Enhanced lycopene production in Escherichia coli engineered to synthesize isopentenyl diphosphate and dimethylallyl diphosphate from mevalonate

To increase expression of lycopene synthetic genes crtE, crtB, crtI, and ipiHP1, the four exogenous genes were cloned into a high copy pTrc99A vector with a strong trc promoter. Recombinant Escherichia coli harboring pT-LYCm4 produced 17 mg/L of lycopene. The mevalonate lower pathway, composed of mvaK1, mvaK2, mvaD, and idi, was engineered to produce pSSN12Didi for an efficient supply of the lycopene building blocks, isopentenyl diphosphate (IPP) and dimethylallyl diphosphate (DMAPP). Mevalonate was supplied as a substrate for the mevalonate lower pathway. Lycopene production in E. coli harboring pT-LYCm4 and pSSN12Didi with supplementation of 3.3 mM mevalonate was more than threefold greater than bacteria with pT-LYCm4 only. Lycopene production was dependent on mevalonate concentration supplied in the culture. Clump formation was observed as cells accumulated more lycopene. Further clumping was prevented by adding the surfactant Tween 80 0.5% (w/v), which also increased lycopene production and cell growth. When recombinant E. coli harboring pT-LYCm4 and pSSN12Didi was cultivated in 2YT medium containing 2% (w/v) glycerol as a carbon source, 6.6 mM mevalonate for the mevalonate lower pathway, and 0.5% (w/v) Tween 80 to prevent clump formation, lycopene production was 102 mg/L and 22 mg/g dry cell weight, and cell growth had an OD(600) value of 15 for 72 h.     

温度调控大肠杆菌发酵合成L-丙氨酸

正L-丙氨酸是最小的手性分子之一,被用于医药和兽药行业,与其他L-型氨基酸共同用作手术前和手术后的营养剂[1]。由于L-丙氨酸具有甜味,也被用于食品添加剂[2]。目前,L-丙氨酸全球需求年增长率为20%,主要增长地区是亚洲、北美等。然而,L-丙氨酸产量和价格基本被日本垄断和控制。国内企业生产规模小,生产菌种陈旧低效,L-丙氨酸的供应量远低于市场需求量。     

Incidence and survival of non-O157 verocytotoxigenic Escherichia coli in soil

Aims: This study estimated the incidence of non‐O157 verocytotoxigenic Escherichia coli (VTEC) in farm pasture soils and investigated the survival of non‐O157 VTEC in clay and sandy loam soils. Methods and Results: Twenty farms were tested over a 12‐month period by sample enrichment in tryptone soya broth plus vancomycin, followed by PCR screening for the presence of vt1 and vt2 genes. Of the 600 soil samples, 162 (27%), across all farms, were found to contain vt1 and/or vt2 genes. The enrichment cultures from the 162 PCR‐positive samples were plated onto Chromocult tryptone bile X‐glucuronide agar (TBX), presumptive VTEC colonies recovered, confirmed as VTEC by PCR and serotyped. Samples of the two predominant soil types in Ireland (clay and sandy) were homogenized, characterized in terms of pH, boron, cobalt, copper, potassium, magnesium, manganese, phosphorus, zinc and organic matter content, inoculated with washed suspensions of eight non‐O157:H7 soil isolates and six bovine faecal isolates and stored at 10°C for up to 201 days. Inoculum survival rates were determined at regular intervals by recovering and plating soil samples on TBX. All inoculated non‐O157 serotypes had highest D‐values in the sandy loam soil with D‐values ranging from 50·26 to 75·60 days. The corresponding range in clay loam soils was 31·60–48·25 days. Conclusions: This study shows that non‐O157 VTEC occur widely and frequently in pasture soils and can persist in such environments for several months, with considerable opportunity for recycling through farm environments, and cattle, with clear potential for subsequent transmission into the human food chain. Significance and Impact of the Study: This is the first such study of non‐O157 VTEC in farm soils and found that these VTEC are frequent and persistent contaminants in farm soils. In light of recent epidemiological data, non‐O157 VTEC should be seen as an emerging risk to be controlled within the food chain.     

Towards a metabolic engineering strain “commons”: An Escherichia coli platform strain for ethanol production

In the genome‐engineering era, it is increasingly important that researchers have access to a common set of platform strains that can serve as debugged production chassis and the basis for applying new metabolic engineering strategies for modeling and characterizing flux, engineering complex traits, and optimizing overall performance. Here, we describe such a platform strain of E. coli engineered for ethanol production. Starting with a fully characterized host strain (BW25113), we site‐specifically integrated the genes required for homoethanol production under the control of a strong inducible promoter into the genome and deleted the genes encoding four enzymes from competing pathways. This strain is capable of producing >30 g/L of ethanol in minimal media with <2 g/L produced of any fermentative byproduct. Using this platform strain, we tested previously identified ethanol tolerance genes and found that while tolerance was improved under certain conditions, any effect on ethanol production or tolerance was lost when grown under production conditions. Thus, our findings reinforce the need for a metabolic engineering “commons” that could provide a set of platform strains for use in more sophisticated genome‐engineering strategies. Towards this end, we have made this production strain available to the scientific community. Biotechnol. Bioeng. 2013; 110: 1520–1526. © 2013 Wiley Periodicals, Inc.     

Engineering the pentose phosphate pathway to improve hydrogen yield in recombinant Escherichia coli

Among various routes for the biological hydrogen production, the NAD(P)H-dependent pentose phosphate (PP) pathway is the most efficient for the dark fermentation. Few studies, however, have focused on the glucose-6-phosphate 1-dehydrogenase, encoded by zwf, as a key enzyme activating the PP pathway. Although the gluconeogenic activity is essential for activating the PP pathway, it is difficult to enhance the NADPH production by regulating only this activity because the gluconeogenesis is robust and highly sensitive to concentrations of glucose and AMP inside the cell. In this study, the FBPase II (encoded by glpX), a regulation-insensitive enzyme in the gluconeogenic pathway, was activated. Physiological studies of several recombinant, ferredoxin-dependent hydrogenase system-containing Escherichia coli BL21(DE3) strains showed that overexpression of glpX alone could increase the hydrogen yield by 1.48-fold compared to a strain with the ferredoxin-dependent hydrogenase system only; the co-overexpression of glpX with zwf increased the hydrogen yield further to 2.32-fold. These results indicate that activation of the PP pathway by glpX overexpression-enhanced gluconeogenic flux is crucial for the increase of NAD(P)H-dependent hydrogen production in E. coli BL21(DE3).     

Increased phenotypic stability and ethanol tolerance of recombinant Escherichia coli KO11 when immobilized in continuous fluidized bed culture

The recombinant Escherichia coli B strain KO11, containing chromosomally-integrated genes for ethanol production, was developed for use in lignocellulose-to-ethanol bioconversion processes but suffers from instability in continuous culture and a low ethanol tolerance compared to yeast. Here we report the ability cell immobilization to improve its phenotypic stability and ethanol tolerance during continuous culture on a 50 g/L xylose feed. Experiments conducted in a vertical tubular fermentor operated as a liquid-fluidized bed with the cells immobilized on porous glass microspheres were compared to control experiments in the same reactor operated as a chemostat without the support particles. Without cell immobilization the ethanol yield fell sharply following start-up, declining to 60% of theoretical after only 8-9 days of continuous fermentation. While immobilizing the cells did not prevent this decline, it delayed its onset and slowed its rate. With immobilization, a stable high ethanol yield (>85%) was maintained for at least 10 days, thereafter declining slowly, but remaining above 70% even after up to 40 days of fermentation. The ethanol tolerance of E. coli KO11 cells was substantially increased by immobilization on the glass microspheres. In ethanol tolerance tests, immobilized cells released from the microspheres had survival rates 2.3- to 15-fold higher than those of free cells isolated from the same broth. Immobilization is concluded to be an effective means of increasing ethanol tolerance in E. coli KO11. While immobilization was only partially effective in combating its phenotypic instability, further improvements can be expected following optimization of the immobilization conditions.     

The serological response to Verocytotoxigenic Escherichia coli in patients with haemolytic uraemic syndrome

AIMS: To screen sera from 80 patients with clinical haemolytic uraemic syndrome (HUS) and serum antibodies to the lipopolysaccharide (LPS) of Escherichia coli O157, for antibodies to Verocytotoxin-producing Escherichia coli (VTEC) belonging to serogroups O5, O26, O104, O111, O128, O145, O153 and O165. METHODS AND RESULTS: Sera were screened by an LPS-based ELISA and SDS-PAGE/immunoblotting. None of the 80 sera contained antibodies binding to long-chain LPS of any of the LPS types employed; however, nine sera contained antibodies binding to R3 LPS-core epitopes. CONCLUSIONS: The presence of patients' serum antibodies to the LPS of E. coli O157, in the absence of antibodies to the LPS of a range of other VTEC, demonstrated that cases of HUS may be caused by strains of O157 VTEC alone and that concurrent infection with multiple strains of VTEC is not a prerequisite for cases of HUS. SIGNIFICANCE AND IMPACT OF THE STUDY: Antibodies to long-chain LPS of VTEC other than O157 were not detected, and so there was no evidence of infection with VTEC belonging to more than one serogroup. The results of immunoassays such as ELISAs and micro-agglutinations must take into consideration antibodies binding to R3 epitopes located on LPS-core.     

玉溪市大肠埃希菌O157菌株的流行率、表型与毒力因子特征

目的:检测并分析大肠埃希菌O157(Escherichia coli O157)在玉溪市奶牛、猪、鸡和腹泻病人中的带菌率及其特征,为E.coli O157感染症的防治和该菌分离鉴定技术的建立提供科学依据.方法:将玉溪市最大的一个奶牛场、1个猪屠宰场、2个生禽市场和市医院检验科作为监测点,采集牛、猪、鸡、腹泻病人粪便标本数分别为70、250、350和400例,用免疫磁性分离法和免疫色层技术进行E.coli O157菌株的分离培养,纯化菌株经3种鉴别培养基培养以及法国生物梅里埃公司全自动微生物鉴定系统VITEK 32 GNI 或肠杆菌科鉴定系统API 20 E试条、血清学、噬菌体型、亚碲酸盐抗性、聚合酶链反应等检测与分析.结果:牛、猪、鸡、腹泻病人E.coli O157的带菌率分别为1.4%、2.0%、0和1.2%,分离到4株E.coli O157∶H7、6株E.coli O157∶Hund和1株E.coli O157∶HNM,认识了11株E.coli O157的形态学、生物化学、血清学、噬菌体型、亚碲酸盐抗性、毒力因子等特征.结论:单一动物群或人群可同时携带多株E.coli O157,甚至同一个体也会携带2株E.coli O157;E.coli O157菌株间的表型与毒力因子特征存在一定差异,基因指纹技术可确认并证实菌株间的差异性.     

Duplex real-time PCR detection of type III effector tccP and tccP2 genes in pathogenic Escherichia coli and prevalence in raw milk cheeses

Aims: To develop a duplex real‐time PCR assay targeting enterohaemorrhagic Escherichia coli (EHEC) type III effector TccP/TccP2‐encoding genes which are pivotal to EHEC‐mediated actin cytoskeleton reorganization in human intestinal epithelial cells. Methods and Results: The specificity of the assay was demonstrated with DNA from EHEC reference strains and non‐E. coli bacterial species. The detection limit was determined as five tccP or tccP2 copies per reaction. The assay was then evaluated on a large collection of 526 E. coli strains of human, animal, food and environmental origins. The results showed that tccP was restricted to a limited number of serotypes (i.e. O5:H^?, O55:H7, O125:H6 and O157:H7). The tccP2 gene was present in a higher number of serotypes including the five most frequent EHEC serotypes (i.e. O26:H11, O103:H2, O111:H8, O145:H28 and O157:H7), and a few other serotypes that caused human infections (i.e. O4:H^?, O45:H2 and O55:H7). A minority of O26:H11 and O103:H2 strains however tested negative for tccP2, though it is not known whether the lack of tccP2 affected their pathogenic potential. Real‐time PCR analysis of 400 raw milk cheeses revealed the presence of tccP and/or tccP2 genes in 19·75% of the cheese enrichment suspensions. Conclusions: A highly specific and sensitive duplex real‐time PCR method was developed for rapid and simultaneous detection of tccP and tccP2. Unpasteurized dairy products may be contaminated with E. coli strains carrying tccP and/or tccP2. Significance and Impact of the Study: The developed real‐time PCR assay represents a valuable alternative to conventional PCR tests and should be useful for characterization of the virulome of pathogenic E. coli strains.     

High-yield export of a native heterologous protein to the periplasm by the tat translocation pathway in Escherichia coli

Numerous high‐value recombinant proteins that are produced in bacteria are exported to the periplasm as this approach offers relatively easy downstream processing and purification. Most recombinant proteins are exported by the Sec pathway, which transports them across the plasma membrane in an unfolded state. The twin‐arginine translocation (Tat) system operates in parallel with the Sec pathway but transports substrate proteins in a folded state; it therefore has potential to export proteins that are difficult to produce using the Sec pathway. In this study, we have produced a heterologous protein (green fluorescent protein; GFP) in Escherichia coli and have used batch and fed‐batch fermentation systems to test the ability of the newly engineered Tat system to export this protein into the periplasm under industrial‐type production conditions. GFP cannot be exported by the Sec pathway in an active form. We first tested the ability of five different Tat signal peptides to export GFP, and showed that the TorA signal peptide directed most efficient export. Under batch fermentation conditions, it was found that TorA‐GFP was exported efficiently in wild type cells, but a twofold increase in periplasmic GFP was obtained when the TatABC components were co‐expressed. In both cases, periplasmic GFP peaked at about the 12 h point during fermentation but decreased thereafter, suggesting that proteolysis was occurring. Typical yields were 60 mg periplasmic GFP per liter culture. The cells over‐expressed the tat operon throughout the fermentation process and the Tat system was shown to be highly active over a 48 h induction period. Fed‐batch fermentation generated much greater yields: using glycerol feed rates of 0.4, 0.8, and 1.2 mL h^?1, the cultures reached OD₆₀₀ values of 180 and periplasmic GFP levels of 0.4, 0.85, and 1.1 g L^?1 culture, respectively. Most or all of the periplasmic GFP was shown to be active. These export values are in line with those obtained in industrial production processes using Sec‐dependent export approaches. Biotechnol. Bioeng. 2012; 109: 2533–2542. © 2012 Wiley Periodicals, Inc.     

Kinetic characterization in batch and continuous culture of Escherichia coli mutants affected in phosphoenolpyruvate metabolism: differences in acetic acid production

The growth kinetics of an Escherichia coli wild type strain and two derivative mutants were examined in batch cultures and in glucose-limited chemostats. One mutant (PB12) had an inactive phosphotranferase transport system and the other (PB25) had interrupted pykA and pykF genes that code for the two pyruvate kinase isoenzymes. In both batch and continuous culture, important differences in acetic acid accumulation and other metabolic activities were found. Compared to the wild type strain, we observed a reduction in acetic acid accumulation of 25 and 80% in PB25 and PB12 strains respectively, in batch culture. Continuous culture experiments revealed that compared to the other two strains, PB25 accumulated less acetic acid as a function of dilution rate. In continuous cultures, oxidoreductase metabolic activities were substantially affected in the two mutant strains. These changes in turn were reflected in different levels of biomass and CO₂ production, and in oxygen consumption.     

Mixed support for an alignment between phenotypic plasticity and genetic differentiation in damselfly wing shape

The relationship between genetic differentiation and phenotypic plasticity can provide information on whether plasticity generally facilitates or hinders adaptation to environmental change. Here, we studied wing shape variation in a damselfly (Lestes sponsa) across a latitudinal gradient in Europe that differed in time constraints mediated by photoperiod and temperature. We reared damselflies from northern and southern populations in the laboratory using a reciprocal transplant experiment that simulated time-constrained (i.e. northern) and unconstrained (southern) photoperiods and temperatures. After emergence, adult wing shape was analysed using geometric morphometrics. Wings from individuals in the northern and southern populations differed significantly in shape when animals were reared in their respective native environment. Comparing wing shape across environments, we found evidence for phenotypic plasticity in wing shape, and this response differed across populations (i.e. G × E interactions). This interaction was driven by a stronger plastic response by individuals from the northern population and differences in the direction of plastic wing shape changes among populations. The alignment between genetic and plastic responses depended on the specific combination of population and rearing environment. For example, there was an alignment between plasticity and genetic differentiation under time-constrained, but not under non-time-constrained conditions for forewings. We thus find mixed support for the hypothesis that environmental plasticity and genetic population differentiation are aligned. Furthermore, although our laboratory treatments mimicked the natural climatic conditions at northern and southern latitudes, the effects of population differences on wing shape were two to four times stronger than plastic effects. We discuss our results in terms of time constraints and the possibility that natural and sexual selection is acting differently on fore- and hindwings.     

Selection in a fluctuating environment leads to decreased genetic variation and facilitates the evolution of phenotypic plasticity

Changes in the environment are expected to induce changes in the quantitative genetic variation, which influences the ability of a population to adapt to environmental change. Furthermore, environmental changes are not constant in time, but fluctuate. Here, we investigate the effect of rapid, continuous and/or fluctuating temperature changes in the seed beetle Callosobruchus maculatus, using an evolution experiment followed by a split-brood experiment. In line with expectations, individuals responded in a plastic way and had an overall higher potential to respond to selection after a rapid change in the environment. After selection in an environment with increasing temperature, plasticity remained unchanged (or decreased) and environmental variation decreased, especially when fluctuations were added; these results were unexpected. As expected, the genetic variation decreased after fluctuating selection. Our results suggest that fluctuations in the environment have major impact on the response of a population to environmental change; in a highly variable environment with low predictability, a plastic response might not be beneficial and the response is genetically and environmentally canalized resulting in a low potential to respond to selection and low environmental sensitivity. Interestingly, we found greater variation for phenotypic plasticity after selection, suggesting that the potential for plasticity to evolve is facilitated after exposure to environmental fluctuations. Our study highlights that environmental fluctuations should be considered when investigating the response of a population to environmental change.     

Luciferase cDNA from Japanese firefly,Luciola cruciata: Cloning,structure and expression in Escherichia coli

We have cloned the cDNA for luciferase from lantern poly(A)⁺ RNA of a Japanese firefly, Luciola cruciata (Genji botaru in Japanese). This cDNA directed the synthesis of enzymatically active luciferase under the control of the lac promoter in Escherichia coli. The amino acid sequence predicted from the cDNA sequence shows that Genji firefly luciferase consists of 548 amino acids and has a molecular weight of 60,024. Considerable sequence homology was found upon the comparison of the Genji and North American firefly luciferases.     

An integrated metabolic modeling approach to describe the energy efficiency of Escherichia coli fermentations under oxygen-limited conditions: Cellular energetics, carbon flux, and acetate production

An integrated metabolic model for the production of acetate by growing Escherichia coli on glucose under aerobic conditions is presented. The model is based on parameters which are easily determined by experiments. Forming the basis for this integrated metabolic model are the 12 principal precursor metabolites for biosynthetic pathways, the Embden-Meyerhof-Parnas pathway, the pentose phosphate cycle, the tricarboxylic acid cycle and the anapleurotic reactions, the Crabtree effect, the Pasteur effect, and the details of bacterial respiration. The result can be used to explain phenomena often observed in industrial fermentations, i.e., increased acetate production which follows from high glucose uptake rate, a low oxygen concentration, a high specific growth rate, or a combination of these conditions. (c) 1993 John Wiley & Sons, Inc.     

Efficient export of prefolded,disulfide‐bonded recombinant proteins to the periplasm by the Tat pathway in Escherichia coli CyDisCo strains

Numerous high‐value therapeutic proteins are produced in Escherichia coli and exported to the periplasm, as this approach simplifies downstream processing and enables disulfide bond formation. Most recombinant proteins are exported by the Sec pathway, which transports substrates across the plasma membrane in an unfolded state. The Tat system also exports proteins to the periplasm, but transports them in a folded state. This system has attracted interest because of its tendency to transport correctly folded proteins, but this trait renders it unable to export proteins containing disulfide bonds since these are normally acquired only in the periplasm; reduced substrates tend to be recognized as incorrectly folded and rejected. In this study we have used a series of novel strains (termed CyDisCo) which oxidise disulfide bonds in the cytoplasm, and we show that these cells efficiently export a range of disulfide‐containing proteins when a Tat signal peptide is attached. These test proteins include alkaline phosphatase (PhoA), a phytase containing four disulfide bonds (AppA), an antiinterleukin 1β scFv and human growth hormone. No export of PhoA or AppA is observed in wild‐type cells lacking the CyDisCo factors. The PhoA, AppA and scFv proteins were exported in an active form by Tat in the CyDisCo strain, and mass spectrometry showed that the vast majority of the scFv protein was disulfide‐bonded and correctly processed. The evidence indicates that this combination of Tat + CyDisCo offers a novel means of exporting active, correctly folded disulfide bonded proteins to the periplasm. © 2013 American Institute of Chemical Engineers Biotechnol. Prog., 30:281–290, 2014     

AgsA response to cadmium and copper effects at different temperatures in Escherichia coli

Small heat shock proteins (sHsps), present from prokaryotes to eukaryotes, are a highly conserved molecular chaperone family. They play a crucial role in protecting organisms against cellular insults from single or multiple environmental stressors including heavy metal exposure, heat or cold shock, oxidative stress, desiccation, etc. Here, the toxicity of cadmium and copper, and their ability to modify the cellular growth rate at different temperatures in Escherichia coli cells were tested. Also, the response mechanism of the sHSP aggregation‐suppressing protein (AgsA) in such multiple stress conditions was investigated. The results showed that the half effect concentration (EC₅₀) of cadmium in AgsA‐transformed E. coli cells at 37°C, 42°C, and 50°C were 11.106, 29.50, and 4.35 mg/L, respectively, and that of the control cells lacking AgsA were 5.05, 0.93, and 0.18 mg/L, respectively, while the half effect concentration (EC₅₀) of copper in AgsA‐transformed E. coli cells at 37°C, 42°C, and 50°C were 27.3, 3.40, and 1.28 mg/L, respectively, and that of the control cells lacking AgsA were 27.7, 5.93, and 0.134 mg/L, respectively. The toxicities of cadmium and copper at different temperatures as observed by their modification of the cellular growth rate and inhibitory effects were in a dose‐dependent manner. Additionally, biochemical characterization of AgsA protein in cells subjected to cadmium and copper stresses at different temperatures implicated suppressed aggregation of cellular proteins in AgsA‐transformed E. coli cells. Altogether, our data implicate the AgsA protein as a sensitive protein‐based biomarker for metal‐induced toxicity monitoring.     

European starlings (Sturnus vulgaris) challenged with Escherichia coli O157 can carry and transmit the human pathogen to cattle

Aims: European starlings (Sturnus vulgaris) are an invasive species in the United States and are considered a nuisance pest to agriculture. The goal of this study was to determine the potential for these birds to be reservoirs and/or vectors for the human pathogen Escherichia coli O157:H7. Materials and Results: Under biosecurity confinement, starlings were challenged with various doses of E. coli O157:H7 to determine a minimum infectious dose, the magnitude and duration of pathogen shedding, and the potential of pathogen transmission among starlings and between starlings and cattle. Birds transiently excreted E. coli O157:H7 following low‐dose inoculation; however, exposure to greater than 10^5.5 colony‐forming units (CFUs) resulted in shedding for more than 3 days in 50% of the birds. Colonized birds typically excreted greater than 10³ CFU g^?1 of faeces, and the pathogen was detected for as long as 14 days postinoculation. Cohabitating E. coli O157:H7‐positive starlings with culture‐negative birds or 12‐week‐old calves resulted in intra‐ and interspecies pathogen transmission within 24 h. Likewise, E. coli O157:H7 was recovered from previously culture‐negative starlings following 24‐h cohabitation with calves shedding E. coli O157:H7. Conclusions: European starlings may be a suitable reservoir and vector of E. coli O157:H7. Significance and Impact of the Study: Given the duration and magnitude of E. coli O157:H7 shedding by European starlings, European starlings should be considered a public health hazard. Measures aimed at controlling environmental contamination with starling excrement, on the farm and in public venues, may decrease food‐producing animal and human exposure to this pathogen.