Conditionallethality of Escherichia coli strains carrying dnaE anddnaQ mutations

Summary A double mutant of Escherichia coli K12 which carries a conditional lethal mutator mutation, dnaQ49 (Horiuchi et al. 1978), and a DNA polymerase III-deficient mutation, dnaE486 (Wechsler and Gross 1971), was found to be more thermolabile than was either of the dnaQ49 or dnaE486 single mutants. The double mutant is able to grow at28° C but not at 30° C. Under the restrictive conditions DNA synthesis, but not protein synthesis, of the double mutant was suppressed. All the other combinations of dnaQ and dnaE mutation alleles tested so far rendered the cells thermolabile. a dnaZ mutation exerted a similar effect on the dnaQ strain. However, when non-specific temperaturesensitive graowth mutations were conbined with the dnaQ49 mutation, no such increase in thermosensitivity was observed. There is a possibility that the product of the dnaQ gene interacts directly with the DNA replicating enzyme complex.     

Caffeine-death in Escherichia coli

Summary Growth of a culture of E. coli strain B or 15 in medium containing caffeine resulted in the accumulation of inviable cells in the population. A caffeine concentration of 8 mM caused the death of between 30% and 50% of the cells in 12 independent populations grown for 15 generations or more. The thymine dimer excision-defective strains Bs-1, Bs-8 and Bs-12 and the exr ^– mutant Bs-2 were resistant to this lethal effect. The reckless, hcr ⁺ mutant Bs-11 was more sensitive than the parental B strain. Although 100mM caffeine did not impair DNA synthesis in vitro, concentrations of the drug 8 mM caused a significant decline in DNA synthesis in vivo in E. coli B cells. From the fit of an experimental growth curve to an algebraic model of growth in which a proportion of cells are inactivated at each replication it is suggested that caffeine does not affect the replication rate of the viable cells. The observed impairment of DNA synthesis in vivo is equated with this cell death (caffeine-death). For E. coli 15 or B, 8 mM caffeine induced caffeine-death at a rate of 18% per cell generation. Caffeine-resistant mutants of E. coli B and E. coli 15 were isolated. Of those studied in detail a substantial proportion proved to be U.V. and X-ray sensitive and excision-defective. Others were more U.V. and X-ray resistant than strain B. Yet another class proved highly unstable. A chromosome breakage model of caffeine-death implicating enzymes of the excision-repair process is discussed.     

Revertants from RNase III negative strains of Escherichia coli

Summary E. coli strains carrying the rnc-105 allele do not show any level of RNase III in extracts, grow slower than rnc ⁺ strains at temperatures up to 45°C and fail to grow at 45°C. Revertants which can grow at 45°C were isolated. The vast majority of them still do not grow as fast as rnc ⁺ strains and did not regain RNase III activity. The mutation(s) which caused them are suppressor mutations (physiological suppressors) which do not map in the immediate vicinity of the rnc gene. A few of the revertants regain normal growth, and contain normal levels of RNase III. They do not harbor the rnc-105 allele and therefore are considered to be true revertants. By using purines other than adenine it was possible to isolate rnc ⁺ pur ^- revertants from an rnc ^- pur ^- strain with relative ease. They behaved exactly like the true rnc ⁺ revertants isolated from rnc ^- strains at 45°C.A merodiploid strain which contains the rnc ⁺ gene on an episome behaves exactly like an rnc ⁺ strain with respect to growth and RNA metabolism, eventhough its specific RNase III activity is about 60% of that of an rnc ⁺ strain; thus the level of RNase III is not limiting in the cell.The rnc ^- strains show a characteristic pattern of transitory molecules, related to rRNA, 30S, 25S, p23 and 18S, which are not observed in rnc ⁺ strains. This pattern is unchanged in rnc ^- strains and in the revertants which are still lacking RNase III, regardless of the temperature in which RNA synthesis was examined (30° to 45°C). On the other hand, in the rnc ⁺ strains as well as in the true revertants and the rnc ⁺/rnc ^- merodiploid, the normal pattern of p16 and p23 is observed at all temperatures. These findings suggest that all the effects observed in RNase III^- strains are due to pleiotropic effects of the rnc-105 allele, and that the enzyme RNase III is not essential for the viability of the E. coli cell.     

Female-specific phages and F-minus strains of Escherichia coli K12

Summary The female-specific phages, I, II, W31 and H (but not T3 and T7) show a low efficiency of plating on all F-minus strains of Escherichia coli K12 except for the thr leu thi mutants descended from strain Y53. The locus responsible is linked to the histidine region and was presumably eliminated from the Y53 line of mutants in the course of mutagenesis.     

Escherichia coli strains with modified RNase II activity: Isolation and properties

Summary In a search for Escherichia coli strains defective in ribonuclease activity, a uracil requiring strain lacking RNase I activity was fed yeast RNA as the sole source of uracil and mutants that failed to utilize yeast RNA as the sole source of uracil were isolated. Among thirty colonies thus isolated and tested three were found to contain a heat labile RNase activity in cell free extracts. (Assays were performed under conditions for RNase II.) Since no strain completely lacking this RNase activity was found, and since these three strains have reduced growth rates that seem to be caused by the same mutation that altered the RNase activity, we concluded that RNase II activity is indispensible during cell growth.     

Morphogenesis of Escherichia coli

Morphogenesis of the rod-shaped Escherichia coli is determined by controlled growth of an exoskeleton made of murein (peptidoglycan). Recent insights in the growth strategy of the stress-bearing murein sacculus has contributed to our understanding of how the required concerted action of murein polymerizing and hydrolyzing enzymes is achieved. The proteins involved are coordinated by the formation of multienzyme complexes. In this review, we summarize the recent results on murein structure and metabolism. On the basis of these findings, we present a model that explains maintenance of the specific rod shape of E. coli.     

毒力基因yqeH功能分析及对禽致病性大肠杆菌致病性的影响

【背景】禽致病性大肠杆菌(avian pathogenic Escherichia coli,APEC)可引起禽类急性或亚急性感染,在近年新发现的大肠杆菌Ⅲ型分泌系统2 (Escherichia coli type III secretion system 2,ETT2)中,毒力基因yqeH对其致病性的影响尚不明确。【目的】探究yqeH在APEC致病过程中的作用,为后期深入研究ETT2致病机制奠定基础。【方法】利用Red同源重组技术构建yqeH缺失株ΔyqeH及其回复株CΔyqeH,通过运动性、生物被膜形成能力、抗逆性、抗血清杀菌能力等试验分析yqeH对APEC生物学功能的影响,并通过细胞黏附、侵袭试验、致病力测定及荧光定量PCR检测细胞炎性因子转录水平,探究yqeH对APEC感染宿主的影响。【结果】构建了缺失株ΔyqeH和回复株CΔyqeH;生物学特性试验结果表明,与野生株APEC81相比,缺失株ΔyqeH生物被膜形成能力、运动能力降低,对酸、碱、渗透压、氧化休克的耐受力降低,抗血清杀菌能力及致病力显著降低;与野生株APEC81相比,缺失株ΔyqeH对鸡气管黏膜上皮细胞的黏附及侵袭能...     

Escherichia coli and its chromosome

The Escherichia coli chromosome is a circular DNA molecule that is approximately 1000 times compacted in the living cell, where it occupies approximately 15% of the cellular volume. The genome is organized in a way that facilitates chromosome maintenance and processing. Despite huge efforts, until recently little has been known about how the chromosome is organized within cells, where replication takes place, and how DNA is segregated before cell division. New techniques for labeling genetic loci and molecular machines are allowing the simultaneous tracking of genetic loci and such machines in living cells over time. These studies reveal remarkable organization, yet a highly dynamic flux of genetic loci and macromolecules. It seems likely that the cellular positioning of chromosomal loci is the outcome of the formation of two chromosome arms (replichores) by replication, followed by sequential chromosome segregation, rather than from the presence of cellular positioning markers.     

转大肠杆菌过氧化氢酶基因棉花的抗旱生理研究

以导入大肠杆菌过氧化氢酶基因KatE的T3代转基因棉花为供试材料,经卡那霉素检测和PCR鉴定,将筛选出的阳性转基因植株与对照棉花进行整个生育期的持续水分胁迫处理直至收获,比较材料间的生理生化指标的差异,鉴定转基因植株的耐旱能力。结果显示:(1)干旱胁迫持续至初蕾期时,转基因棉花与对照植株间各项抗旱生理指标差异均未达到显著水平。(2)水分胁迫持续至盛蕾和盛花期时,转基因棉花叶片相对含水量、光系统Ⅱ最大光化学效率(Fv/Fm)、CAT活性,以及叶片的净光合速率(Pn)、气孔导度(Gs)和蒸腾速率(Tr)均显著或极显著高于对照植株,叶绿素含量也都明显高于对照植株。干旱胁迫持续至吐絮期时,转基因棉花的株高、果枝数和铃数均显著或极显著高于对照植株,且转基因棉花和对照的籽棉产量分别比正常灌溉处理降低57.5%和60.1%,全生育期的水分胁迫严重影响了棉花籽棉产量,但转基因棉花的籽棉产量仍显著高于对照。研究表明,在新疆石河子当地自然降水(干旱胁迫)条件下,转KatE基因棉花表现出了较好的生理和生长优势,KatE基因有助于提高棉花的抗旱性。     

Mutations by near-ultraviolet radiation in Escherichia coli strains lacking superoxide dismutase

Om wild-type Escherichia coli, near-ultraviolet radiation (NUV) was only weakly mutagenic. However, in an allelic mutant strain (sodA sodB) that lacks both Mn- and Fe-superoxide dismutase (SOD) and assumed to have excess superoxide anion (O₂⁻), NUV induced a 9-fold increase in mutation above the level that normally occurs in this double mutant. When a sodA sodB double mutant contained a plasmid carrying katG⁺ HP-I catalase), mutation by NUV was reduced to wild-type (sodA⁺sodB⁺) levels. Also, in the sodA sodB xthA triple mutant, which lacks exonuclease III (exoIII) in addition to SOD, the mutations frequency by NUV was reduced to wild-type levels. This synergistic action of NUV and O₂⁻ suggested that pre-mutational lesions occur, with exoIII converting these lesions to stable mutants. Exposure to H₂O₂ induced a 2.8 fold increase in mutations in sodA sodB double mutants, but was reduced to control levels when a plasmid carrying katG⁺ was introduced. These results suggest that NUV, in addition to its other effects on cells, increases mutations indirectly by increasing the flux of OH^. radicals, possibly by generating excess H₂O₂.     

Evidence for a naturally occurring ATPase-inhibitor in Escherichia coli

Stimulation of the Escherichia coli ATPase activity by urea and trypsin shows that there is a latent ATPase activity in particles and in a crude coupling factor of E. coli. Moreover, crude coupling factor, completely dissociated by treatment with 7 M urea, can inhibit the ATPase activity of the crude coupling factor. It is suggested that the latency of the ATPase activity of the coupling factor is due to the presence of a protein, the ATPase-inhibitor.     

Introduction of a Micrococcus plasmid in Escherichia coli

A 6-MDa plasmid (pMQV10), carrying cholesterol hydroxylase and streptomycin-resistance genes, from a gram-positive strain of Micrococcus sps., (RJ6) has been successfully transformed in gram-negative Escherichia coli K12 C600. pMQV10 is maintained stably and expresses its drug resistance in the new host.     

致犊牛脑膜炎大肠杆菌新疆分离株ibeB基因的特性分析北大核心CSCD

【目的】分析致犊牛脑膜炎大肠杆菌分离株ibeB基因的分子生物学信息。【方法】以自脑炎死亡犊牛脑组织、肝组织分离鉴定的O161-K99-STa致病性大肠杆菌牛-EN株和牛-EG分离株为材料。根据GenBank中公布的脑膜炎大肠杆菌K1株RS218 ibeB基因序列设计1对引物,采用PCR方法,从分离株中成功克隆ibe B基因,比较分离株ibeB基因与不同来源大肠杆菌ibeB基因的部分生物信息学特性。【结果】分离株ibeB基因序列全长1500 bp,包含1371 bp开放阅读框,共编码457个氨基酸;生物信息学分析显示,牛-EN株与致人脑膜炎大肠杆菌K1 RS218的核苷酸和氨基酸同源性分别为90.5%和96.9%,牛-EG株与大肠杆菌K12的核苷酸和氨基酸同源性分别为99.4%和100.0%;ibeB蛋白为亲水性蛋白,分子质量为50.26 kDa,理论等电点为6.05;该蛋白无跨膜区,但具有信号肽序列;亚细胞定位显示,分泌信号通路位点(SP)占比例为0.939,说明该蛋白属于分泌型蛋白。【结论】从致脑膜炎大肠杆菌分离株中成功克隆ibeB基因,该基因与致人脑膜炎大肠杆菌K1 RS218 ibeB基因有较高的同源性,均有相似的生物学特性,属肠外致病性大肠杆菌。     

ygeG基因对禽致病性大肠杆菌生物学特性及致病性的影响

【目的】本研究构建禽致病性大肠杆菌(avian pathogenic Escherichia coli, APEC) yge G基因缺失株,并对其进行生物学特性及致病性分析,探究yge G在APEC致病过程中的作用,为后期深入研究其所在的Ⅲ型分泌系统2 (type three secretion systems 2,ETT2)毒力岛的致病机制奠定基础。【方法】利用Red同源重组技术构建yge G缺失株APEC81-Δyge G及其回复株APEC81-CΔyge G,通过运动性、生物被膜形成能力、抗逆性、抗血清杀菌能力等试验分析yge G对APEC致病性相关的生物学功能的影响,并通过细胞黏附、侵袭试验及荧光定量PCR检测细胞炎性因子转录水平探究yge G对APEC感染宿主过程的影响。【结果】成功构建了缺失株APEC81-Δyge G和回复株APEC81-CΔyge G;与野生株APEC81相比,缺失株APEC81-Δyge G生长特性无显著变化(P>0.05),生物被膜形成能力显著降低(P<0.01),运动能力极显著升高(P<0.001),对酸休克和氧化休克的耐受力极显...     

Mutagenic DNA repair in Escherichia coli

Summary Escherichia coli K12 Hfr H Tsx^s Str^s and F^- Pro^- Tsx^r His^- Arg^- Str^r bacteria were conjugated in the absence of arginine with or without glucose. The efficiency of conjugation, measured by the frequency of Pro⁺ and His⁺ recombinants was not affected. Arginine starvation alone did not affect the tsx ^s gene expression which occurred in all the zygotes which had received the gene. In contrast, argine and glucose starvation allows tsx ^s expression only in those zygotes in which the donor gene had been integrated in the genome. As the glucose starvation brings on a destabilization of the messenger RNA synthesized by the F^- cells in absence of arginine, the results can be interpreted as follows: the transferred tsx ^s genes are transitorily expressed in all the zygotes at the unintegrated state. After this transient period, only those genes integrated in the chromosomes of the zygotes continue to be expressed.     

Ribosomal protein modification in Escherichia coli

Summary A mutant of Escherichia coli K12 has been isolated which shows an alteration in the ribosomal protein S18. Genetic analyses have revealed that the mutation causing this alteration maps at 99.3 min of the E. coli genetic map, between dnaC and deo. This indicated that the mutation has occurred in a gene different from the structural gene for this protein which has been located at 94 min. From the N-terminal amino acid sequence analysis it is concluded that the mutation has resulted in loss of the N-terminal acetyl group of this protein. The gene which is affected in this mutant is termed rimI that most likely specifies an enzyme acetylating the N-terminal alanine of protein S18. The mutation does not affect the acetylation of two other ribosomal proteins, S5 and L12, both of which are known to be acetylated in wild-type E. coli K12.     

Mutagenic DNA repair in Escherichia coli

Summary The photoreversibility of UV-induced mutations to Trp⁺ in strain Escherichia coli WP2 uvrA trp (unable to excise pyrimidine dimers) was lost at different rates during incubation in different media. In Casamino acids medium after a short initial lag, photoreversibility was lost over about one generation time; in minimal medium with tryptophan, photoreversibility persisted for more than two generations; in Casamino acids medium with pantoyl lactone photoreversibility was lost extremely slowly. The rate of loss of photoreversibility was unaffected by UV dose in either Casamino acids medium or in minimal medium. The same eventual number of induced mutants was obtained when cells were incubated for two generations in any of the three media before being transferred to selective plates supplemented with Casamino acids. Thus in each the proportion of cells capable of giving rise to a mutant was the same and only the rate at which these cells did so during post-irradiation growth varied, suggesting that there might be a specific fraction of pyrimidine dimers at a given site capable of initiating a mutagenic repair event, and that the size of this fraction is dose dependent. Segregation experiments have shown that error-prone repair appears to occur once only and is not repeated in subsequent replication cycles, in contrast to (presumed error-free) recombination repair.The results are discussed in the light of current models of UV mutagenesis.     

High efficiency temperature-sensitive amber suppressor strains of Escherichia coli K12

Summary A set of eight strains combining the supD43,74 ts¹ suppressor gene with alleles of three suppressor-enhancing (sue) genes have been constructed and characterized. The sue mutations work cooperatively to raise suppressor activity and together raise the activity of the supD43, 74-encoded suppressor 40-fold. These strains further expand the utility of the ts suppressor system by providing as much as 100% suppressor activity at temperatures at or below 20°C to as little as 0.015% suppressor activity at 43°C.