. Gliding cells always moved in the direction of their headlike structure; their course did not indicate any preference for a certain direction. Under appropriate growth conditions, cells showed linear and circular movements. Under inadequate conditions, cells glided in narrow circles or entered into zigzag trembling and tumbling movements. Organisms glided as single cells, in pairs, and in multicellular configurations. Movement patterns and gliding velocity were significantly affected by the cultivation and preparation time, the medium viscosity, and the storage and observation temperature. The number of passages on artificial media and the composition of the media used did not have a striking influence on gliding motility, but movements were effectively inhibited by homologous antiserum. The data obtained suggest that at least some of the structures associated with gliding are heat sensitive and located on the cell surface, that the gliding mechanism requires an intact energy metabolism, and, finally, that gliding motility is an extremely stable genetic property of Mycoplasma sp. nov. strain 163K.     

利用荧光染色和流式细胞技术辅助卵孢小奥德蘑原生质体制备与再生研究

本研究以卵孢小奥德蘑液体培养菌丝作为实验材料,利用单因子变量法探索研究了菌丝培养时间、酶浓度、酶解时间、酶解温度、稳渗剂类型对卵孢小奥德蘑原生质体制备的影响,并对原生质体再生培养基进行选择和优化。通过荧光染色,利用激光共聚焦显微镜和流式细胞仪对原生质体的制备过程、得率和活力进行研究。结果表明,将卵孢小奥德蘑菌丝在液体培养基中培养5d收集菌丝体,以甘露醇作为渗透压稳定剂,在溶壁酶浓度2%、30℃条件下酶解5h,获得的原生质体得率最高,达2.0×10 ⁷个/mL;通过流式细胞仪分析,约57.69%的原生质体细胞为活细胞;在RM培养基中再生效果最好,再生率为(0.103±0.025)%。研究结果可以为卵孢小奥德蘑育种与食用菌原生质体制备再生提供研究基础。     

Intracellular accumulation of potassium and glutamate specifically enhances survival of Escherichia coli in seawater.

The high resistance of Escherichia coli grown in saline media to seawater was suppressed by an osmotic down-shock. The shock released several molecules into the medium, including potassium, glutamate, and glycine betaine when cells were previously grown in the presence of this osmolyte. Incubation of such sensitized cells in a solution containing K+ (80 mM) and glutamate (50 mM) at pH 7.4 restored their resistance to seawater up to a level close to that observed initially. The protective effect was partly due to the rapid accumulation of K+; a significant exponential relationship between intracellular concentration of K+ and resistance to seawater was observed. Glutamate was accumulated more slowly and progressively completed the action of K+. These data emphasize the specific influence of potassium glutamate on osmotically stressed E. coli cells. They confirm that regulation of osmotic pressure and, probably, of intracellular pH strongly enhances survival of E. coli in seawater. Osmotic fluctuations in waters carrying enteric bacteria from intestines to seawater, together with variations in their K+ and amino acid contents, could modify the ability of cells to survive in marine environments. These results demonstrate the need to strictly control conditions (K+ content, temperature) used to wash cells before their transfer to seawater microcosms. They suggest that the K+ and glutamate contents of media in which E. coli cells are transported to the sea can influence their subsequent survival in marine environments.     

Intracellular accumulation of potassium and glutamate specifically enhances survival of Escherichia coli in seawater.

The high resistance of Escherichia coli grown in saline media to seawater was suppressed by an osmotic down-shock. The shock released several molecules into the medium, including potassium, glutamate, and glycine betaine when cells were previously grown in the presence of this osmolyte. Incubation of such sensitized cells in a solution containing K+ (80 mM) and glutamate (50 mM) at pH 7.4 restored their resistance to seawater up to a level close to that observed initially. The protective effect was partly due to the rapid accumulation of K+; a significant exponential relationship between intracellular concentration of K+ and resistance to seawater was observed. Glutamate was accumulated more slowly and progressively completed the action of K+. These data emphasize the specific influence of potassium glutamate on osmotically stressed E. coli cells. They confirm that regulation of osmotic pressure and, probably, of intracellular pH strongly enhances survival of E. coli in seawater. Osmotic fluctuations in waters carrying enteric bacteria from intestines to seawater, together with variations in their K+ and amino acid contents, could modify the ability of cells to survive in marine environments. These results demonstrate the need to strictly control conditions (K+ content, temperature) used to wash cells before their transfer to seawater microcosms. They suggest that the K+ and glutamate contents of media in which E. coli cells are transported to the sea can influence their subsequent survival in marine environments.     

Effect of temperature on siderophore production by Candida albicans

The purpose of this study was to examine the effect of elevated temperature on growth and siderophore production by Candida albicans. The results showed that an increase in incubation temperature from 37 degrees C to 41 degrees C produced a marked decrease in both the rate and quantity of siderophore production. Elevated temperature was unable to suppress growth of C. albicans in either a control culture medium or a deferrated culture medium. A significant suppression of growth compared to the controls was observed in the deferrated media at both 37 degrees C and 41 degrees C. However with time, the growth of cells in the deferrated media showed partial recovery which was followed by an increase in siderophore production. Thus, elevation of temperature to suppress growth and siderophore production by C. albicans appears to be an ineffective host defense mechanism.     

Selective Recovery of Carbohydrates from Aqueous Solution Facilitated by a Carrier

Carbohydrate recovery is an active area of supramolecular chemistry, motivated by the biological importance of saccharides as well as the unusual challenge presented by these complex substances. The recovery of carbohydrates from aqueous media is a difficult separation problem due to the large, irregular and multivalent structure and the low solubility of carbohydrates in organic solvents. A method for the selective recovery of mono‐ and disaccharides from aqueous media has been developed. The use of different organic solvents like butanol, methyl tertiary‐butyl ether (MTBE), n‐hexane or toluene for liquid‐liquid extraction of carbohydrates was investigated. This extraction process is facilitated by a carrier, i.e., primary amines such as cyclooctylamine. The influence of different parameters (temperature, amine concentration, extraction time) on the efficiency of the extraction was studied. Recovery rates up to 40 % are possible in a one‐stage process. Selectivities range from 1.3 up to 875.4.     

Formation of nonculturable Mycobacterium tuberculosis and their regeneration

Nonculturable cells were found to occur in populations of Mycobacterium tuberculosis cells during the long post-stationary phase. These cells were small (0.6-0.8 micron) ovoid and coccoid forms with intact cell walls and negligible respiratory activity, which allows them to be regarded as dormant cells. Nonculturable cells were characterized by low viability after plating onto solid medium; a minor part of the population of these cells could be cultivated in liquid medium. Cell-free culture liquid of an exponential-phase Mycobacterium tuberculosis culture or the bacterial growth factor Rpf exerted a resuscitating effect, increasing substantially the growth capacity of the nonculturable cells in liquid medium. During resuscitation of nonculturable cells, a transition from ovoid to rodlike cell shape occurred. At early stages of resuscitation, ovoid cells formed small aggregates. The recovery of culturability was associated with the formation of rod-shaped cells in the culture. The data obtained demonstrate the in vitro formation of dormant cells of Mycobacterium tuberculosis, which do not grow on solid media but can be resuscitated in liquid medium under the effect of substance(s) secreted by actively growing cells.     

Osmotic potential of media affecting green plant percentage in wheat anther culture

The percentage of green plants in anther culture is known to be controlled by the genetics of anther donor materials. The objective of this study was to determine whether components in the culture media also would have a significant influence on the percentage of green plants from wheat anther culture. Anthers of a spring wheat cultivar, Pavon 76, were cultured on potato 4 (P4) induction media with various modifications. Addition of 200 g/l ficoll to the liquid P4 medium significantly increased the percentage of green plants even though the final yield of green plants per 100 anthers was lower than the liquid medium. A higher concentration of maltose (135 g/l) produced significantly higher percentage of green plants than the medium containing 90 g/l maltose or sucrose. These results demonstrate culture medium effects on albinism, indicating that the percentage of green plants in wheat anther culture can be increased by optimizing medium osmotic potential.