对硝基苯酚对细菌产生持留菌的影响及其相关机制

【目的】研究对硝基苯酚(PNP)对大肠杆菌和铜绿假单胞菌产生持留菌的影响,并对转录组进行分析,阐明对硝基苯酚影响持留菌形成的相关机制。【方法】采用氧氟沙星抗生素探究对硝基苯酚对细菌产生持留菌的影响,并通过检测细菌自溶情况和呼吸抑制剂羰酰氰氯苯腙(CCCP)对持留菌比例的影响,然后通过转录组分析其相关基因的表达,最后通过实时荧光定量PCR和反义核酸进行相关功能基因的验证。【结果】PNP可以通过抑制大肠杆菌和铜绿假单胞菌的呼吸作用使其产生持留菌的比例增加,PNP不同浓度、作用不同时间和作用不同生长时期的菌体都会影响细菌产生持留菌的比例。PNP和呼吸抑制剂CCCP均能够抑制2个菌体的自溶情况,包括溶解氧含量的变化、蛋白质降解情况、细胞尺寸的变化和RNA完整性。转录组分析和实时荧光定量PCR实验结果表明加入PNP后,cyo A、app C两个基因在大肠杆菌和铜绿假单胞菌中的表达量均显著下降,再通过反义核酸抑制cyo A、app C的表达发现持留菌的比例和原始菌株相比均有所增加。【结论】PNP可以通过抑制细胞呼吸作用来增加细菌产生持留菌的比例。     

Stabilization and functional properties of Escherichia coli penicillin G acylase by covalent conjugation of anionic polysaccharide carboxymethylcellulose

The stabilization of Escherichia coli penicillin G acylase (PGA) conjugated with carboxymethylcellulose (CMC) against temperature and pH was studied. The 2,3-dialdehyde derivative of CMC obtained by periodate oxidation was covalently conjugated to PGA via Schiff's base formation. The inactivation mechanism of both native and CMC-conjugated PGA appeared to obey first order inactivation kinetics during prolonged incubations at 40–60 °C and in the pH range 4–9. Inactivation rate constants of conjugated enzyme were always lower, and half-life times were always higher than that of native PGA. The activation free energy of inactivation (G _i values) of CMC-conjugated enzyme were found to be always higher than that of native PGA at all temperatures and pH values studied as another indicator of enzyme stabilization. Highest stability of CMC-conjugated enzyme was observed as nearly four-fold at 40 °C and pH 8.0. No changes were observed on the temperature and pH profiles of PGA after CMC conjugation. Lower K _m and higher k _cat values of PGA obtained after CMC conjugation indicates the improved effect of conjugation on the substrate affinity and catalytic performance of the enzyme.     

Transposable elements and adaptation of host bacteria

A transposable element (TE) is a mobile sequence present in the genome of an organism. TEs can cause lethal mutations by inserting into essential, genes, promoting deletions or leaving short sequences upon excision. They therefore may be gradually eliminated from mixed populations of haploid micro-organisms such asEscherichia coli if they cannot balance this mutation load. Horizontal transmission between cells is known to occur and promote the transfer of TEs, but at rates often too low to compensate for the burden to their hosts. Therefore, alternative mechanisms should be found by these elements to earn their keep in the cells. Several theories have been suggested to explain their long-term maintenance in prokaryotic genomes, but little molecular evidence has been experimentally obtained. In this paper, the permanence of transposable elements in bacterial populations is discussed in terms of costs or benefits for the element and for the host. It is observed that, in all studies yet reported, the elements do not behave in their host as selfish DNA but as a co-operative component for the evolution of the couple.     

The Electro-Optical Investigation of Suspensions of Escherichia coli K-12 Cells Metabolizing Glucose,Lactose, and Galactose

The electro-optical characteristics of suspensions of Escherichia coli K-12 cells metabolizing glucose, lactose, and galactose were studied by measuring the suspension turbidity as a function of cell alignment in an orienting electric field whose frequency was varied from 10 kHz to 10 MHz. In a frequency range of 10 kHz to 1 MHz, the orientational spectra of E. coli K-12 cells grown on glucose and lactose considerably changed after their incubation in the presence of the sugars. These changes likely reflect alterations in the polarizability of the cells induced by sugar metabolism.     

Cloning, E. coli overexpression, purification and binding properties of TraA and TraC, two proteins involved in the pheromone-dependent conjugation process in enterococci

The bacteriocin encoding plasmid pPD1 from Enterococcus faecalis is involved in a mating response to the sex pheromone cPD1 produced by recipient bacterial cells devoid of pPD1. Previous studies showed that cPD1 is internalized into donor cells in a process in which TraC plays the role of cell surface pheromone receptor. Inside the recipient cells, the pheromone binds to the plasmid-encoded cytoplasmic protein TraA, able to recognize specific DNA sequences and to modulate the conjugation process. To avoid self-induction of the conjugation process, donor cells produce the inhibitor iPD1, which competes with cPD1. This study was designed to produce recombinant TraA and TraC in a functionally active state and to evaluate their main functional properties. We have isolated the sequences encoding TraA and TraC from the plasmid pPD1 and cloned them in suitable expression vectors. The two recombinant proteins were successfully obtained in a soluble form using Escherichia coli as expression host and a T7 inducible expression system. TraC and TraA were purified to homogeneity by three or two chromatographic steps, respectively, leading to a final yield up to 4 mg/l of cell culture for TraC and up to 10 mg/l of cell culture for TraA. The ability of TraA and TraC to bind the specific pheromone and inhibitor peptides has been assessed by means of ESI-mass spectrometry. Moreover, the ability of recombinant TraA to bind DNA has been demonstrated by means of electrophoretic mobility shift assay. Overall these results are consistent with the heterologously expressed TraC and TraA being functionally active.     

Segregation to non-dividing cells in recombinant Escherichia coli fed-batch fermentation processes

In Escherichia coli fermentation processes, a drastic drop in viable cell count as measured by the number of colony forming units per ml (c.f.u. ml^–1) is often observed. This phenomenon was investigated in a process for the production of the recombinant fusion protein, promegapoietin (PMP). After induction, the number of c.f.u. ml^–1 dropped to 10% of its maximum though the biomass concentration continued to increase. Flow cytometric analysis of viability and intracellular concentration of PMP showed that almost all cells were alive and contributed to the production. Thus, the drop in the number of c.f.u. ml^–1 probably reflects a loss of cell division capability rather than cell death.     

Anti-microbial action of melanocortin peptides and identification of a novel X-Pro-D/L-Val sequence in Gram-positive and Gram-negative bacteria

The melanocortin peptides alpha-MSH, Lys-Pro-Val and Lys-Pro-D-Val are known to be potent anti-inflammatory agents; however their role as antibacterial peptides is less clear. The aim of this study was to determine whether these peptides displayed antibacterial properties, and specifically whether the Lys-Pro-D-Val tripeptide was more potent than Lys-Pro-Val, consistent with their anti-inflammatory actions. alpha-MSH, Ac-Lys-Pro-D-Val-NH2 and Ac-Lys-Pro-Val-NH2 were found to be antibacterial against both Gram-positive and Gram-negative bacteria (Staphylococcus aureus and Escherichia coli) over a broad range of concentrations compared to a control peptide, Ac-Ala-Ala-Ala-NH2. However, the relative potency of alpha-MSH, Ac-Lys-Pro-D-Val-NH2, Ac-Lys-Pro-Val-NH2 did not differ. Furthermore, it was found that the cationic charge on the lysine residue was not required for activity as a variant peptide Ac-Ala-Pro-D-Val-NH2 was also antibacterial. We therefore describe a novel X-Pro-D/L-Val peptide sequence with similarity to the short melanocortin peptides, which possess antibacterial activity. The combined anti-inflammatory and antibacterial action of such peptides may also have potential value therapeutically.     

The Escherichia coli cell division proteins FtsY, FtsE and FtsX are inner membrane-associated

Summary The cell division genes ftsY, ftsE and ftsX form an operon mapping at 76 min on the Escherichia coli chromosome. The protein products of these genes have been indentified previously. We have studied the cellular location of the radiolabelled Fts proteins using maxicells and standard fractionation procedures. Previous protein sequence homologies suggested an inner membrane location for FtsE. We have confirmed this predicted location and have shown that FtsY and FtsX are also inner membrane-associated. These results are igreement with the hypothesis that FtsE may act at the inner membrane, in a septalsome complex, by coupling ATP hydrolysis to the process of bacterial cell division.     

Spontaneous zygogenesis (Z-mating) in mecillinam-rounded bacteria

In Escherichia coli the process of spontaneous zygogenesis (Z-mating), i.e. complete genetic mixing in the absence of a conjugative plasmid, was investigated further. Spontaneous-zygogenesis-promoting (Szp⁺) cells displayed strong clustering with each other and with ordinary F⁻ cells in the optimal cell density range for Z-mating. When induced to rounding by the drug mecillinam, they aggregated into large, dense, stainable syncytium-like cells leaving giant ghosts upon lysis. In Z-mating mixtures of mecillinam-treated cells, these giant cells co-purified with mating products as other cells died. Giant cells recovering from mecillinam treatment yielded monstrous, branching forms, whereas non-Szp⁺ coccal cells reverted to rods in one step, and some 29% of the colonies formed were identified as deriving from entities possessing two distinct genomes. Z-mating was examined between E. coli and a distantly related Serratia marcescens strain. In the presence of calcium, mecillinam-rounded cells of a stable non-complementing diploid hybrid with the E. coli phenotype segregated normally dividing cells of the Serratia form.     

E75、R78和D82是影响大肠埃希氏菌FtsZ自身组装及其与MreB相互作用的重要氨基酸

【目的】探索大肠埃希氏菌Escherichia coli FtsZ突变体FtsZ~(E75A)、FtsZ~(R78G)和FtsZ~(D82A)对FtsZ自身组装和FtsZ-MreB相互作用的影响。【方法】利用常规分子克隆和定点突变技术,构建FtsZ及其突变体表达载体,亲和纯化得到相应的目标蛋白;通过同源重组构建QN6(ftsZ::yfp-cat)、QN7(ftsZ~(E75A)::yfp-cat)、QN8(ftsZ~(R78G)::yfp-cat)和QN9(ftsZ~(D82A)::yfp-cat)菌株;利用活细胞成像技术观察FtsZ及其突变体的胞内定位模式;免疫沉淀和细菌双杂交实验检测FtsZ/FtsZ*-FtsZ*或FtsZ/FtsZ*-MreB间的相互作用;光扫描检测定点突变对FtsZ组装特性的影响。【结果】FtsZ~(E75A)、FtsZ~(R78G)和FtsZ~(D82A)突变体的功能活性降低、各突变体在E.coli内不能正确的定位和形成功能性Z环;FtsZ/FtsZ*-FtsZ*单体间的相互作用减弱或消失,FtsZ*-MreB相互作用破坏;FtsZ突变体体外聚合效率降低。【结论】FtsZ E75、R78和D82是影响FtsZ正确组装和功能及FtsZ-MreB相互作用的重要氨基酸。     

Three of four pseudoknots in tmRNA are interchangeable and are substitutable with single-stranded RNAs

A novel translation, trans-translation, is facilitated by a highly structured RNA molecule, tmRNA. This molecule has two structural domains, a tRNA domain and an mRNA domain, the latter including four pseudoknot structures (PK1 to PK4). Here, we show that replacement of each of these pseudoknots, except PK1, in Escherichia coli tmRNA with a single stranded RNA did not seriously affect the functions as an alanine tRNA and as an mRNA. Furthermore, these three pseudoknots were interchangeable with only small losses of the two functions. These findings suggest that neither PK2, PK3 nor PK4 interacts in a functional manner with ribosome during the trans-translation process. Together with an earlier study showing the significance of PK1, it is concluded that among the four pseudoknots, PK1 is the most functional.     

Visualization of pathogenicity regions in bacteria

We show here how pathogenicity islands can be analysed using GenomeAtlases, which is a method for visualising repeats, DNA structural characteristics, and base composition of chromosomes and plasmids. We have applied this method to the E. coliplasmid pO157, and the Y. pestisplasmid pPCP1. In both cases pathogenic genes were shown to differ in A+Tcontent and structural properties. Furthermore, examination of an antibiotic resistance gene cluster from S. typhimuriumshowed that the same was true for genes encoding antibiotic resistance.     

-Amino acid contents of mitochondria and some purple bacteria

The endosymbiont most likely to have given rise to mitochondria is an aerobic bacterium belonging to the α subdivision of the so-called purple bacteria such as Rickettsia, Bradythizobium and Agrobacterium [1 and 2]. Contents of the -enantiomers of serine, alanine, proline, glutamate and aspartate in rat liver whole mitochondria, mitochondrial outer membranes, inner membranes and matrix, soluble proteins and free amino acids were detected. These values for -amino acid content were compared with those in soluble proteins and free amino acids from the purple bacteria Paracoccus denitrificans, Pseudomonas aeruginosa and Escherichia coli, members, respectively of the α, β, and γ subdivisions, to find any similarity between mitochondria and these purple bacteria. A similarity was observed in protein -amino acid contents which were low (<1.5%, D-type/D-type+L-type) both in the membrane and soluble protein fractions from mitochondria and in soluble protein from bacteria. Oddly, substantial amounts of free -serine and free -aspartate (around 2%) were found for the first time in mitochondria. The contents of -serine and -aspartate were higher than those of -alanine, -proline and -glutamate. In purple bacteria, the concentration of -serine (<2%) was the lowest of the five amino acids examined, and those of -alanine (27–32%) and -glutamate (7–26%) were high. Therefore, no similarity was shown in the free -amino acid content between mitochondria and any of the three purple bacteria.     

Biological projectiles (phage, yeast, bacteria) for genetic transformation of plants

Summary Bacteriophage lambda particles, yeast cells, and bacterial cells were tested as projectiles to deliver marker/reporter genes into plant cells via the biolistic process. When phage particles were complexed to tungsten or gold particles and used to bombard tobacco cells, fewer than 15 cell clusters per plate transiently expressed β-glucuronidase (GUS). Cells of wildtype Saccharomyces cerevisiae were too large to be effective projectiles, but use of a reduced-size mutant resulted in a small number of transformants. Escherichia coli cells complexed with tungsten were the most effective projectile for plant transformation. Various methods to prepare E. coli were tested to reduce particle size, improve binding of bacteria to metal particles, and/or minimize particle clumping. In maize, the number of transformants was highest when bacteria/tungsten particles were air-dried onto macrocarriers from an aqueous solution. When maize cells were bombarded with bacteria/tungsten projectiles, rates of transient gene expression (2000 per plate) and stable transformation (50 per plate) were only two- to threefold lower than when purified DNA was used. Transformation of tobacco with E. coli projectiles was improved when the bacteria were treated with a series of ethanol and ether washes, then dried into a powder. Nevertheless, tobacco transformation was still 24- (transient) and 200-fold (stable) less than when purified DNA was used. Biological projectiles can be effective for plant transformation and are advantageous because once a DNA construct is made and put into the appropriate microorganism, the need to isolate and purify DNA for the biolistic process is eliminated, which saves time and lessens DNA shear. Such projectiles may be especially well suited where high molecular weight DNA constructs are needed.     

Toxicity and accumulation of thallium in bacteria and yeast

Thallium sulphate inhibited microbial growth, withBacillus megaterium KM, more sensitive to the metal thanSaccharomyces cerevisiae andEscherichia coli. Inhibition ofB. megaterium KM andS. cerevisiae, but not ofE. coli, was alleviated by increasing the potassium concentration of the medium; inhibition of respiration ofS. cerevisiae, but not ofE. coli, was similarly alleviated. Thallium was rapidly bound, presumably to cell surfaces, byS. cerevisiae andE. coli, and was progressively accumulated by energy-dependent transport systems (probably concerned primarily with potassium uptake) with both organisms. Thallium uptake kinetics suggested more than one transport system operated in yeast, possibly reflecting a multiplicity of potassium transport systems. ApparentK _m andK _i values for competitive inhibition of thallium uptake by potassium indicatedS. cerevisiae to have a higher affinity for thallium uptake than for potassium, whileE. coli had a transport system with a higher affinity for potassium than for thallium. The likely systems for thallium transport are discussed. A mutant ofE. coli with tenfold decreased sensitivity to thallium was isolated and apparently effected surface binding of thallium in amounts equivalent to the wild type organism, but showed no subsequent uptake and accumulation of the metal from buffer, even though it was able to accumulate potassium to normal intracellular concentrations during growth. Abbreviations: Metal are referred to by their recognised atomic symbols (e.g. TI = Thallium; K = potassium; Co = cobalt)     

Pathogenic bacteria and TNF do not induce production of macrophage migration inhibitory factor (MIF) by human monocytes

Elevated serum macrophage migration inhibitory factor (MIF) is associated with severe sepsis, but it is not clear whether bacteria stimulate synthesis of MIF by blood leukocytes directly or via induction of TNF. Here we assess production of MIF mRNA and protein by blood leukocytes from healthy human subjects (n = 28) following exposure to bacteria commonly associated with sepsis (Escherichia coli and Streptococcus pneumoniae). Bacteria did not increase levels of MIF mRNA or secreted protein. CD14⁺ monocytes were the main cell type producing MIF before and after stimulation. Exposure of leukocytes to TNF did not induce MIF. Hence elevated levels of serum MIF observed in sepsis may not reflect MIF produced by blood leukocytes stimulated directly by bacteria or TNF.     

The adaptive acid tolerance response in root nodule bacteria and Escherichia coli

Root nodule bacteria and Escherichia coli show an adaptive acid tolerance response when grown under mildly acidic conditions. This is defined in terms of the rate of cell death upon exposure to acid shock at pH 3.0 and expressed in terms of a decimal reduction time, D. The D values varied with the strain and the pH of the culture medium. Early exponential phase cells of three strains of Rhizobium leguminosarum (WU95, 3001 and WSM710) had D values of 1, 6 and 5 min respectively when grown at pH 7.0; and D values of 5, 20 and 12 min respectively when grown at pH 5.0. Exponential phase cells of Rhizobium tropici UMR1899, Bradyrhizobium japonicum USDA110 and peanut Bradyrhizobium sp. NC92 were more tolerant with D values of 31, 35 and 42 min when grown at pH 7.0; and 56, 86 and 68 min when grown at pH 5.0. Cells of E. coli UB1301 in early exponential phase at pH 7.0 had a D value of 16 min, whereas at pH 5.0 it was 76 min. Stationary phase cells of R. leguminosarum and E. coli were more tolerant (D values usually 2 to 5-fold higher) than those in exponential phase. Cells of R. leguminosarum bv. trifolii 3001 or E. coli UB1301 transferred from cultures at pH. 7.0 to medium at pH 5.0 grew immediately and induced the acid tolerance response within one generation. This was prevented by the addition of chloramphenicol. Acidadapted cells of Rhizobium leguminosarum bv. trifolii WU95 and 3001; or E. coli UB1301, M3503 and M3504 were as sensitive to UV light as those grown at neutral pH.     

Identification of two new genes,mukE andmukF, involved in chromosome partitioning inEscherichia coli

We have previously reported that the MukB protein is essential for chromosome partitioning inEscherichia coli and thatmukB mutants produce anucleate cells and are temperature-sensitive for colony formation. ThemukB gene maps at 21 min on theE. coli chromosome andsmtA-mukF-mukE-mukB genes might comprise an operon, which is transcribed in a clockwise direction. Here, we report thatmukF andmukE null mutants are both temperature-sensitive for colony formation and produce anucleate cells even at the permissive temperature. These phenotypes are the same as those observed in themukB null mutant. The primary sequence of MukF includes a leucine zipper structure and an acidic domain. Mutational analysis revealed that both are required for MukF function. When the MukF protein was overproduced in the wild-type strain, anucleate cells were produced. In contrast, overproduction of either MukE or MukB did not cause the defect. In null mutants for themukF, mukE, andmukB genes, the synchronous initiation of chromosome replication was not affected. The mini-F plasmid was as stably maintained in these mutants as in the wild-type strain. These results indicate that the MukF, MukE, and MukB proteins are involved in the chromosome partitioning steps, but are not required for mini-F plasmid partitioning.     

Expression, purification, and characterization of Leishmania donovani trypanothione reductase in Escherichia coli

Trypanothione reductase (TR) is an NADPH-dependent flavoprotein oxidoreductase central to thiol metabolism in all the trypanosomatids including Leishmania. The unique presence of this enzyme in trypanosomatids and absence in mammalian host make this enzyme an attractive target for the development of the antileishmanials. Complete open reading frame encoding trypanothione reductase from Leishmania donovani (Dd8 strain, causative agent of Indian visceral leishmaniasis) was cloned, sequenced, and expressed in Escherichia coli strain BL21 (DE3) as glutathione S-transferase fusion protein. The conditions were developed for overexpression of fusion protein in soluble form and purification of the recombinant protein to homogeneity. The recombinant LdTR was 54.68 kDa in size, dimeric in nature, and reduces oxidized trypanothione to reduced form. The kinetic parameters for trypanothione disulfide are K(m), 50 microM; k(cat), 18,181 min(-1); and k(cat)/K(m), 6.06x10(6) M(-1) s(-1). The yield of recombinant LdTR was approximately 16 mg/L bacterial culture and accounted for 6% of the total soluble proteins. The expressed protein was inhibited by known TR inhibitors as well as by SbIII, the known antileishmanial compound. This is the first report of large-scale production of any leishmanial TR in E. coli.