鼠伤寒沙门菌pStSR100质粒对生物膜形成的影响

目的：鼠伤寒沙门菌在多种表面形成的生物膜对其致病性和引起食物中毒等方面起着重要作用,本研究探讨鼠伤寒沙门菌pStSR100质粒对细菌在不同材质表面生物膜形成的影响。方法：用LB（Lufia—Bertani,LB）培养基和TSB（TryptoseSoyaBroth,TSB）培养基分别将携带pStSR100质粒的野生株在96孔板与放置无菌小圆玻片的24孔板中静态培养48h,用结晶紫半定量法确定生物膜形成的适宜培养基。将野生株与消除质粒的突变株,用结晶紫半定量法和激光共聚焦显微镜（ConfocalLaserscanningmicroscopy,CLSM）观察其在聚苯乙烯培养板和小圆玻片表面形成生物膜的差异。结果：用LB培养时细菌生物膜的形成能力高于用TSB培养,LB培养基更适宜生物膜形成;结晶紫半定量法结果表明野生株比突变株在小圆玻片表面形成生物膜的能力明显增强,而在聚苯乙烯培养板表面两者则无明显差异;CLSM观察发现,野生株在小圆玻片表面形成融合成片的大克隆,突变株仅形成较小克隆。结论：鼠伤寒沙门菌pStSR100质粒能促进该茵在亲水性材质表面生物膜的形成,但其对该菌在疏水性材质表面生物膜的形成未见明显影响,这一新发现为进一步研究鼠伤寒沙门菌生物膜形成的调控机制,研制抗感染材料提供了理论和实验依据。     

鼠伤寒沙门菌pStSR100质粒对生物膜形成的影响

目的:鼠伤寒沙门菌在多种表面形成的生物膜对其致病性和引起食物中毒等方面起着重要作用,本研究探讨鼠伤寒沙门菌pStSR100质粒对细菌在不同材质表面生物膜形成的影响。方法:用LB(Luria-Bertani,LB)培养基和TSB(Tryptose Soya Broth,TSB)培养基分别将携带pStSR100质粒的野生株在96孔板与放置无菌小圆玻片的24孔板中静态培养48 h,用结晶紫半定量法确定生物膜形成的适宜培养基。将野生株与消除质粒的突变株,用结晶紫半定量法和激光共聚焦显微镜(Confocal Laser scanning microscopy,CLSM)观察其在聚苯乙烯培养板和小圆玻片表面形成生物膜的差异。结果:用LB培养时细菌生物膜的形成能力高于用TSB培养,LB培养基更适宜生物膜形成;结晶紫半定量法结果表明野生株比突变株在小圆玻片表面形成生物膜的能力明显增强,而在聚苯乙烯培养板表面两者则无明显差异;CLSM观察发现,野生株在小圆玻片表面形成融合成片的大克隆,突变株仅形成较小克隆。结论:鼠伤寒沙门菌pStSR100质粒能促进该菌在亲水性材质表面生物膜的形成,但其对该菌在疏水性材质表面生物膜的形成未见明显影响,这一新发现为进一步研究鼠伤寒沙门菌生物膜形成的调控机制,研制抗感染材料提供了理论和实验依据。     

鼠伤寒沙门菌微孔蛋白的免疫学研究进展

本文对鼠伤寒沙门菌（ＳＴＭ）微孔蛋白的免疫学研究作了阐述,分析了ＳＴＭ－微孔蛋白的结构、功能及遗传学,展示了研究ＳＴＭ－微孔蛋白所面临的问题及实际应用价值。     

TassC结合过氧化物酶体对早期受染巨噬细胞内的鼠伤寒沙门菌的影响

探讨鼠伤寒沙门菌在感染鼠巨噬细胞早期与细胞器的相互作用。用pTassC-GFP质粒转染鼠巨噬细胞RAW264.7,结合多抗的溶酶体标志物溶酶体相关膜蛋白-1用键合了Alexa594的羊抗鼠二抗显色,以观察标记了绿色荧光蛋白的TassC与溶酶体的关系;用pTassC-GFP和pDsRed2-Perxi质粒共转染RAW264.7细胞,以观察TassC-GFP与过氧化物酶体的关系;用SYTO42标记鼠伤寒沙门菌,感染用pTassC-GFP和pDsRed2-Perxi质粒共转染的RAW264.7细胞,以观察细菌与TassC和过氧化物酶体的关系。免疫荧光显示TassC-GFP不与鼠巨噬细胞RAW264.7中的溶酶体结合,但与标记了红色荧光的过氧化物酶体共定位;感染1 h的RAW264.7胞内SYTO42标记的鼠伤寒沙门菌吞噬泡可招募TassC-GFP和过氧化物酶体。这些发现提示在鼠伤寒沙门菌感染早期过氧化物酶体携带杀菌成分通过TassC介导可参与发挥一定的杀菌作用。     

双歧杆菌防治鼠伤寒沙门菌感染的实验研究

目的　以小鼠为模型,研究双歧杆菌在体内对鼠伤寒沙门菌（Ｓａｌｍｏｎｅｌｌａ ｔｙｐｈｉｍｕｒｉｕｍ ,ＳＴＭ） 感染的防治作用。方法　分别用大剂量悉复欢、Ｂ．ｂｉｆｉｄｕｍ 、生理盐水（ＮＳ） 给三组小鼠灌胃,再用ＳＴＭ 攻击,观察小鼠经上述不同处理前后肠道双歧杆菌数量和ＳＴＭ 攻击后粪便ＳＴＭ 培养阳性率,阳性标本ＳＴＭ 分离值及小鼠ＳＴＭ 感染率;同时用双歧杆菌、悉复欢、双歧杆菌加悉复欢分别治疗ＳＴＭ 感染的小鼠,观察并比较疗效。结果　１． 大剂量悉复欢使用可使小鼠肠道内双歧杆菌明显降低,而双歧杆菌灌胃则肠道双歧杆菌明显增多。双歧杆菌灌胃的小鼠粪便ＳＴＭ培养阳性率、阳性粪便ＳＴＭ 值明显低于用大剂量悉复欢和ＮＳ 的小鼠,小鼠ＳＴＭ 感染发病率也明显较低。２． 对于ＳＴＭ 感染鼠,双歧杆菌与悉复欢联合治疗效果最好。结论　１． 双歧杆菌在体内对ＳＴＭ 有拮抗作用;能预防和减少ＳＴＭ 感染发生;２． 在ＳＴＭ 感染时,先用悉复欢,再用双歧杆菌可以达到预期疗效,双歧杆菌对鼠伤寒沙门菌感染有辅助治疗作用。     

鼠伤寒沙门菌动物模型活体成像技术的研究进展

鼠伤寒沙门菌的体内实验有利于开展食物中毒、胃肠炎、伤寒热等肠道传染病的防治。由于在活体内检测鼠伤寒沙门菌的动态变化存在瓶颈,使细菌致病机制的研究、疫苗及药物研发滞后。近年来应用小动物成像技术在活体中追踪转化了荧光素酶基因的鼠伤寒沙门菌越来越受到人们关注,综述该技术的应用现状及缺憾之处。     

自噬对鼠伤寒沙门菌所致的巨噬细胞凋亡的影响

为探讨鼠伤寒沙门菌与巨噬细胞共作用时细胞自噬对凋亡的影响,用加入自噬诱导剂雷帕霉素(Rapamycin,RAPA)和未加RAPA的RPMI1640过夜培养小鼠腹腔巨噬细胞J774A.1,以携带一分子量为100kb毒力质粒的鼠伤寒沙门菌标准毒株SR-11为受试菌。首先测定RAPA对菌量及细胞活性的影响,然后建立细胞感染模型,在细菌与细胞共作用后动态观察24h,不同时间点检测细胞超微结构变化、自噬泡的形成、Beclin-1和Bcl-2的表达、细胞存活率和胞内活菌计数以及细胞凋亡情况。结果显示,RAPA单独作用于细菌或细胞时菌量及细胞活性均无变化;而对细胞感染模型而言,RAPA作用与否细胞内的细菌数及细胞存活率均有显著改变,RAPA可明显降低细胞内活菌数及其所致的巨噬细胞凋亡率(P0.05);RAPA干预组在细菌与细胞共作用早期,部分细菌可被双层膜包裹形成自噬泡,细胞超微结构正常;Beclin-1的表达量增加,而Bcl-2的表达量降低;后期细胞破坏程度明显轻于未用RAPA组。以上结果提示,通过调控细胞自噬水平以减轻宿主细胞凋亡,可作为防治某些感染性疾病的新途径。     

肿瘤生物治疗的新方法——减毒鼠伤寒沙门菌的应用

减毒鼠伤寒沙门菌由于具有肿瘤靶向性,能在肿瘤组织中复制并产生抗肿瘤效果的能力,使肿瘤治疗获得了新契机。减毒鼠伤寒沙门菌作为细菌载体使目的基因在肿瘤组织内特异表达,表现出良好治疗效果。近期研究发现,单独使用突变后的菌株A1-R在裸鼠模型上治疗乳腺癌和前列腺癌分别可达到40％和50％的治愈率;在小鼠肿瘤转移模型中也展现出良好的治疗效果。鼠伤寒沙门菌作为肿瘤治疗制剂有诱人的前景。本文就这些研究的最新进展做一综述。     

鼠伤寒沙门菌外膜蛋白与耐药性关系的分析

目的分析鼠伤寒沙门菌外膜蛋白(OMP)与耐药性的关系。方法用消除剂丫啶橙消除耐药性,盲传测其遗传稳定性,采用超声波物理裂解法制备鼠伤寒沙门菌外膜蛋白标本,用变性聚丙烯酰胺凝胶电泳(SDA-PAGE)检测外膜蛋白,用紫外分光光度计测其吸光值,计算浓度。结果抗性消除表型能稳定遗传,耐药鼠伤寒沙门菌与敏感鼠伤寒沙门菌都含有6条主要的外膜蛋白条带,两者相比,发现耐药菌的外膜蛋白在约57、53、30 kDa处减弱或缺失,总的蛋白浓度也低于后者。结论鼠伤寒沙门菌耐药性与外膜蛋白的减弱或缺失有关。     

A simple and rapid harvesting method for microalgae by in situ magnetic separation

A simple and rapid harvesting method by in situ magnetic separation with naked Fe₃O₄ nanoparticles has been developed for the microalgal recovery of Botryococcus braunii and Chlorella ellipsoidea. After adding the magnetic particles to the microalgal culture broth, the microalgal cells were adsorbed and then separated by an external magnetic field. The maximal recovery efficiency reached more than 98% for both microalgae at a stirring speed of 120 r/min within 1 min, and the maximal adsorption capacity of these Fe₃O₄ nanoparticles reached 55.9 mg-dry biomass/mg-particles for B. braunii and 5.83 mg-dry biomass/mg-particles for C. ellipsoidea. Appropriate pH value and high nanoparticle dose were favorable to the microalgae recovery, and the adsorption mechanism between the naked Fe₃O₄ nanoparticles and the microalgal cells was mainly due to the electrostatic attraction. The developed in situ magnetic separation technology provides a great potential for saving time and energy associated with improving microalgal harvesting.     

转录组学分析Fe3O4纳米颗粒胁迫下盐单胞菌XH26与四氢嘧啶代谢相关的差异表达基因

【目的】探究Fe₃O₄纳米颗粒（Fe₃O₄ nanoparticles,Fe₃O₄ NPs）与坎帕尼亚盐单胞菌（Halomonas campaniensis） XH26共培养后的差异表达基因（differentially expressed genes,DEGs）,明确Fe₃O₄ NPs促进XH26胞内四氢嘧啶积聚量增长的分子机制。【方法】设置空白组（C,0 g/L）、低浓度组（L,0.01 g/L）、中浓度组（M,0.10 g/L）和高浓度组（H,0.50 g/L）的Fe₃O₄ NPs与菌株XH26共培养。采用Illumina Hi Seq 300PE进行转录组测序,探究菌株不同浓度组的DEGs,并采用RT-q PCR验证关键的DEGs。【结果】与空白C组相比,M组四氢嘧啶的积累量提高了55.67%（708.87 mg/L）,M组和H组的亚铁离子和抗氧化能力显著升高,而H组的羟基自由基含量高于M组。转录组学分析显示,M组中与菌株XH26胞内代谢相关的DEGs富集于精/脯氨酸代谢（13个）、氮代谢通路（11个）、硫代谢通路（10个）,主要功能与四氢嘧啶合成通路（11个）、电子传递途径（7个）及抗氧化酶系（5个）相关。RT-q PCR验证了四氢嘧啶合成代谢关键基因lys C、asd和基因簇ect ABC,精氨酸（arginine,Arg）代谢通路基因ast A/B/D/E以及尿素循环基因arg E/H的表达趋势,与RNA-seq测序结果相一致。【结论】四氢嘧啶是细菌细胞和生物大分子重要的稳定保护剂。Fe₃O₄ NPs胁迫下菌株XH26胞内的活性氧（reactive oxygen species,ROS）增多,且影响胞内的氨基酸和氮代谢过程。菌株XH26通过提升抗氧化能力,增加胞内的四氢嘧啶积聚量,以应对Fe₃O₄NPs的胁迫作用。     

The effect of type-1 fimbrial immunization on gut pathophysiological response in rats infected with Salmonella enterica subsp. enterica serovar Typhimurium

The pathophysiological mechanism of Salmonella enterica subsp. enterica serovar Typhimurium (Salmonella typhimurium) induced gastroenteritis is controlled by interplay of various cell signaling events. Adherence of this organism through type-1 fimbriae is known to be a vital prerequisite for the establishment of infection. In the present investigation male albino Wistar rats were immunized with purified type-1 fimbriae and challenged intragastrically with S. typhimurium. Electrolyte transport and level of different second messengers were studied in four different groups of animals. Transepithelial fluxes of Na⁺ and Cl^– revealed absorption in immunized-challenged group as observed in case of control and immunized group while secretion was observed in infected group. Ca²⁺ and 3-0-methyl-D-glucose fluxes did not show any change. Significant increase in the level of intracellular Ca²⁺, cAMP, membrane form of protein kinase C, prostaglandins, NADPH oxidase, glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, total oxygen free radicals, reactive nitrogen intermediates, citrulline and lipid peroxidation was found in the infected group. However, in the immunized-challenged group, the values of all the parameters were found to be same as that of control as well as immunized groups. Na⁺, K⁺-ATPase and calmodulin levels were found to be unaltered in all the groups of animals. Thus, the immunization with type-1 fimbriae has been found to be quite effective leading to the prevention of multiple physiologic derangements in isolated ileal cells suggesting the protective role of the fimbriae.     

Optimum conditions for lipase immobilization on chitosan-coated Fe3O4 nanoparticles

Magnetic Fe₃O₄-chitosan nanoparticles are prepared by the coagulation of an aqueous solution of chitosan with Fe₃O₄ nanoparticles. The characterization of Fe₃O₄-chitosan is analyzed by FTIR, FESEM, and SQUID magnetometry. The Fe₃O₄-chitosan nanoparticles are used for the covalent immobilization of lipase from Candida rugosa using N-(3-dimethylaminopropyl)-N′-ethylcarbodiimide (EDC) and N-hydroxysuccinimide (NHS) as coupling agents. The response surface methodology (RSM) was employed to search the optimal immobilization conditions and understand the significance of the factors affecting the immobilized lipase activity. Based on the ridge max analysis, the optimum immobilization conditions were immobilization time 2.14 h, pH 6.37, and enzyme/support ratio 0.73 (w/w); the highest activity obtained was 20 U/g Fe₃O₄-chitosan. After twenty repeated uses, the immobilized lipase retains over 83% of its original activity. The immobilized lipase shows better operational stability, including wider thermal and pH ranges, and remains stable after 13 days of storage at 25 °C.     

In situ magnetic separation and immobilization of dibenzothiophene-desulfurizing bacteria

In situ cell separation and immobilization of bacterial cells for biodesulfurization were developed by using superparamagnetic Fe₃O₄ nanoparticles (NPs). The Fe₃O₄ NPs were synthesized by coprecipitation followed by modification with ammonium oleate. The surface-modified NPs were monodispersed and the particle size was about 13 nm with 50.8 emu/g saturation magnetization. After adding the magnetic fluids to the culture broth, Rhodococcus erythropolis LSSE8-1 cells were immobilized by adsorption and then separated with an externally magnetic field. The maximum amount of cell mass adsorbed was about 530 g dry cell weight/g particles to LSSE8-1 cells. Analysis showed that the nanoparticles were strongly absorbed to the surface and coated the cells. Compared to free cells, the coated cells not only had the same desulfurizing activity but could also be easily separated from fermentation broth by magnetic force. Based on the adsorption isotherms and Zeta potential analysis, it was believed that oleate-modified Fe₃O₄ NPs adsorbed bacterial cells mainly because of the nano-size effect and hydrophobic interaction.     

Amperometric tyrosinase biosensor based on Fe3O4 nanoparticles-chitosan nanocomposite

A novel tyrosinase biosensor based on Fe(3)O(4) nanoparticles-chitosan nanocomposite has been developed for the detection of phenolic compounds. The large surface area of Fe(3)O(4) nanoparticles and the porous morphology of chitosan led to a high loading of enzyme and the entrapped enzyme could retain its bioactivity. The tyrosinase-Fe(3)O(4) nanoparticle-chitosan bionanocomposite film was characterized with atomic force microscopy and AC impedance spectra. The prepared biosensor was used to determine phenolic compounds by amperometric detection of the biocatalytically liberated quinone at -0.2V vs. saturated calomel electrode (SCE). The different parameters, including working potential, pH of supporting electrolyte and temperature that governs the analytical performance of the biosensor have been studied in detail and optimized. The biosensor was applied to detect catechol with a linear range of 8.3 x 10(-8) to 7.0 x 10(-5)mol L(-1), and the detection limit of 2.5 x 10(-8)mol L(-1). The tyrosinase biosensor exhibits good repeatability and stability. Such new tyrosinase biosensor shows great promise for rapid, simple, and cost-effective analysis of phenolic contaminants in environmental samples. The proposed strategy can be extended for the development of other enzyme-based biosensors.     

Direct electron transfer between hemoglobin and pyrolytic graphite electrodes enhanced by Fe(3)O(4) nanoparticles in their layer-by-layer self-assembly films

Alternate adsorption of negatively charged Fe(3)O(4) nanoparticles from their pH 8.0 aqueous dispersions and positively charged hemoglobin (Hb) from its pH 5.5 buffers on solid substrates resulted in the assembly of {Fe(3)O(4)/Hb}(n) layer-by-layer films. Quartz crystal microbalance (QCM), UV-vis spectroscopy, and cyclic voltammetry (CV) were used to monitor and confirm the film growth. A pair of well-defined, nearly reversible CV peaks for HbFe(III)/Fe(II) redox couples was observed for {Fe(3)O(4)/Hb}(n) films on pyrolytic graphite (PG) electrodes. Although the multilayered films grew linearly with the number of Fe(3)O(4)/Hb bilayers (n) and the amount of Hb adsorbed in each bilayer was generally the same, the electroactive Hb could only extend to 6 bilayers. This indicates that only those Hb molecules in the first few bilayers closest to the electrode surface are electroactive. The electrochemical parameters such as the apparent heterogeneous electron transfer rate constant (k(s)) were estimated by square wave voltammetry (SWV) and nonlinear regression. The Soret absorption band position of Hb in {Fe(3)O(4)/Hb}(6) films showed that Hb in the films retained its near native structure in the medium pH range. The {Fe(3)O(4)/Hb}(6) film electrodes also showed good biocatalytic activity toward reduction of oxygen, hydrogen peroxide, trichloroacetic acid, and nitrite. The electrochemical reduction overpotentials of these substrates were lowered significantly by {Fe(3)O(4)/Hb}(n) films.     

Lectin-biotin assay for slime present inin situ biofilm produced byStaphylococcus epidermidis using transmission electron microscopy (TEM)

A lectin-biotin assay was developed for use in the specific detection of slime produced byStaphylococcus epidermidis RP62A and M187sp11 grown in a chemically defined medium. Mature biofilm was formed on polyvinylchloride (PVC) disks using a combined chemostat-modified Robbins device (MRD) model system. Specimens fixedin situ were: 1) stained with ruthenium red; 2) reacted overnight with biotin-labeled lectins (WGA, succinyl-WGA, Con A, or APA) followed by treatment with gold-labeled extravidin; or 3) reacted with antibodies againstS. epidermidis RP62A capsular polysaccharide/adhesin (PS/A) using an immunogold procedure. WGA and succinyl-WGA (S-WGA), which specifically bindN-acetylglucosamine, were shown by TEM to react only with slime, both cell-associated and exocellular. In contrast, Con A, APA and anti-PS/A reacted with the bacterial cell surface but did not react with slime. These results indicate the usefulness of WGA lectin as a specific marker for detection of the presence and distribution of slime matrix material inS. epidermidis biofilm.