A 570-kb DNA Sequence of the Escherichia coli K-12 Genome Corresponding to the 28.0-40.1 min Region on the Linkage Map

The 569,750 base pair sequence corresponding to the 28.0–40.1min region on the genetic map of Escherichia coli K-12 (W3110)was determined. This region includes the replication terminusregion and contained at least 549 potential open reading frames.Among them, 160 (29%) were previously reported, 174 (32%) werehomologous to other known genes, 102 (18%) were identical orsimilar to hypothetical genes registered in databases, and theremaining 113 (21%) did not show a significant similarity toany other gene. Of interest was the finding of a large numberof genes and gene clusters in andnear the replication terminationregion which had been thought to be genetically silent. Thoseincludeda cluster of genes for fatty acid ß-oxidation,the third copy of the pot (spermidine/putrescine transport system)gene cluster, the second dpp (dipeptide transport system) operon,the second dsm (anaerobic dimethyl sulfoxide reductase) operon,a cluster of fim (fimbrial) genes anda DNA helicase-like genewith a high molecular weight. In addition, we found the dnaC-and dnaT-like genes in the cryptic prophage, Rac, anda numberof genes originated probably from plasmids.     

A 718-kb DNA Sequence of the Escherichia coli K-12 Genome Corresponding to the 12.7-28.0 min Region on the Linkage Map

The 718,122 base pair (bp) sequence of the Escherichia coliK-12 genome corresponding to the region from 12.7 to 28.0 minuteson the genetic map is described. This region contains at least682 potential open reading frames, of which 278 (41%) have beenpreviously identified, 147 (22%) were homologous to other knowngenes, 138 (20%) are identical or similar to the hypotheticalgenes registered in databases, and the remaining 119 (17%) didnot show a significant similarity to any other gene. In thisregion, we assigned a cluster of cit genes encoding multienzymecitrate lyase, two clusters of fimbrial genes and a set of lysogenicphage genes encoding integrase, excisionase and repressor inthe e14 genetic element. In addition, a new valine tRNA gene,designated valZ, and a family of long directly repeated sequences,LDR-A, -B and -C, were found.     

Construction of a Contiguous 874-kb Sequence of the Escherichia coli-K12 Genome Corresponding to 50.0-68.8 min on the Linkage Map and Analysis of Its Sequence Features

The contiguous 874.423 base pair sequence corresponding to the50.0–68.8 min region on the genetic map of the Escherichiacoli K-12 (W3110) was constructed by the determination of DNAsequences in the 50.0–57.9 min region (360 kb) and twolarge (100 kb in all) and five short gaps in the 57.9–68.8min region whose sequences had been registered in the DNA databases.We analyzed its sequence features and found that this regioncontained at least 894 potential open reading frames (ORFs),of which 346 (38.7%) were previously reported, 158 (17.7%) werehomologous to other known genes, 232 (26.0%) were identicalor similar to hypothetical genes registered in databases, andthe remaining 158 (17.7%) showed no significant similarity toany other genes. A homology search of the ORFs also identifiedseveral new gene clusters. Those include two clusters of fimbrialgenes, a gene cluster of three genes encoding homologues ofthe human long chain fatty acid degradation enzyme complex inthe mitochondrial membrane, a cluster of at least nine genesinvolved in the utilization of ethanolamine, a cluster of thesecondary set of 11 hyc genes participating in the formate hydrogenlyasereaction and a cluster of five genes coding for the homologuesof degradation enzymes for aromatic hydrocarbons in Pseudomonasputida. We also noted a variety of novel genes, including twoORFs, which were homologous to the putative genes encoding xanthinedehydrogenase in the fly and a protein responsible for axonalguidance and outgrowth of the rat, mouse and nematode. An isoleucinetRNA gene, designated ileY , was also newly identified at 60.0min.     

A Simple Method for Multiple Modification of the Escherichia coli K-12 Chromosome

We developed a simple method of generating markerless deletions in the Escherichia coli chromosome. The method consists of two recombination events stimulated by λ Red recombinase. The first recombination replaced a target region with a marker cassette and the second then eliminated the marker cassette. The marker cassette included an antibiotic resistant gene and a negative selection marker (Bacillus subtilis sacB). Since sacB makes E. coli sensitive to sucrose, a markerless deletion strain was successfully selected using its sucrose-resistant phenotype. To stimulate these recombination events, 1-kbp homologous sequences adjacent to the target region were connected to both ends of the marker cassette or connected to each other by PCR. The average efficiency of the recombinations was 24% and 93% respectively. Eliminating the marker cassette with a fragment including an additional sequence, insertion was also possible. This markerless deletion method should be useful in creating a highly modified E. coli chromosome.     

An alternate method of calculating the heat of growth of Escherichia coli K-12 on succinic acid

The DeltaH(f) (0) unit weight of a complex substance such as a biological macromolecule is almost always obtained by means of combustion analysis. In theory, this can also be done by summing the DeltaH(f) (0) values for the monomers comprising the macromolecule plus the enthalpic energies involved in their polymerization. The enthalpy of formation of one unit-carbon formula weight of dried Escherichia coli K-12 cells was determined by summing the values of the enthalpies of formation of the quantities of monomers in the major classes of macromolecules substances comprising the cellular biomass and the enthalpic energies involved in their polymerizations. To this value was added the enthalpy of formation of the cellular ions in their aqueous standard states, per unit-carbon formula weight of cellular substance and the enthalpy change with respect to the ionization of the protein amino acid side chains. If it is assumed that the cellular fabric is insoluble and that the ions are soluble, the sum of the enthalpies of formation of all the cellular components should closely approximate the enthalpy of formation of one unit-carbon formula weight equivalent of living cells. Using this value, a calculation of the enthalpy change accompanying anabolism shows this latter to be effectively zero, indicating that the heat of growth (anabolism plus catabolism) is equal to that calculated for catabolism alone. This conclusion is in accord with those of several investigators who have used manometry or direct calorimetry.     

Purification and Characterization of Aminopeptidase B from Escherichia coli K-12

Aminopeptidase B, which is one of the four cysteinyl-glycinases of Escherichia coli K-12, was purified to electrophoretic homogeneity and its enzymatic characteristics were observed. Aminopeptidase B was activated by various divalent cations such as Ni²⁺, Mn²⁺, Co²⁺, and Cd²⁺, and lost its activity completely on dialysis against EDTA. This indicates that aminopeptidase B is a metallopeptidase. It was stabilized against heat in the presence of Mn²⁺ or Co²⁺. The activity of aminopeptidase B, which was saturated with one of above divalent cations, was enhanced on the addition of a very small amount of a second divalent cation. α-Glutamyl p-nitroanilide, leucine p-nitroanilide, and methionine p-nitroanilide were good substrates for aminopeptidase B, while native peptides, cysteinylglycine and leucylglycine, were far better substrates. The k_cat/K_m for cysteinylglycine was much bigger than those for leucylglycine or leucine p-nitroanilide.     

Induction of cadmium tolerance in Escherichia coli K-12

Abstract Cadmium ions are bacteriocidal, resulting in exponential killing that starts immediately after exposure. We have shown that pretreatment with sublethal concentrations of cadmium induces tolerance. Protection against cadmium killing can also be obtained by preincubation at elevated temperatures, known to induce the heat-shock response. However, in contrast to pretreatment at elevated temperatures, exposure to sublethal cadmium concentrations does not induce thermotolerance.     

大肠杆菌σ70启动子的识别

应用多样性增量结合二次判别分析（Increment of Diversity with Quadratic Discriminant analysis,IDQD）方法,对大肠杆菌σ^70启动子进行识别。使用受试者操作特性（receiver operating characteristic,ROC）曲线和精度召回率曲线（Precision Recall Curves,PRC）进行性能评估。10-fold交叉检验给出,在正负集之比为1：1时,ROC曲线下面积和PRC曲线下面积均为95％。结果表明,IDQD算法有能力应用于原核启动子的识别。识别精度高于现有算法。     

On the enthalpy of formation of Escherichia coli K-12 cells

An examination is made of five methods for obtaining values of the enthalpy of formation of a unit mass of living Escherichia coli K-12 cells. The values obtained by these methods ranged from -88.95 kJ to -99.55 kJ, the gross average being 96.01 kJ, per unit carbon formula weight equivalent of living, hydrated cells. Although theoretically the growth of this organism in a microcalorimeter should provide the best value, the value obtained by this method (-88.95 kJ per UCFW equivalent) is not in close agreement with those of the other four methods, the values from which form a cluster averaging -97.8 +/- 1.0 kJ (-23.4 +/- 0.2 kcal)/UCFW equivalent. Calculations using this value indicate that the enthalpy change accompanying anabolism (as this is represented) is zero, or very nearly so, and that the heat of growth is that from catabolism alone.     

Complete set of ORF clones of Escherichia coli ASKA library (A Complete Set of E. coli K-12 ORF Archive): Unique Resources for Biological Research

Based on the genomic sequence data of Escherichia coli K-12strain, we have constructed a complete set of cloned individualgenes encoding Histidine-tagged proteins with or without GFPfused for functional genomic analysis. Each clone encodes aprotein of predicted ORF attached by Histidines and seven spaceramino acids at the N-terminal end, and five spacer amino acidsand GFP at the C-terminal end. SfiI restriction sites are generatedat both the N- and C-terminal boundaries of ORF upon cloning,which enables easy transfer of ORF to other vector systems bycutting with SfiI. Expression of cloned ORF is under the controlof an IPTG-inducible promoter, which is strictly repressed bylacI^q repressor gene product. The set of cloned ORFs describedhere should provide unique resources for systematic functionalgenomic approaches including (i) construction of DNA microarray,(ii) production and purification of proteins, (iii) analysisof protein localization by monitoring GFP fluorescence and (iv)analysis of protein–protein interaction.     

一种基于代谢网络分析最小化基因组的方法及其在大肠杆菌中的应用

最小生命体的合成是合成生物学研究的重要方向。最小化基因组的同时而又不对细胞生长产生影响是代谢工程研究的一个重要目标。文中提出了一种从基因组尺度代谢网络模型出发,通过零通量反应删除及对非必需基因组合删除计算获得基因组最小化代谢网络模型的方法,利用该方法简化了大肠杆菌经典代谢网络模型iAF1260,由起始的1 260个基因简化得到了312个基因,而最优生物质生成速率保持不变。基因组最小化代谢网络模型预测了在细胞正常生长的前提下包含最少基因的代谢途径,为大肠杆菌获得最小基因组的湿实验设计提供了重要参考。     

Eicosanoids mediate nodulation reactions to bacterial Escherichia coli K 12 infections in larvae of the oriental blowfly, Chrysomya megacephala

Abstract  Nodulation is the predominant cellular defense reaction to bacterial challenges in insects. In this study, third instar larvae of Chrysomya megacephala were injected with bacteria, Escherichia coli K 12 (10⁶ CFU/mL, 2 μL), immediately prior to injection of inhibitors of eicosanoid biosynthesis, which sharply reduced nodulation response. Test larvae were treated with specific inhibitors of phospholipase A₂ (dexamethasone), cyclo-oxygenase (indomethacin, ibuprofen and piroxicam), dual cyclo-oxygenase/lipoxygenase (phenidone) and lipoxygenase (esculetin) and these reduced nodulation except esculetin. The influence of bacteria was obvious within 2 h of injection (5 nodules/larva), and increased to a maximum after 8 h (with 15 nodules/larva), and then significantly reduced over 24 h (9 nodules/larva). The inhibitory influence of dexamethasone was apparent within 2 h of injection (4 vs. 5 nodules/larva), and nodulation was significantly reduced, compared to control, over 24 h (5 vs. 8 nodules/larva). Increased dosages of ibuprofen, indomethacin, piroxicam and phenidone led to decreased numbers of nodules. Nodules continued to exist during the pupal stage. However, the effects of dexamethasone were reversed by treating bacteria-injected insects with an eicosanoid-precursor polyunsaturated fatty acid, arachidonic acid. These findings approved our view that eicosanoid can mediate cellular defense mechanisms in response to bacterial infections in another Dipteran insect C. megacephala .     

Complete genome sequence of enterohemorrhagic Escherichia coli O157:H7 and genomic comparison with a laboratory strain K-12.

Escherichia coli O157:H7 is a major food-borne infectious pathogen that causes diarrhea, hemorrhagic colitis, and hemolytic uremic syndrome. Here we report the complete chromosome sequence of an O157:H7 strain isolated from the Sakai outbreak, and the results of genomic comparison with a benign laboratory strain, K-12 MG1655. The chromosome is 5.5 Mb in size, 859 Kb larger than that of K-12. We identified a 4.1-Mb sequence highly conserved between the two strains, which may represent the fundamental backbone of the E. coli chromosome. The remaining 1.4-Mb sequence comprises of O157:H7-specific sequences, most of which are horizontally transferred foreign DNAs. The predominant roles of bacteriophages in the emergence of O157:H7 is evident by the presence of 24 prophages and prophage-like elements that occupy more than half of the O157:H7-specific sequences. The O157:H7 chromosome encodes 1632 proteins and 20 tRNAs that are not present in K-12. Among these, at least 131 proteins are assumed to have virulence-related functions. Genome-wide codon usage analysis suggested that the O157:H7-specific tRNAs are involved in the efficient expression of the strain-specific genes. A complete set of the genes specific to O157:H7 presented here sheds new insight into the pathogenicity and the physiology of O157:H7, and will open a way to fully understand the molecular mechanisms underlying the O157:H7 infection.     

A reassessment of the range of c-type cytochromes synthesized by Escherichia coli K-12

Abstract Five different c -type cytochromes have been detected during anaerobic growth of various Escherichia coli strains in different media. None of these cytochromes was detectable in aerobically-grown cultures. Only a single, 43 kDa cytochrome was synthesized in response to the presence of trimethylamine-N-oxide: synthesis of this cytochrome was unaffected by the presence of nitrate or nitrite, was repressed by oxygen, but was dependent upon a funtional tor operon located at minute 22 (coordinate 1070 kb) on the E. coli chromosome. The other four cytochromes, masses 16, 18, 24 and 50 kDa, were induced by nitrite coordinately with formate-dependent nitrite reductase activity, but repressed by oxygen and nitrate. As only the 18 kDa and 50 kDa cytochromes are encoded by the nrf operon located at minute 92 (coordinate 4366 kb), there must be other loci, possibly essential for formate-dependent nitrite reduction, encoding the 16 kDa and 24 kDa cytochromes. No other c -type cytochrome was detected under any growth condition tested.     

Transient repression of the synthesis of OmpF and aspartate transcarbamoylase in Escherichia coli K12 as a response to pollutant stress

Abstract The synthesis of total cellular proteins in Escherichia coli K12 was studied in batch culture following exposure of cells to low concentrations of monochlorophenol, pentachlorophenol and cadmium chloride. Changes in protein patterns were identified after pulse-chase labelling of proteins with [³⁵S]methionine and subsequent two-dimensional gel electrophoresis (2D-PAGE). We demonstrated that besides the induction of some stress proteins, also a transient decrease in the rate of synthesis of other proteins occurred. Two of these proteins were identified as OmpF and aspartate transcarbamoylase (ATCase). Their transient repression appeared to be a general response to stress elicited by different pollutants and may therefore be used as a general and sensitive early warning system for pollutant stress.     

Sequence and characterization of the Escherichia coli genome between the ndk and gcpE genes

Abstract The region of the chromosome immediately upstream of the Escherichia coli gene gcpE has been cloned and sequenced. This region contains two functional open reading frames, orf 384 and orf 337, encoding proteins of 43082 and 36189 Da, respectively. Sequencing analysis (this paper) and the isolation of a DNA fragment containing a functional promoter (Talukder, A.A., Yanai, S., and Yamada, M. (1994) Biosci. Biotech. Biochem. 58, 117–120) indicate that orf 337 is in an operon with gcpE . The gene orf 384 is immediately downstream of the gene ndk , which encodes nucleoside diphosphate kinase.