阪崎肠杆菌噬菌体的分离及其生物学特性

[目的]以阪崎肠杆菌模式菌株及分离菌株为指示菌,从污水中分离出该菌噬菌体,并对其基本生物学特性进行研究.[方法]以双层琼脂法从污水中分离噬菌体,通过同属和同科参考菌株测定噬菌体的特异性和宿主谱;电镜观察噬菌体颗粒形态;随机扩增多态性DNA(RAPD)实验分析噬菌体的分子生物学特性.[结果]从污水中分离得到5株噬菌体,表现出较窄的宿主范围,仅裂解阪崎肠杆菌,以ATCC 51329分离的噬菌体SK2可裂解27株阪崎肠杆菌中的24株(89%),负染经电镜观察,5株噬菌体都是由多面体头部和尾部组成;随机引物(5′-GAAACGGGTG-3′)扩增DNA分析,5株噬菌体DNA明显不同.[结论]分离出的5株噬菌体仅对阪崎肠杆菌敏感,在阪崎肠杆菌的分型、预防、治疗、以及生态环境的净化等方面具有潜在用途.     

应用噬菌体肽库筛选能封阻霍乱噬菌体VP1转染菌细胞的寡肽

噬菌体感染细菌首先要吸附于细菌表面受体 ,从目前报道的细菌与噬菌体相互作用的研究中发现 ,这些受体包括细菌细胞外膜上的蛋白、糖脂结构和鞭毛等。霍乱弧菌是霍乱的病原体 ,高守一等 (副霍乱资料汇编 ,1 984,2 37～ 2 4 5 .)从国内分离并选择出 5株噬菌体 (VP1～VP5 ) ,根据霍乱弧菌菌株对噬菌体的敏感性不同 ,将埃尔托型霍乱弧菌分为 32个噬菌体型。结合生物学分型方法 ,可区分埃尔托型霍乱弧菌的两类不同菌株 (流行株和非流行株 )和不同菌型。对各种来源的菌株进行分型 ,可作为一种追溯传染来源、传播途径和分析流行形式的流行病学研…     

驯化噬菌体提高噬菌体对碳青霉烯类耐药肺炎克雷伯菌的杀菌能力

【目的】本研究旨在通过驯化提高噬菌体的裂解能力并降低其宿主菌耐受性产生的速度,从而提高对重要病原菌-碳青霉烯类耐药肺炎克雷伯菌(carbapenem-resistant Klebsiella pneumoniae, CRKp)的杀菌效果。【方法】以临床CRKp菌株Kp2092为宿主菌,利用双层琼脂平板法从污水中分离噬菌体并分析其裂解谱;对其中的广谱强裂解性噬菌体通过透射电镜观察其形态特征并进行全基因组测序;通过噬菌体-宿主连续培养进行噬菌体驯化,并比较驯化前后噬菌体生物学特性的差异。【结果】分离得到的9株肺炎克雷伯菌噬菌体中,噬菌体P55anc裂解能力强且裂解谱广,透射电镜观察发现其为短尾噬菌体。P55anc基因组全长40 301 bp,包含51个编码序列,其中27个具有已知功能,主要涉及核酸代谢、噬菌体结构蛋白、DNA包装和细胞裂解等。噬菌体P55anc经9 d的驯化后,得到3株驯化噬菌体。驯化后噬菌体杀菌能力增强,主要表现为细菌生长曲线显著下降、噬菌体暴发量增多、裂解谱扩大,且宿主菌对其产生抗性的概率显著降低。与此同时,驯化后的噬菌体在热处理、紫外暴露以及血清等环境下保持较好的稳定性。【结论】利用噬菌体-宿主连续培养的方法可对噬菌体进行驯化和筛选,驯化后的噬菌体杀菌效果更强,且在不同压力处理下的稳定性良好,而细菌产生噬菌体抗性的概率也降低。     

应用噬菌体GH15和K治疗金黄色葡萄球菌感染

[目的]研究金黄色葡萄球菌噬菌体GH15和K的生物学特性及联合用于治疗金黄色葡萄球菌感染的潜力.[方法]通过透射电镜观察噬菌体GH15和K的形态;测定二者的裂解谱和一步生长曲线;通过体外裂解实验和体内治疗实验分别测定单独使用GH15、K及二者混合使用时的裂解能力和对菌血症小鼠的保护效果.[结果]通过电镜观察发现两个噬菌体的外形相似,但GH15的尾部比K的长.GH15裂解谱较宽,可以裂解28株金葡菌,而K仅能裂解7株金葡菌.通过对两株噬菌体感染7株共同宿主菌形成的一步生长曲线进行拟合曲线分析,表明二者对不同宿主菌的增殖趋势是不同的.在体外,混合噬菌体与单个噬菌体的抑菌活性无明显差别;在体内实验中,混合噬菌体表现出优于单个噬菌体的治疗效果,用较低的剂量即可以达到高剂量单个噬菌体的治疗效果.[结论]GH15和K所形成的混合噬菌体在治疗金黄色葡萄球菌感染具有更大的应用潜力.     

快速从医院废水中大规模分离铜绿假单胞杆菌噬菌体

目的:从医院废水中快速分离多株不同的铜绿假单胞杆菌噬菌体,研究其生物学特性,为建立铜绿假单胞杆菌噬菌体库做准备。方法:利用噬菌斑法从未经处理的医院污水中分离和鉴定铜绿假单胞杆菌噬菌体,根据感染谱的不同确定它们为不同的铜绿假单胞杆菌噬菌体;重点研究其中一株宿主谱较广的噬菌体的生物学特性,采用负染法电镜观察噬菌体的形态和大小,提取该噬菌体的基因组并进行酶切电泳分析,测定噬菌体感染复数并观察其一步生长曲线。结果:通过噬菌斑法分离出90株铜绿假单胞杆菌噬菌体。电镜观察显示,噬菌体Pa27P1头部呈立体对称,有一长尾;酶切结果显示,噬菌体Pa27P1的基因组为双链DNA;生长曲线表明噬菌体Pa27P1感染宿主菌的潜伏期为25 min,爆发时间为25 min,裂解量为514。结论:90株铜绿假单胞杆菌噬菌体中有5株具有较广的噬菌谱,其组合能裂解所有18株铜绿假单胞杆菌,为深入研究铜绿假单胞杆菌噬菌体的生物学特性及其功能提供了依据。     

噬菌体ΦEc-SL25对大肠埃希菌临床分离株裂解作用的研究

目的分离鉴定大肠埃希菌噬菌体并分析其裂解特性,为噬菌体疗法应用于大肠埃希菌感染提供实验依据。方法采用双层琼脂噬斑法从污水中分离噬菌体,通过透射电镜观察噬菌体的形态学特征,利用限制性酶切图谱初步分析噬菌体的基因组,测定噬菌体对宿主菌的最佳感染复数和一步生长曲线,分析噬菌体对宿主菌的裂解谱,观察噬菌体在不同的pH及温度下对宿主菌的裂解特性,SDS-PAGE分析噬菌体的主要和次要蛋白。结果通过噬斑法从污水中分离出1株能裂解大肠埃希菌的噬菌体,命名为ΦEc-SL25;电镜显示,噬菌体ΦEc-SL25的形态特征符合有尾病毒目、管尾病毒科噬菌体;ΦEc-SL25的最佳感染复数为0.01;一步生长曲线表明,噬菌体ΦEc-SL25的潜伏期为5 min,爆发期为10 min;ΦEc-SL25对26株大肠埃希菌的裂解率可达30.8%;在温度70℃20min时以及在pH 4~10的范围内,噬菌体ΦEc-SL25仍保持其裂解活性;蛋白电泳可观察到2条主要蛋白带和至少3条次要蛋白。结论噬菌体ΦEc-SL25是一种潜伏期短、裂解较性强的毒性噬菌体,可用于开发针对大肠埃希菌感染的生物制剂。     

一株裂解性奶牛乳房炎源大肠杆菌噬菌体的分离鉴定及生物学特性分析

【目的】从新疆石河子地区奶牛粪样中分离裂解性大肠杆菌噬菌体(Escherichia coli phage),对其进行纯化及生物学特性分析。【方法】利用双层平板法从奶牛粪样中分离、纯化噬菌体,将纯化后的噬菌体浓缩液用醋酸双氧铀负染后通过透射电子显微镜观察其形态特征。对该噬菌体进行全基因组测序和遗传进化分析,同时测定噬菌体的宿主谱、最佳感染复数、一步生长曲线、热稳定性及酸碱稳定性。【结果】分离并纯化出一株裂解性噬菌体vB_EcoM_XJ2,噬菌斑圆形不透明,直径0.7 mm–1.2 mm;电镜显示其头部呈正多面体对称,有可伸缩性尾部;核酸类型为双链DNA,基因组大小为75.617 kb,G+C%含量为42.09%;其核酸序列与大肠杆菌噬菌体NJ01和vB_EcoP_SU10相似性高达94%。生物学特性研究显示该噬菌体能裂解多株临床分离的大肠杆菌;能耐受60°C左右高温,在pH 5.0–11.0范围内效价稳定;最佳感染复数为0.1,潜伏期为15 min,暴发期为95 min,裂解量约为10.6 PFU/cell。【结论】vB_EcoM_XJ2是一株在不同温度、不同酸碱性环境中有较强适应能力的裂解性肌尾科大肠杆菌噬菌体。     

一株宽谱裂解性溶藻弧菌噬菌体ФV170的分离鉴定及生物学特性

【背景】溶藻弧菌(Vibrio alginolyticus)是水产养殖中重要的条件致病菌,对海水养殖业造成了极大的危害。传统的抗生素疗法引发的耐药问题已经成为全球面临的严峻挑战之一,而作为可替代抗生素的噬菌体疗法已被证实能够有效治疗弧菌病。【目的】深入研究溶藻弧菌噬菌体ФV170的生物学特性,为该菌株在水产动物病害控制中的应用提供数据支持。【方法】以溶藻弧菌V170为宿主菌,采用斑点法从凡纳滨对虾养殖水体中筛选噬菌体,并以双层平板法对噬菌体进行纯化、生长、效价等方面的研究;利用电镜观察噬菌体形态;通过酶切方法分析噬菌体的基因组大小及其类型。【结果】分离得到一株宽谱裂解性噬菌体ФV170,其噬菌斑边缘整齐且通透,12 h直径达1.5 mm。鉴定结果显示,噬菌体ФV170头部为正廿面体的立体对称结构,直径为60 nm-65 nm,尾部长为65 nm-75 nm,宽14 nm-18 nm,核酸类型为dsDNA,基因组大小约为45 kb,对氯仿不敏感,属于有尾噬菌体目(Caudovirales)肌尾噬菌体科(Myoviridae)。此外,噬菌体ФV170可裂解15株溶藻弧菌中的7株,属于种内宽谱;最佳感染复数为0.01;一步生长曲线显示潜伏期为10 min,裂解量为101.3;对65°C以上温度敏感。【结论】分离得到一株宽谱裂解性溶藻弧菌噬菌体,该噬菌体具有治疗海水养殖过程中溶藻弧菌病的潜力。     

El Tor型CTXΦ对O1群不同霍乱弧菌的转染性研究

研究丝状噬菌体CTXΦ对O1群不同霍乱弧菌的水平转移效率及菌株的噬菌体免疫能力。利用带有氯霉素抗性基因遗传标记的CTXETΦ感染颗粒对O1群的4株不同霍乱弧菌进行体外和体内转染实验,根据氯霉素抗性筛选转染子,通过Southern Blot等方法进行验证并判断CTXΦ基因组的存在形式,计算比较不同菌株的转染率,分析转染及噬菌体免疫机制。带有遗传标记的CTXETΦ对古典型霍乱弧菌1119的体内转染率高于体外;体内转染实验中,古典菌株1119的转染率远高于其它3株El Tor型霍乱弧菌;在El Tor型霍乱弧菌中,不含rstR基因的IEM101的转染率高于另外两株带有rstR基因的霍乱弧菌2~3个数量级。古典型霍乱弧菌比El Tor型菌株对CTXETΦ噬菌体颗粒更易感,TCP菌毛的表达和rstR基因介导的噬菌体免疫影响CTXΦ在霍乱弧菌中的水平转移。     

副溶血弧菌噬菌体Vpas_PP24的分离鉴定及生物学特性

【背景】副溶血弧菌是南美白对虾养殖中常见的致病菌,传统的抗生素防治办法不仅低效,而且越来越难以满足食品安全和绿色环保及可持续发展的要求。副溶血弧菌的生物防治是南美白对虾养殖业可持续发展的必由之路。噬菌体是天然安全的活体抗菌剂,因其对特定细菌的专一性感染和高效性裂解而备受关注。【目的】分离一株能高效裂解副溶血弧菌的烈性噬菌体,为探索副溶血弧菌的噬菌体防治方法提供基础研究。【方法】以28株病虾来源的副溶血弧菌为宿主菌,用双层琼脂平板法从海鲜市场污水中分离副溶血弧菌噬菌体;点斑法测定噬菌体的裂解谱,并对筛选到的宽裂解谱噬菌体进行透射电镜(transmission electron microscopy,TEM)观察、生物学特性测定和全基因组序列分析。【结果】分离筛选到一株副溶血弧菌烈性噬菌体,命名为Vpas_PP24。透射电镜观察显示该噬菌体头部为二十面体,有一长尾,头部长约92 nm,宽约46 nm,尾部长约147 nm,属于有尾噬菌体目长尾噬菌体科。其基因组全长83 482 bp,预测有118个开放阅读框(open reading frames,ORFs),具有已知功能的有13个,不含非编码RNA、毒力基因及抗生素抗性基因。基因组一致性对比显示噬菌体Vpas_PP24可能为弧菌噬菌体的一个新种。Vpas_PP24对28株副溶血弧菌的裂解率为54%,对其他种属的116株弧菌的总裂解率为16%;最佳感染复数(multiplicity of infection,MOI)为0.000 1,效价可达3.0×10¹⁰ PFU/mL。一步生长曲线显示Vpas_PP24的潜伏期为10 min,暴发期为150 min,暴发量为30 PFU/cell。该噬菌体在温度<50 ℃、pH 4.0-11.0范围内活性稳定,对糜蛋白酶、木瓜蛋白酶和对虾肝胰腺酶提取液的水解作用不敏感,但蛋白酶K可快速使其失活,紫外辐照也能使Vpas_PP24失活。宿主菌对该噬菌体的不敏感突变频率为2×10^-5。【结论】分离筛选到一株裂解谱较宽、基因型较新、生物学性质较稳定的副溶血弧菌噬菌体,该噬菌体具有进一步开发成为新型副溶血弧菌抗菌剂的潜力。     

Comparative characteristics of the preparations of hemolysin of ctx+ and ctx- Vibrio cholerae eltor and Vibrio cholerae O139 strains

Hemolysin of ctx+ Vibrio cholerae strains was obtained and studied. Ctx+ Vibrio cholerae O1 and O139 strains produced the hemolysin during cultivation in triptone medium without FeCl3. Mol.wt. and the spectrum of lytic activities of hemolysins of ctx+ Vibrio cholerae did not differ from hemolysins of ctx- strains.     

Characterization of a Vibrio cholerae phage isolated from the coastal water of Peru

A Vibrio cholerae bacteriophage, family Myoviridae, was isolated from seawater collected from the coastal water of Lima, Peru. Genome size was estimated to be 29 kbp. The temperate phage was specific to V. cholerae and infected 12/13 V. cholerae O1 strains and half of the four non-O1/non-O139 strains tested in this study. Vibrio cholerae O139 strains were resistant to infection and highest infection rates were obtained in low nutrient media amended with NaCl or prepared using seawater as diluent.     

Studies concerning the hemagglutinant activity of some pathogenic and opportunistic pathogenic strains of genus Vibrio

1606 bacterial strains, belonging to Vibrio genus (189 V. cholerae 0 : 1; 1091 V. cholerae nongroup 0 : 1 and 205 V. halophilic strains) of different sources of isolation, were studied, concerning their hemagglutinating behaviour to 5 different animal red blood cells (human, bovine, chicken, African green monkey and guinea pig) in mannose/fucose presence/absence. The study aimed to establish the spectrum of their hemagglutinating activity as well as any possible correlation between the source of isolation, serogroup etc and the HA-type/subtype. Mannose/fucose sensitive as well as mannose/fucose resistant hemagglutinins were exhibited by the different tested strains. As unknown behaviour, a noticeable hemagglutination only in the carbohydrate presence was recorded. The HA-types and subtypes in 861 V. cholerae nongroup 0 : 1 tested strains are presented.     

噬菌体裂解细菌过程中冷光实时监测活菌方法的建立

产毒素的霍乱弧菌Vibrio cholerae可导致严重腹泻,已引起7次全球大流行.对于烈性噬菌体清除霍乱弧菌的效果评价上,一般使用传统的活细胞培养计数及噬菌斑进行观察分析,但操作费时耗力,尤其不能实时获得菌株被裂解及残存细胞的数量变化.进一步探索简便、能够实时监测噬菌体裂解霍乱弧菌的方法是非常必要的.利用荧光报告质粒...     

Distribution of Vibrio cholerae virulence genes among different Vibrio species isolated in Sardinia, Italy

The members of the genus Vibrio include harmless aquatic strains as well as strains capable of causing epidemics of cholera. Diarrhoea caused by Vibrio cholerae is attributed to cholerae enterotoxin (CT) codified by the ctx operon and regulated by a number of virulence genes such as toxT, toxR and toxS. Fifty-two Vibrio strains were isolated from different aquatic environments in and around Sardinia and searched by PCR for the presence of ctxA, zot, ace, toxR, toxS, toxT, tcpA and vpi virulence genes in the genomes of the isolates. The toxR operon was found in 27 Vibrio alginolyticus strains out of 42 analysed, in three out of four V. cholerae non-O1 strains and in three Vibrio parahaemolyticus isolates. A positive amplification for the virulence pathogenic island (vpi) was produced by five V. alginolyticus strains. Finally, the ace expected amplification fragment was found in two V. alginolyticus isolates whereas the amplification with zot primers produced the expected fragment in one V. alginolyticus isolate. Differentiation of these strains with a PCR fingerprinting technique revealed no association between the presence of virulence genes and a particular fingerprinting pattern. Although most Vibrio species are considered non-pathogenic or only potentially harmful to humans, the finding of V. cholerae virulence genes in other members of the genus Vibrio, and the recent reports of the creation and evolution of pandemic strains of V. cholerae, may give a new perspective to the significance of these results.     

The use of liposomes for detection of the surface lipopolysaccharide antigen, Vibrio cholerae cells, and antibodies against them

A test system for determination of Vibrio cholerae cells, surface O-antigen, and antibodies against them was developed on the basis of complement-dependent lysis of liposomes sensitized by the lipopolysaccharide-dependent antigen from Vibrio cholerae 569B. The factors that affect the function of the liposomal reagent were studied, and the conditions for detecting antibodies and antigenic material were optimized. This system is highly specific and sensitive to be used for the determination of anticholeraic antibodies (30-50 times as effective as agglutination tests), lipopolysaccharide antigen (100 ng/ml, which corresponded to 3.0 ng of lipopolysaccharide in the sample studied), and Vibrio cholerae cells (3.3 x 10(7) m.b./ml, which corresponded to 10(6) m.b. in sample). It takes 30-40 min to detect the lipopolysaccharide antigen and 90 min to detect V. cholerae cells.     

Evaluation of the multitest medium for rapid presumptive identification of Vibrio cholerae from environmental sources

The multitest V. cholerae medium (VC medium) for rapid presumptive identification of Vibrio cholerae was evaluated. On the basis of reactions in the VC medium, 379 strains recovered during a yearlong ecological study in Calcutta were presumptively identified as V. cholerae. Further phenotypic characterization of these strains revealed that the reactions of 371 (97.9%) isolates were consistent with that of V. cholerae. False-positive reactions were exhibited by eight (2.1%) strains, three of which were identified as Vibrio fluvialis biotype 1. By slightly varying the basic formulation of the VC medium, we could eliminate some false-positive reactions. On the basis of the present evaluation, we recommend the routine use of the VC medium.     

DNA环介导恒温扩增技术快速检测霍乱弧菌

霍乱弧菌是一种重要的食源性致病菌,主要引起急性肠道传染病,其快速检测具有重要意义。根据霍乱弧菌的mdh管家基因序列,设计2对特异性检测引物,利用DNA环介导恒温扩增技术(Loop-mediated isothermal amplification,LAMP),经反应体系优化,成功建立了霍乱弧菌的LAMP快速检测方法。该方法最佳反应温度为65℃,60min完成检测,对培养菌的检测限为25CFU/mL,污染食品中霍乱弧菌的检测限为32CFU/g。对33株同种或近源细菌进行LAMP检测,仅霍乱弧菌得到阳性扩增。LAMP方法实践应用结果表明,对1057份虾、蟹、牡蛎、肉类、人腹泻物等样本进行检测,共检出85份阳性,与国际标准(ISO TS21872-1-2007)检测结果的符合率为100%。结果表明,本研究建立的霍乱弧菌LAMP检测方法特异性强、灵敏度高、操作简便,有利于霍乱弧菌疫情的监测。     

Evaluation of the multitest medium for rapid presumptive identification of Vibrio cholerae from environmental sources.

The multitest V. cholerae medium (VC medium) for rapid presumptive identification of Vibrio cholerae was evaluated. On the basis of reactions in the VC medium, 379 strains recovered during a yearlong ecological study in Calcutta were presumptively identified as V. cholerae. Further phenotypic characterization of these strains revealed that the reactions of 371 (97.9%) isolates were consistent with that of V. cholerae. False-positive reactions were exhibited by eight (2.1%) strains, three of which were identified as Vibrio fluvialis biotype 1. By slightly varying the basic formulation of the VC medium, we could eliminate some false-positive reactions. On the basis of the present evaluation, we recommend the routine use of the VC medium.     

Sensitivity of Vibrio cholerae to the lethal and mutagenic effects of UV-irradiation mediated by the presence of plasmids

The effect of UV-irradiation on Vibrio cholerae cells and its changes mediated by the plasmid R245 have been studied. Vibrio cholerae strains 569B and RV31 have been shown to be considerably more sensitive to lethal effect of UV-irradiation as compared with Escherichia coli and Salmonella typhimurium cells. Highly toxigenic strain 569B and practically atoxigenic strain RV31 have the same UV-sensitivity. Lethal effect of UV-irradiation on Vibrio cholerae cells is increased when the irradiated cells are plated on enriched media. UV-induction of mutations was not registered in plasmidless strains of Vibrio cholerae. Plasmid R245 increases UV-resistance of vibrio cells and makes them UV-mutable.