基于响应面分析的高抗原活性鸭疫里默氏杆菌疫苗培养基的研制及其效果评价

【背景】鸭疫里默氏杆菌广泛存在于养殖场,引起雏鸭发生传染性浆膜炎,严重危害养鸭业的发展。【目的】提高鸭疫里默氏杆菌发酵培养水平和抗原活性,为鸭疫里默氏杆菌灭活疫苗的研制提供技术指引。【方法】利用单因素及响应面的试验设计方法,针对鸭疫里默氏杆菌进行疫苗培养基的研制,并探究不同发酵时间点该菌的抗原活性,选择抗原活性最高点时制备灭活疫苗,通过动物免疫保护试验评价疫苗免疫效果。【结果】使用研制的疫苗培养基发酵培养鸭疫里默氏杆菌,其活菌数能够达到4.68×1010 CFU/mL,较市面上该菌专用的培养基提高2.29倍。该菌发酵12 h后抗原活性达到最高,在此时制备的灭活疫苗诱导小鼠产生的抗体水平显著高于商品化灭活疫苗,攻毒保护率达到了100%。【结论】本研究研制的培养基具有优异的增菌效果,可作为生产鸭疫里默氏杆菌灭活疫苗抗原的发酵培养基,疫苗生产过程中可选择菌株抗原活性达到最高时收集菌体。     

大肠杆菌-鸭疫里默氏杆菌高效穿梭质粒pFY02的构建和应用

鸭疫里默氏杆菌(Riemerella anatipestifer,RA)是引起鸭、鹅、火鸡等家禽传染性败血症及浆膜炎的主要病原。目前主要通过基因缺失及基因回补的方法对鸭疫里默氏杆菌的基因功能进行研究。然而,目前使用的穿梭质粒pLMF03存在结合转移效率低、酶切位点少等缺陷,不能用于所有鸭疫里默氏杆菌基因的回补。为解决这一问题,文中将结合转移位点oriT、鸭疫里默氏杆菌复制起始基因pRA0726ori、高表达启动子基因及多种酶切位点逐一克隆至质粒pPM5,构建了新的穿梭质粒pFY02。结果表明,该质粒能够稳定存在于鸭疫里默氏杆菌,且具有较高的结合转移效率。通过回补鸭疫里默氏杆菌tonB2基因缺失株表明,该质粒可用于鸭疫里默氏杆菌基因的回补。总之,文中构建的穿梭质粒pFY02更加完善了用于鸭疫里默氏杆菌基因回补的材料。     

鸭疫里默氏杆菌铁离子代谢机制研究进展

铁离子是大多数细菌生存所必需的一种营养物质,但过多的铁离子会通过芬顿反应产生的活性氧对细菌造成损伤。因此,细菌通过摄取、调控、螯合、外排等机制维持体内铁离子的稳态。鸭疫里默氏杆菌(Riemerella anatipestifer)是一种最新被归类于威克斯菌科里氏杆菌属的革兰氏阴性菌。该菌主要感染禽类,参与该菌的铁离子代谢基因具有特别之处。本文对鸭疫里默氏杆菌铁离子代谢机制研究进展进行了系统总结和阐述,包括该菌的TonB系统、TonB依赖性受体、Fur蛋白及Dps蛋白等在铁离子转运、调控、螯合中的功能,以及以上蛋白在鸭疫里默氏杆菌致病中的作用,以期更全面地理解鸭疫里默氏杆菌铁代谢机制,并为进一步深入研究该菌铁离子代谢提供理论依据和参考。     

江苏地区10株鹅源鸭疫里默氏杆菌的耐药性及致病性特征分析

[背景] 鸭疫里默氏杆菌感染是危害水禽业最严重的细菌传染性病之一,鹅源鸭疫里默氏杆菌病的发病率有逐渐增高趋势,给养鹅业带来了巨大经济损失。[目的] 为更好地预防控制鹅源鸭疫里默氏杆菌病、解决鹅养殖场临床用药问题及进一步探究鸭源和鹅源鸭疫里默氏杆菌之间的关系。[方法] 对江苏地区的发病鹅进行鸭疫里默氏杆菌的分离培养、多重PCR方法鉴定及生化试验,并对分离获得的10株鸭疫里默氏杆菌进行药敏试验、血清型鉴定及雏鸭致病性试验。[结果] 药敏试验结果显示,鹅源分离菌株对大观霉素、磺胺异噁唑、头孢曲松、头孢拉定、氟苯尼考最敏感,对新霉素、卡那霉素、丁胺卡那霉素、庆大霉素和克林霉素耐药性最高且多重耐药性严重。血清型鉴定表明,江苏地区分离的10株鹅源鸭疫里默氏杆菌主要以血清型2型为主。雏鸭致病性试验表明,鹅源鸭疫里默氏杆菌分离株均引起雏鸭不同程度发病,其中3株鹅源临床分离株经1×10⁷ CFU/羽攻毒后可引起雏鸭100%的致死率。[结论] 为鹅源鸭疫里默氏杆菌的预防控制、临床治疗及进一步研究鸭源和鹅源鸭疫里默氏杆菌之间的关系提供依据。     

鸭疫里默氏杆菌自然转化的发现及机制研究进展

自然转化(natural transformation)是微生物水平基因转移的一种重要机制,其在遗传多样性的产生或修复DNA损伤等方面发挥着重要作用,并且与耐药基因、毒力因子的扩散息息相关。鸭疫里默氏杆菌(Riemerellaanatipestifer,RA)是威克斯菌科中第一个被发现可以发生自然转化的细菌,本文作者利用此特点建立了多种基因编辑的方法,促进了对其遗传多样性和致病机理的研究进程。通过系统性地研究影响鸭疫里默氏杆菌自然转化的因素,鉴定出了参与该菌自然转化的营养物质;通过筛选转座子插入突变体文库,鉴定出了参与该过程的必需基因;最终,在该菌发现了一种新型的自然转化系统。本文结合其他细菌自然转化研究进展,针对以上研究结果进行综述,以期对该菌的自然转化机制有更深入的理解,也为更进一步探明该菌的耐药和毒力基因获得机制提供参考。     

利用16S rDNA建立种特异性PCR快速检测鸭疫里默氏菌

鸭疫里默氏菌感染是危害养鸭业的主要疾病,用表型指标鉴定鸭疫里默氏菌存在不足,因此有必要建立检测该菌的种特异性PCR法。利用已登录的鸭疫里默氏菌、大肠杆菌、沙门氏菌、多杀性巴氏杆菌的16S rDNA基因序列,设计了一对鸭疫里默氏菌16S rDNA基因的特异性引物190f和843r,分别以基因组DNA和菌落提取液为模板,从1~19型鸭疫里默氏菌参考菌株和代表亚型、变异株和可能新型的国内分离株共26株细菌中均扩增出大小为654bp的特异性片段,而扩增鸭大肠杆菌、鸭沙门氏菌和禽多杀性巴氏杆菌等感染鸭的常见细菌的结果均呈阴性。分别将鸭疫里默氏菌基因组DNA和菌落提取液进行10倍梯度稀释,基因组DNA的最小检出量为50pg,菌落最小检出量为15CFU/mL。结果说明,该PCR法具有较好的特异性和敏感性,可用于快速鉴定鸭疫里默氏菌。     

利用16SrDNA建立种特异性PCR快速检测鸭疫里默氏菌

鸭疫里默氏菌感染是危害养鸭业的主要疾病,用表型指标鉴定鸭疫里默氏菌存在不足,因此有必要建立检测该菌的种特异性PCR法。利用已登录的鸭疫里默氏菌、大肠杆菌、沙门氏菌、多杀性巴氏杆菌的16S rDNA基因序列,设计了一对鸭疫里默氏菌16S rDNA基因的特异性引物190f和843r,分别以基因组DNA和菌落提取液为模板,从1-19型鸭疫里默氏菌参考菌株和代表亚型、变异株和可能新型的国内分离株共26株细菌中均扩增出大小为654bp的特异性片段,而扩增鸭大肠杆菌、鸭沙门氏菌和禽多杀性巴氏杆菌等感染鸭的常见细菌的结果均呈阴性。分别将鸭疫里默氏菌基因组DNA和菌落提取液进行10倍梯度稀释,基因组DNA的最小检出量为50pg,菌落最小检出量为15CFU／mL。结果说明,该PCR法具有较好的特异性和敏感性,可用于快速鉴定鸭疫里默氏菌。     

鸭疫里默氏杆菌RecA作为一种内参蛋白的评价

由于缺少适合的内参蛋白,所以用Western blot的方法来研究鸭疫里默氏杆菌蛋白表达的调节尚未见报道。以鸭疫里默氏杆菌基因组为模板,PCR扩增含有组氨酸标签His-tag的rec A基因和截段的rec AP基因,并分别将其克隆于原核表达载体p ET32a。将重组质粒转化到表达菌Rosetta中,经1mmol/L的IPTG诱导进行蛋白质表达。用组氨酸标签亲和试剂镍-琼脂糖进行重组蛋白质的纯化。用纯化的重组蛋白对4周龄的昆明鼠进行免疫,制备多克隆抗体。Western blot实验表明,截段表达的Rec AP的多克隆抗体血清比全长Rec A蛋白的多克隆抗体血清与鸭疫里默氏杆菌总蛋白反应更特异;在铁离子限制性环境和血红素丰富环境中培养的鸭疫里默氏杆菌的Rec A蛋白表达量一致。因此,鸭疫里默氏杆菌的Rec A蛋白可以在铁离子和血红素代谢等研究中作为Western blot的内参蛋白。     

鸭疫里氏杆菌CH-1株B739_RS03695基因的功能鉴定

【背景】鸭疫里默氏杆菌是一种可引起鸭传染性浆膜炎的革兰氏阴性病原菌。对于该菌的铁离子转运系统已有大量研究，但有关该菌铁硫簇装配基因的功能知之甚少。【目的】序列分析表明，鸭疫里默氏杆菌CH-1株B739＿RS03695编码铁硫结合蛋白，但其具体功能未知。本研究旨在鉴定鸭疫里默氏杆菌CH-1株B739＿RS03695基因在抗氧化应激及耐药中的功能。【方法】构建B739＿RS03695缺失株，通过测定生长曲线、氧化应激存活率探究其在抗氧化应激中的功能；通过最小抑菌浓度、杀菌试验探究其在耐药中的功能。【结果】与亲本株相比，RA CH-1ΔB739＿RS03695在GCB培养基中生长不受影响，但在铁限制性培养基中的生长受到明显抑制；与亲本株相比，RA CH-1ΔB739＿RS03695对H₂O₂的敏感性增加；与亲本株相比，RA CH-1ΔB739＿RS03695对庆大霉素的抵抗力显著增加；荧光定量PCR结果表明，与对照组相比，B739＿RS03695基因的转录水平在铁限制性条件和存在过氧化氢条件下显著上调。【结论】B739＿RS03695基因缺失后会损...     

鹅源鸭疫里默氏杆菌的分离、鉴定与生物学特性研究

【目的】从疑似鸭疫里默氏杆菌病的病死雏鹅分离病原菌进行鉴定。【方法】根据细菌培养特性、生化特性、动物试验、血清型鉴定及分子生物学特性对分离菌株进行鉴定。【结果】分离菌株为革兰氏阴性菌,不发酵糖类和醇类,尿素酶试验和氧化酶还原试验为阳性,致病,不同分离株的16S rRNA基因经多重序列比对分析,结果显示鹅源分离株与鸭源鸭疫里默氏杆菌处于同一进化支上,与鸡源鸭疫里默氏杆菌进化关系稍远,血清型鉴定为1型。【结论】分离菌株为血清1型的鸭疫里默氏杆菌,对鸭和鹅均有高致病性,自家疫苗能够较好地保护雏鹅。     

Rapid screening for putative exported proteins from staphylococcus aureus using alkaline phosphatase as a reporter molecule

Staphylococcus aureus causes a wide range of infections in humans, ranging from superficial skin infections to the more serious toxin-mediated diseases such as toxic shock syndrome. Owing to the increasing resistance of this bacterium to a wide range of antibiotics, the need to determine the virulence factors involved in infection is becoming more important as these molecules are potential therapeutic targets. In this study, we have screened for putative exported proteins from S. aureus on the basis that these proteins are likely to be the first point of contact between the bacterium and host during infection. We have constructed gene fusions between S. aureus DNA and a truncated version of the Escherichia coli phoA gene, and we report on the characterization of the recombinants exhibiting alkaline phosphatase activity. As well as known S. aureus proteins, we have identified a number of putative open reading frames that encode proteins similar to those from nonstaphylococcal species and also unique proteins that do not have any homologues on the current databases.     

Understanding the rise of the superbug: investigation of the evolution and genomic variation of Staphylococcus aureus

The bacterium Staphylococcus aureus is a common cause of human infection, and it is becoming increasingly virulent and resistant to antibiotics. Our understanding of the evolution of this species has been greatly enhanced by the recent sequencing of the genomes of seven strains of S. aureus. Comparative genomic analysis allows us to identify variation in the chromosomes and understand the mechanisms by which this versatile bacterium has accumulated diversity within its genome structure.     

一种蜱源性耐盐耐碱菌株Oceanobacillus oncorhynchi IMH的首次分离与鉴定

【目的】本试验以源自呼伦贝尔地区的优势蜱种草原革蜱为材料,从其体内分离得到可疑细菌,应用常规方法和分子生物学方法对该菌株进行分离及鉴定,并对其致病性进行探索,为内蒙古地区蜱虫生物多样性和环境相关性研究奠定了基础。【方法】首先,通过形态学观察,生理生化试验、药物敏感试验以及16S r RNA序列分析,并构建系统发育树,确定该菌株的分类地位;其次对昆明小鼠进行致病性实验。【结果】该菌株革兰氏染色呈G+杆菌,在高盐培养基(5%Na Cl)和p H为9的碱性培养基中生长良好;该菌对不同糖类发酵能力非常有限,只利用部分糖类(如西蒙氏枸橼酸盐试验结果为阳性)产气,但是不产酸;对个别化学药(如环丙沙星)和多数抗生素(如复方新诺明、庆大霉素、红霉素及头孢噻肟等)显示为敏感,而对抗生素卡那霉素和阿莫西林表现为耐药性;经16S r RNA基因序列和系统发育树分析发现,该菌株与GenBank数据库中已注册的多株Oceanobacillus oncorhynchi的同源性为99%以上;该菌在血平板溶血试验中呈现出不完全α溶血,而感染昆明小鼠,观察7 d无明显致病性。【结论】本试验首次分离鉴定了一株蜱源性O.oncorhynchi,并对上述菌株重新命名为O.oncorhynchi IMH,并在Gen Bank中进行注册(LC213016.1),更加丰富了Gen Bank中相关数据。     

Isolation and characterization ofAcinetobacter sp. mutants defective in exopolysaccharide biosynthesis

Nitrosoguanidine-induced mutants ofAcinetobacter sp. defective in exopolysaccharide biosynthesis did not differ from the parent strain in distinguishing physiological and biochemical properties, such as requirements for growth factors, utilization of mono- and disaccharides, and resistance to antibiotics. The genetic relation of parent and mutant strains was shown by 16S rRNA PCR analysis. The comparative study of parent and mutant strains with respect to resistance to unfavorable environmental factors confirmed our hypothesis thatAcinetobacter sp. exopolysaccharides perform protective functions. Hybridization experiments revealed the conjugal transfer of plasmid R68.45 fromPseudomonas putida BS228 (R68.45) to mutant but not to the parentAcinetobacter sp. strains. The role of theAcinetobacter sp. exopolysaccharides in providing the genetic stability of this bacterium is discussed.     

Identification and characterization of chlorpyrifos-methyl and 3,5,6-trichloro-2-pyridinol degrading Burkholderia sp. strain KR100

A chlorpyrifos-methyl (CM) degrading bacterium (designated strain KR100) was isolated from a Korean rice paddy soil and was further tested for its sensitivity against eight commercial antibiotics. Based on morphological, biochemical, and molecular characteristics, this bacterium showed greatest similarity to members of the order Burkholderiales and was shown to be most closely related to members of the Burkholderia cepacia group. Strain KR100 hydrolyzed CM to 3,5,6-trichloro-2-pyridinol (TCP) and utilized TCP as the sole source of carbon for its growth. The isolate was also able to degrade chlorpyrifos, dimethoate, fenitrothion, malathion, and monocrotophos at 300 μg/ml but diazinon, dicrotophos, parathion, and parathion-methyl at 100 μg/ml. The ability to degrade CM was found to be encoded on a single plasmid of ~50 kb, pKR1. Genes encoding resistance to amphotericin B, polymixin B sulfate, and tetracycline were also located on the plasmid. This bacterium merits further study as a potential biological agent for the remediation of soil, water, or crop contaminated with organophosphorus compounds because of its greater biodegradation activity and its broad specificity against a range of organophosphorus insecticides.     

Structural and Functional Characterization of Acinetobacter baumannii Nucleoside Diphosphate Kinase

近年来,鲍曼不动杆菌(Acinetobacter baumannii)在医院里越来越受到人们的关注,尤其是在重症监护病房(ICUs)．它以强大的多重耐药性(multiresistance)而闻名．核苷二磷酸激酶(nucleoside diphosphate kinase,NDK)是一种进化上非常保守的酶,它能催化核苷之间磷酸基团的转移．我们解析了鲍曼不动杆菌NDK野生型和C端氨基酸残基Arg141-Thr142-Arg143(RTR)截短突变体的结构．通过和黄色黏菌(Myxococcus xanthus)NDK的三维结构进行比较,推断鲍曼不动杆菌NDK的催化机制和黄色黏菌类似．通过激酶活性实验和圆二色谱实验,发现鲍曼不动杆菌NDK E28A突变体二级结构发生了改变,从而导致蛋白催化活性降低,说明Glu28是鲍曼不动杆菌NDK结构中非常关键的氨基酸残基．鲍曼不动杆菌NDK C端RTR截短突变体显示出催化活性极大的降低,这可能与C端RTR残基介导的二体间相互作用有关．虽然RTR截短突变体中的Lys33伸向了和野生型中不同的方向,和Val15产生相互作用弥补了一部分因为RTR截短丢失的相互作用,维持了RTR截短突变体和野生型类似的结构．但是,Lys33产生的相互作用依然太弱,不足以维持蛋白在催化的动态过程中整体结构的高效转换．我们解析的鲍曼不动杆菌NDK晶体高分辨率结构将有助于科学家设计针对鲍曼不动杆菌的药物．     

Differentially Expressed Outer Membrane Proteins of Vibrio alginolyticus in Response to Six Types of Antibiotics

Vibrio alginolyticus is an opportunistic pathogen that occasionally causes life-threatening infections in individuals and results in great losses in marine aquacultures of crustaceans and fish. Recently, antibiotic-resistant strains of the bacterium from clinical and environmental sources have been reported with increasing frequency. However, few reports were involved in the antibiotic resistance of this bacterium at molecular levels. In the present study, Western blotting was utilized to investigate altered OM proteins of V. alginolyticus in response to six types of antibiotics: erythromycin, kanamycin, tetracycline, streptomycin, nalidixic acid, and chloromycetin. Seventeen OM proteins have been reported here for the first time to be related to antibiotic resistance. They were porins OmpU, OmpN, putative OmpU and LamB; transport proteins VA0802, VA2212 (FadL) and VPA0860; TolC family TolC and VA1631; lipoprotein VA0449; OmpA family VPA1186 and VA0764; iron-regulated proteins OmpV, VPA1435, and VA2602; and receptor protein OmpK; hypothetical protein VA1475. Importantly, VA2212 was up-regulated in response to the five antibiotics except nalidixic acid, and VPA1186 was down-regulated in response to the six antibiotics in antibiotic-stressed bacteria. They might be potentially universal targets for designing the new drugs that inhibit multi-resistant bacteria. These findings suggested that parallel investigations into a bacterium responding to several types of antibiotics would be helpful not only for the further understanding of antibiotic-resistant mechanisms but also for the screening of valuable targets of new drugs controlling antibiotic-resistant bacteria.     

Characterisation of potential virulence markers in <Emphasis Type="Italic">Pseudomonas aeruginosa</Emphasis> isolated from drinking water

Pseudomonas aeruginosa isolates from tap water, mineral water, and artesian well water were investigated for their ability to produce different potential virulence factors or markers such as hemolysins, hemaglutinins, cytotoxins and their ability to adhere to epithelial cells and to abiotic surfaces. The susceptibility to antibiotics, human serum sensitivity and the survival of P. aeruginosa isolates in a chlorinated environment were also examined. Of the 30 isolates tested, 16 possessed the capacity to adhere to abiotic surfaces, and 28 to adhere to epithelial cells; 30 were capable of producing hemolysins, 27 produced cytotoxins, 9 hemagglutinins, and 18 were classified as serum-resistant. For the lowest concentration of chlorine (0.2 mg/l) tested, no killing of biofilm bacteria could be discerned, even after prolonged exposure to the agent. Although all the drinking water isolates were susceptible to aztreonam, cefepime, ceftazidime, ciprofloxacin, imipenem, meropenem, piperacillin-tazobactam, and polymyxin, the P. aeruginosa isolates were resistant to one or more antibiotics. The increasing prevalence of resistance in the isolates from environmental sources may have important therapeutic implications. A notable proportion of the P. aeruginosa isolates from drinking water were able to develop virulence factors, and the incidence of virulence properties was not statistically different among the three sources. A more extensive study of the virulence properties of this bacterium by toxic assays on animals should be explored. Still more interesting would be toxicity assays on immuno-deficient animals with isolates from drinking water in order to better understand the health risk these bacteria may present.     

Cloning and characterization of a thermostable superoxide dismutase from the thermophilic bacterium Rhodothermus sp. XMH10

A superoxide dismutase (SOD) gene was cloned from the thermophilic bacterium Rhodothermus sp. XMH10 for the first time and highly expressed in Escherichia coli. The Rhodothermus sp. XMH10 SOD (RhSOD) gene encodes 209 amino acids with a putative molecular weight of 23.6 kDa and a pI value of 5.53. The recombinant RhSOD was detected to be an iron type SOD and existed as a dimer on its natural status. Experiments revealed that this RhSOD showed high activity at 50–70 °C and pH 5.0. Compared to SODs from other thermophiles, it was highly thermostable, maintaining more than 90% of its activity after incubation at 70 °C for 12 h, only totally inactivated after more than 4-h incubation at 80 °C. It also showed much higher resistance to KCN, NaN₃ and H₂O₂ as compared to other SODs. Xin Wang and Haijie Yang contribute to this work equally.     

Characteristics of stress response in a mushroom-pathogenic bacterium,Pseudomonas tolaasii, during the interaction withPleurotus ostreatus and carbon/nitrogen starvation in vitro

A brown blotch bacterium,Pseudomonas tolaasii strain PT814, expresses a high degree of cross-protection against generalized stress imposed by physical/chemical treatment, H₂O₂, UV, high temperature, ethanol and NaCl during the interaction withPleurotus ostreatus. Stress resistance was also noted in the bacterium in vitro under limited carbon and nitrogen sources. In addition, changes in cell morphology from a “metabolically active” rod to an “energy-saving” spherical shape were detected during starvation and the interaction. All the changes under stress were reversible. A homologue ofrpoS (σ ^S), a regulator that controls such physiological status during starvation in other bacteria, was identified inP. tolaasii strain PT814. Data suggest that the bacterium is able to withstand a complex stress environment for its survival through changes in its metabolic pattern.