Intracellular changes of trehalose content in toluene tolerant Pseudomonas sp. BCNU 171 after exposure to toluene

Pseudomonas sp. BCNU 171, when grown with 10% (v/v) toluene for 2 h, accumulated approximately 7.7 mM trehalose probably arising by the action of trehalose-6-phosphate synthase (E.C. 2.4.1.15). Trehalose may thus play a significant role in the tolerance of the Pseudomonas sp. to toluene.     

Degradation of trehalose by rhizobia and characteristics of a trehalose-degrading enzyme isolated from Rhizobium species NGR234

AIMS: This study was designed to examine the breakdown of trehalose by rhizobia and to characterize the trehalose-degrading enzyme isolated from Rhizobium sp. NGR234. METHODS AND RESULTS: Rhizobium sp. NGR234, Rhizobium fredii USDA257, R. phaseoli RCR3622, R. tropici CIAT899 and R. etli CE3 showed good growth in the presence of carbohydrate. Validamycin A did not prevent the growth of NGR234 on trehalose. The expression of a trehalose-degrading enzyme by NGR234 was intracellular and inducible by trehalose. The isolated enzyme digested other disaccharides, p-nitrophenyl-alpha-d-glucopyranoside and the substrate. The enzyme showed optimum activities at pH 7.0 and 30 degrees C. Its pI was 4.75 and the V(max) of the enzyme occurred at 35.7 micromol s(-1) mg(-1) protein with the K(m) of 23 mmol when trehalose was hydrolysed. CONCLUSIONS: An enzyme capable of breaking down trehalose was produced. Some of the properties of the trehalose-degrading enzyme are similar to those isolated from other organisms but, this enzyme was validamycin resistant. These rhizobia like other trehalose-degrading microbes use trehalose by enzymatic catabolic action. SIGNIFICANCE AND IMPACT OF THE STUDY: Trehalose which accumulates during legume-rhizobia symbiosis is toxic to plants. Detoxification by trehalose-degrading enzymes is important for the progress of symbiosis.     

Isolation and characterization of BTEX tolerant and degrading Pseudomonas putida BCNU 106

Bacterial strains growing in river sediments were screened to identify an organic solvent-tolerant strain of Pseudomonas. Using this screen, Pseudomonas sp. BCNU 106 was isolated on the basis of its ability to grow on benzene, toluene, ethylbenzene, and three xylene isomers, o-, m- and p-xylene, as its sole carbon source. BCNU 106 was identified as a gram-negative, rod-shaped aerobic and mesophilic bacterium, which grew in liquid media containing high concentrations of organic solvents. 16S rDNA analysis classified BCNU 106 as a new member of the genus Pseudomonas. BCNU 106 was distinguishable from other Pseudomonas strains that are tolerant to organic solvents in that the isolate had the ability to utilize all three xylene isomers as well as benzene, toluene and ethylbenzene. The unique properties of the isolate such as solvent-tolerance and the ability to degrade xylene isomers may have important implications for the efficient treatment of solvent wastes.     

Intracellular accumulation of trehalose and glycogen in an extreme oligotroph,Rhodococcus erythropolis N9T-4

An extreme oligotroph, Rhodococcus erythropolis N9T-4, showed intracellular accumulation of trehalose and glycogen under oligotrophic conditions. No trehalose accumulation was observed in cells grown on the rich medium. Deletion of the polyphosphate kinase genes enhanced the trehalose accumulation and decreases the intracellular glycogen contents, suggesting an oligotrophic relationship between among the metabolic pathways of trehalose, glycogen, and inorganic polyphosphate biosyntheses.     

Effect of intracellular trehalose in Cryptococcus laurentii and exogenous lyoprotectants on its viability and biocontrol efficacy on Penicillium expansum in apple fruit

AIMS: To improve viability and biocontrol efficacy of Cryptococcus laurentii after freeze drying and in subsequent storage. METHODS AND RESULTS: Viability of C. laurentii was improved after freeze drying and in subsequent storage at 4 or 25 degrees C by using skimmed milk (SM) and sugars (glucose, galactose, sucrose and trehalose) as protectants. Sugars and SM mixed together showed better protection than when they were used separately. Citric acid used as carbon source could induce accumulation of intracellular trehalose in the yeast. The yeast cells with high trehalose level (HT cells) had higher viability than those with low trehalose level (LT cells) after freeze drying and storage for 90 days. After storage for 90 days at 4 degrees C, the HT cells plus SM and sugars as protectant showed a similar biocontrol effect against blue mould rot in apple fruit caused by Penicillium expansum as fresh cells. CONCLUSIONS: Increasing intracellular trehalose content of C. laurentii and adding exogenous protectant (sugars + SM) could improve its viability and maintain its biocontrol efficacy. SIGNIFICANCE AND IMPACT OF THE STUDY: The results have a potential value for commercial application of C. laurentii.     

Induction of toluene oxidation activity in Pseudomonas mendocina KR1 and Pseudomonas sp. strain ENVPC5 by chlorinated solvents and alkanes.

Toluene oxidation activity in Pseudomonas mendocina KR1 and Pseudomonas sp. strain ENVPC5 was induced by trichloroethylene (TCE), and induction was followed by the degradation of TCE. Higher levels of toluene oxidation activity were achieved in the presence of a supplemental growth substrate such as glutamate, with levels of activity of up to 86% of that observed with toluene-induced cells. Activity in P. mendocina KR1 was also induced by cis-1,2-dichloroethylene, perchloroethylene, chloroethane, hexane, pentane, and octane, but not by trans-1,2-dichloroethylene. Toluene oxidation was not induced by TCE in Burkholderia (Pseudomonas) cepacia G4, P. putida F1, Pseudomonas sp. strain ENV110, or Pseudomonas sp. strain ENV113.     

Detection of genes for alkane and naphthalene catabolism in Rhodococcus sp. strain 1BN

Rhodococcus sp. 1BN was isolated from a contaminated site and showed various biodegradative capabilities. Besides naphthalene, strain 1BN degraded medium- (C6) and long-chain alkanes (C16-C28), benzene and toluene, alone or when the hydrocarbons were mixed in equal proportions. The nucleotide sequence of an alk polymerase chain reaction (PCR) fragment revealed a 59% nucleotide homology to the Pseudomonas oleovorans alkB gene. The nar fragments were highly homologous to genes coding for large and small subunits of cis-naphthalene 1,2-dioxygenase (narAa and narAb) and to cis-naphthalene dihydrodiol dehydrogenase (narB) from other rhodococci. The oxidation of indene to cis-(1S,2R)-1,2-dihydroxyindan by toluene-induced cells allows to hypothesize that strain 1BN also carries a toluene dioxygenase-like system.     

Factors affecting the survival of Bradyrhizobium applied in liquid cultures to soya bean [Glycine max (L.) Merr.] seeds

AIMS: To determine the impact of medium composition, bacterial strain, trehalose accumulation, and relative humidity during seed storage on the survival of Bradyrhizobium japonicum on soya bean [Glycine max (L.) Merr.] seeds. METHODS AND RESULTS: Bacteria in liquid cultures were applied to seeds, and the number of survivors was quantified after 2, 24, 48, or 96 h. Addition of yeast extract to a defined medium increased on-seed survival 50- to 80-fold. Addition of 40 mmol l(-1) of NaCl to the medium doubled or tripled the accumulation of trehalose in cells and increased survival several fold, and the addition of both salt and trehalose had an additive effect. There was a threefold difference among strains in survival, and survival of the various strains was significantly correlated with differences in the accumulation of trehalose. The correlation between trehalose accumulation by bacteria and survival was also highly significant in other experiments. Studies in controlled humidity environments showed 100-fold or more differences in survival. CONCLUSIONS: The consistently significant correlation of trehalose content of cells with survival on seed suggests that trehalose is an important component of the survival mechanisms. When some of the factors (salt and trehalose in the medium plus humidity control) were studied in combination, several 100-fold increases in survival of bacteria on seeds were recorded. SIGNIFICANCE AND IMPACT OF THE STUDY: It is possible by manipulation of several parameters--strain selection, salt and trehalose content of the medium, control of relative humidity--to achieve substantial improvements in survival of Bradyrhizobium on soya bean seeds.     

Effects of trehalose on stress tolerance and biocontrol efficacy of Cryptococcus laurentii

AIMS: To investigate the effects of internal trehalose on viability and biocontrol efficacy of antagonistic yeast Cryptococcus laurentii under stresses of low temperature (LT), controlled atmosphere (CA) and freeze drying. METHODS AND RESULTS: The content of trehalose in C. laurentii was increased by culturing the yeast in trehalose-containing medium. Compared with yeast cells with low trehalose level, the yeast cells with high level of internal trehalose not only obtained higher viability, but also showed higher population and better biocontrol efficacy against Penicillium expansum on apple fruit both at 1 degrees C and in CA condition (5% O(2), 5% CO(2), 1 degrees C). After freeze drying, survival of the yeast with high trehalose level was markedly increased when stored at 25 degrees C for 0, 15 and 30 days. Meanwhile, high integrity of plasma membrane was detected in the freeze-dried yeast with high trehalose level by propidium iodide staining. CONCLUSIONS: Induced accumulation of internal trehalose could improve viability and biocontrol efficacy of C. laurentii under stresses of LT and CA. Moreover, survival of the yeast was also increased as internal trehalose accumulation after freeze drying, and one of the reasons might be that trehalose gave an effective protection to plasma membrane. SIGNIFICANCE AND IMPACT OF THE STUDY: The results of this experiment show a promising way to improve the biocontrol performance of antagonistic yeasts under the commercial conditions.     

A Toluene-tolerant Mutant of Pseudomonas aeruginosa Lacking the Outer Membrane Protein F

The outer membrane protein profiles of a toluene-tolerant mutant, Pseudomonas aeruginosa, strain PAK103, were compared with those of its parent strain PAO1161. Protein F (OprF), the most abundant outer membrane protein in the parental strain PAO1161, was missing in the toluene-tolerant strain PAK103. The absence of OprF may lead to the loss of toluene diffusion across in the outer membrane of the mutant cells     

大肠杆菌海藻糖合成酶基因的克隆和表达

利用Ｍｕ转座子细胞内克隆了大肠杆菌海藻糖合成酶 ｏｔｓＢＡ基因,克隆频率为１．４５ ｘ １０(－３)／ Ｋａｎ(ｒ)转导子。经遗传互补、酶切和部分序列分析表明ｏｔｓＢＡ基因位于克隆质粒。亚克隆 ２．８７ｋｂ ＤＮＡ片段至不同拷贝数表达质粒并分别转化大肠杆菌ｏｔｓＢＡ基因缺失株,转化株恢复 在０．５ｍｏｌ／Ｌ ＮａＣｌ培养基上生长的功能,高渗透压诱导实验表明,转化株能够合成克隆基因 产物海藻糖,但合成量不受克隆质粒拷贝数影响。海藻糖良好的抗高渗能力可能在农作物育 种方面发挥重要作用。为构建含有海藻糖合成酶基因的植物表达载体,并在农杆菌的介导下 转入植物,赋予其抗高渗、耐干旱能力奠定了重要的研究基础。     

克鲁氏假丝酵母在高渗环境中海藻糖和胞内甘油积累的研究

Brown[1]在1976年提出了相容溶质(Compatible solutes)的概念,尽管有关它们功能的确切机制尚不是非常清楚,但是通常它们被认为是具有渗透调节作用和对细胞中生物活性物质具保护功能的物质.海藻糖和甘油在这方面所表现出的特殊功能已被国内外广泛关注[2].Brown[3]和Crowe[4]还分别报道了甘油和海藻糖在保护胞内可溶性酶和细胞膜稳定性方面的功能.Crowe[5]在研究几种不同碳水化合物对动物肌细胞的保护功能时发现,海藻糖和甘油都在不同程度上表现出这种特性.关于酵母细胞在加盐培养基中的生长代谢情况Kuniho Nakata[6]和Sukesh [7]分别进行了报道,发现酵母细胞内有海藻糖的积累,并且海藻糖的量与细胞对外界不利环境的耐受性有密切关系.     

Impact of heterologous expression of Escherichia coli UDP-glucose pyrophosphorylase on trehalose and glycogen synthesis in Corynebacterium glutamicum

Trehalose is a disaccharide with a wide range of applications in the food industry. We recently proposed a strategy for trehalose production based on improved strains of the gram-positive bacterium Corynebacterium glutamicum. This microorganism synthesizes trehalose through two major pathways, OtsBA and TreYZ, by using UDP-glucose and ADP-glucose, respectively, as the glucosyl donors. In this paper we describe improvement of the UDP-glucose supply through heterologous expression in C. glutamicum of the UDP-glucose pyrophosphorylase gene from Escherichia coli, either expressed alone or coexpressed with the E. coli ots genes (galU otsBA synthetic operon). The impact of such expression on trehalose accumulation and excretion, glycogen accumulation, and the growth pattern of new recombinant strains is described. Expression of the galU otsBA synthetic operon resulted in a sixfold increase in the accumulated and excreted trehalose relative to that in a wild-type strain. Surprisingly, single expression of galU also resulted in an increase in the accumulated trehalose. This increase in trehalose synthesis was abolished upon deletion of the TreYZ pathway. These results proved that UDP-glucose has an important role not only in the OtsBA pathway but also in the TreYZ pathway.     

Isolation and characterization of a novel organic solvent-tolerant Anoxybacillus sp. PGDY12, a thermophilic Gram-positive bacterium

Aims: To isolate and characterize new bacteria capable of tolerating high concentrations of organic solvents at high temperature. Methods and Results: A solvent‐tolerant, thermophilic bacterium was isolated from hot spring samples at 55°C. The strain PGDY12 was characterized as a Gram‐positive bacterium. It was able to tolerate 100% solvents, such as toluene, benzene and p‐xylene on plate overlay and high concentrations of these solvents in liquid cultures. A comparison of growth showed that 0·2% (v/v) benzene and 0·15% (v/v) p‐xylene were capable of enhancing the final cell yields. Transmission electron micrographs showed the incrassation of electron‐transparent intracellular material and the distorted cytoplasm in case of the cells grown in toluene. A phylogenetic analysis based on 16S rRNA sequence data indicated that the strain PGDY12 was member of the genus Anoxybacillus. Conclusions: The thermophilic, Gram‐positive Anoxybacillus sp. PGDY12 exhibited a unique and remarkable ability to tolerate solvents at 55°C. Significance and Impact of the Study: The solvent tolerance properties are less known in thermophilic bacteria. The Anoxybacillus sp. PGDY12 is the first strictly thermophilic bacterium able to tolerate a broad range of solvents. This strain is a promising candidate for use as a high temperature biocatalyst in the biotechnological applications.     

Overexpression of outer membrane protein OprT and increase of membrane permeability in <Emphasis Type="Italic">phoU</Emphasis> mutant of toluene-tolerant bacterium <Emphasis Type="Italic">Pseudomonas putida</Emphasis> GM730

Eight toluene-sensitive mutants were previously isolated from the toluene-tolerant bacterium Pseudomonas putida GM730. One of these mutants was TOS6, in which Tn5 had been inserted into phoU. Susceptibility to multiple antibiotics, as well as toluene sensitivity, was increased in the phoU mutant of P. putida GM730. We compared the outer membrane proteins from the phoU mutant and wild-type via two-dimensional gel electrophoresis. A 45 kDa protein was dramatically overexpressed as the result of phoU inactivation, and this protein was identified by peptide mass fingerprinting and microsequencing as a conserved hypothetical protein consisting of 414 amino acids. The protein, designated as OprT, harbors a signal sequence and extended β-sheets, both of which are features common to the bacterial porins. The rate of ethidium bromide accumulation in TOS6 was higher than in GM730, which indicates that the TOS6 membranes may be more permeable to ethidium bromide than are the membranes of GM730. We propose that the toluene sensitivity and increased antibiotic susceptibility observed in the phoU mutant may be attributable to increased membrane permeability.     

Induction of an Increase in Nerve Growth Factor Content in the Cell-conditioned Medium of Mouse L-M Cells by Basic Peptides

Thermostable trehalose synthase, which catalyzes the conversion of maltose into trehalose by intramolecular transglucosylation, was purified from a cell-free extract of the thermophilic bacterium Thermus aquaticus ATCC 33923 to an electrophoretically homogeneity by successive column chromatographies. The purified enzyme had a molecular weight of 105,000 by SDS-polyacrylamide gel electrophoresis and a pI of 4.6 by gel isoelectrofocusing. The N-terminal amino acid of the enzyme was methionine. The optimum pH and temperature were pH 6.5 and 65°C, respectively. The enzyme was stable from pH 5.5 to 9.5 and up to 80°C for 60min. The trehalose synthase from Thermus aquaticus is more thermoactive and thermostable than that from Pimelobacter sp. R48. The yield of trehalose from maltose by the enzyme was independent of the substrate concentration, and tended to increase at lower temperatures. The maximum yield of trehalose from maltose by the enzyme reached 80–82% at 30–40°C. The activity was inhibited by Cu²⁺ , Hg²⁺, Zn²⁺, and Tris.     

Stability of toluene oxidation by Pseudomonas putida under nutrient deprivation

Toluene-induced cells of Pseudomonas putida NCIMB 11767 lost their ability to oxidise toluene within 300 h under conditions of carbon/energy or nitrogen deprivation at 30°C, while incubation at 4°C improved the stability of this activity. Provision of inducing substrates (toluene or phenol) to nitrogen-deprived cells at 30°C also enhanced the stability of toluene oxidation, whereas provision of a non-inducing carbon/energy source (ethanol) led to a total loss of toluene oxidation within 160 h. Disappearance of toluene-induced proteins, at different rates accompanied the loss of toluene oxidation in carbon-deprived cells. The data suggest that degradation of one or more of the major proteins of toluene metabolism determines the stability of toluene oxidation in carbon-deprived cells. Around 40% of the whole-cell toluene oxidation rate was recoverable after cryopreservation (–20°C under glycerol) of toluene-induced cells but most of this recovered activity (86%) was associated with dead cells. These observations may have important implications for the application of these toluene-induced cells as in situ bioremediation catalysts.     

Isolation of new toluene-tolerant marine strains of bacteria and characterization of their solvent-tolerance properties

Aims:  To isolate and characterize new marine bacteria capable of tolerating high concentrations of organic solvents, and to understand the toxic effects of these chemicals on marine bacteria. Methods and Results:  Five marine bacteria able to tolerate 0·1% (v/v) toluene were isolated and characterized on the basis of their growth and survival rates in the presence of different organic solvents. The toluene-tolerant marine bacteria identified in this study could not grow in the presence of 0·1% (v/v) of several organic solvents with a log P_ow higher than that of the toluene (which in theory should be less toxic than toluene). The mechanisms underlying solvent tolerance were explored. Conclusions:  Isolates of four different genera were identified as toluene-tolerant. Toxicity of a second phase of an organic solvent toward these isolates could not be predicted on the basis of the solvents’ log P_ow. Significance and Impact of the Study:  To improve the biodegradation rate of some water-insoluble compounds, double-phase bioreactors can be used. This type of bioreactor will require strains able to grow in a salt-containing environment and able to tolerate a second phase of an organic solvent.     

Trehalose, a cytoplasmic reserve disaccharide of Cellulomonas sp. DSM20108: Its identification, carbon-source-dependent accumulation, and degradation during starvation

Abstract During growth on complete medium, as well as on mineral salts medium with different carbon sources, Cellulomonas sp. synthesized trehalose (α- d -glucopyranosyl-α- d -glucopyranoside). This non-reducing disaccharide was accumulated intracellularly. Its specific concentration (up to 3 μmol per mg crude extract protein) reached a maximum during cultivation and was shown to be dependent on the carbon source used. During starvation at 30°C, trehalose was degraded in vivo at an average initial specific rate of about 0.5 μmol per mg crude extract protein per day. To our knowledge this is the first time that trehalose has been reported to be an energy storage compound in a prokaryotic microorganism.