一株肺炎克雷伯菌噬菌体的生物学特性及全基因组分析

【背景】随着抗生素的广泛使用甚至滥用,细菌耐药性问题日益显著,利用噬菌体治疗耐药致病菌的方法重新开始被人们关注。【目的】对一株烈性肺炎克雷伯菌噬菌体vB_KpnP_IME279进行生物学特性研究及生物信息学分析。【方法】以一株多重耐药的肺炎克雷伯菌为宿主菌,从医院污水中分离噬菌体,应用双层平板法检测噬菌体效价、最佳感染复数(Optimal MOI)、一步生长曲线以及裂解谱,纯化后通过透射电镜观察噬菌体形态;应用蛋白酶K/SDS法提取噬菌体全基因组,使用Illumina MiSeq测序平台进行噬菌体全基因组测序,测序后对噬菌体全基因组序列进行组装、注释、进化和比较基因组学分析。【结果】分离到一株新的肺炎克雷伯菌噬菌体,命名为vB_KpnP_IME279;其最佳感染复数为0.1,一步生长曲线显示潜伏期为20 min,平均裂解量140 PFU/cell,电镜观察显示该噬菌体属于短尾噬菌体科(Podoviridae)。基因组测序表明,噬菌体基因组全长为42 518 bp,(G+C)mol%含量为59.3%。BLASTn比对结果表明,该噬菌体与目前已知噬菌体的相似性较低,基因组仅70%区域与已知噬菌体有同源性。构建噬菌体主要衣壳蛋白的基因进化树,分析了噬菌体IME279与其他短尾科噬菌体的进化关系,结果表明该噬菌体是短尾科噬菌体的一名新成员。【结论】分离鉴定了一株新的肺炎克雷伯菌噬菌体,进行了生物学特性、全基因组测序和生物信息学分析,为研究肺炎克雷伯菌噬菌体与宿主之间的相互作用关系以及治疗多重耐药细菌感染奠定了基础。     

霍乱弧菌分型噬菌体VP3基因组序列的测定与分析

测定和分析霍乱弧菌分型噬菌体VP3基因组序列,并为ElTor型霍乱弧菌两类菌株的分型方法原理提供研究基础。鸟枪法构建VP3噬菌体全基因组随机文库;测序拼接成最小重叠群,引物步移法填补缝隙序列,拼接后获得VP3全基因组序列。PCR随机扩增噬菌体DNA片段并酶切鉴定;预测可能存在的开放读码框(ORF);对VP3和相关噬菌体的DNA聚合酶基因作进化树分析,协助判定VP3的分类;对预测的部分启动子区利用报道基因进行活性分析。VP3全基因组为环状双链DNA,长度39504bp;酶切鉴定结果与序列一致。确定了49个ORF,注释了27个ORF的编码产物,其中有20个基因产物与T7样噬菌体同源,包括RNA聚合酶(RNAP)、参与DNA复制的蛋白、衣壳蛋白、尾管及尾丝蛋白、DNA包装蛋白等。DNA聚合酶(DNAP)进化树分析表明VP3与T7样噬菌体有同源性。将预测的10个启动子序列克隆到lacZ融合质粒pRS1274上,经检测均具有启动子活性。测定和分析VP3的基因组序列,基因组结构与进化树分析提示VP3属于T7噬菌体家族。     

一株产L-天冬氨酸酶大肠埃希氏菌的噬菌体分离和生物学特性

【目的】从大肠埃希氏菌CICC 11021S发酵液中分离一株噬菌体,对其生物学特性进行研究。【方法】采用双层平板法分离噬菌体CICC 80003;利用透射电镜观察噬菌体形态;提取噬菌体基因组,核酸内切酶处理并进行凝胶电泳;分析噬菌体最佳感染复数、一步生长曲线、p H和温度稳定性、宿主谱。考察CICC 80003对CICC 11021S生长和L-天冬氨酸酶活力的影响。【结果】CICC 80003噬菌斑圆形透明,有明显晕环;头部规则,直径约50-60 nm,尾部长约120-130 nm;基因组能被核酸内切酶Bam H I和Mlu I切开;最佳感染复数0.1,潜伏期5 min,裂解期25 min,平均裂解量约86个;最适p H值8.0;90°C温育15 min,噬菌体全部失活;能裂解大肠埃希氏菌和沙门氏菌的部分菌株。发生噬菌体污染时,CICC 11021S无法正常生长,基本检测不到L-天冬氨酸酶活力。【结论】CICC 80003属于长尾噬菌体科ds DNA噬菌体,液体环境中能够彻底裂解大肠埃希氏菌CICC 11021S。     

一株奥奈达希瓦氏菌烈性噬菌体的分离、纯化及鉴定

【目的】从环境中分离获得希瓦氏菌烈性噬菌体,并对其性质进行研究。【方法】以4株希瓦氏菌为宿主菌,采用双层平板法从污水样品中分离得到奥奈达希瓦氏菌MR-1烈性噬菌体M1;观察噬菌斑特征;利用超速离心法浓缩M1颗粒,进一步用氯化铯密度梯度离心纯化;采用透射电子显微镜观察纯化的M1颗粒;提取M1核酸,通过核酸酶处理分析其核酸类型及结构;绘制一步生长曲线。【结果】噬菌体M1在双层平板上形成圆形的噬菌斑,清晰透明,边缘光滑,直径为2.3 mm-2.5 mm;经电镜观察,噬菌体M1头部呈二十面体,直径约为55 nm,尾长约为170 nm,尾部可收缩,属于肌尾噬菌体科(Myoviridae);通过酶切分析表明噬菌体M1核酸为线形双链DNA;一步生长曲线显示该噬菌体感染后完成一个复制循环所需要的时间约为15-20 min。【结论】噬菌体M1属肌尾噬菌体科,研究结果为后续研究病毒在地球微生物成岩过程中所起的作用提供了实验材料。     

Isolation of endothelial cell-specific human antibodies from a novel fully synthetic scFv library

We have isolated single-chain Fv fragments directed against human endothelial cells from a novel fully synthetic human scFv library (scFv 479). This library was constructed using the variable germline segments DP47 and DPkappa9 as scaffolds. Complementarity determining regions 3 (CDR) of the variable heavy and light chain were introduced with a length of 9 amino acid residues. In total, 16 amino acid positions of all six CDRs exposed in the antigen-binding site were randomized and the library was produced from synthetic oligonucleotides encoding the entire scFv fragment. From this library endothelial-specific scFv fragments were either selected using the recombinant extracellular domain of human endoglin (CD105) or by cell selections with human dermal microvascular endothelial cells (HDMEC). These scFv fragments might be useful for the generation of vascular or tumor targeting agents in cancer therapy.     

噬菌体疗法在疾病中的应用进展

随着耐药菌在世界范围内不断传播,应用噬菌体作为有效的抗生素替代疗法重新受到研究者的关注。另一方面,人体微生物群与宿主健康的相互作用研究不断深入,靶向调控微生物群来影响人体健康成为多项研究的关注焦点,利用噬菌体靶向降低与疾病发展正相关的特征性细菌的丰度,成为肿瘤、酒精性肝病及糖尿病等非感染性疾病更精准的预防或辅助治疗策略。本文对噬菌体疗法在感染性和非感染性疾病中的应用进展进行了综述。     

Isolation and characterization of large lactococcal phage resistance plasmids by pulsed-field gel electrophoresis

Abstract Five phage-resistant Lactococcus lactis strains were able to transfer by conjugation the lactose-fermenting ability (Lac⁺) to a plasmid-free Lac⁻ L. lactis strain. In each case, some Lac⁺ transconjugants were phage-resistant and contained one or two additional plasmids of high molecular mass, as demonstrated by pulsed-field gel electrophoresis. Plasmids pPF144 (144 kb), pPF107 (107 kb), pPF118 (118 kb), pPF72 (72 kb) and pPF66 (66 kb) were characterized: they are conjugative (Tra⁺), they confer a phage-resistant phenotype and they bear lactose-fermenting ability (Lactose plasmid) except for the last two. Plasmids pPF144, pPF107 and pPF118 resulted probably from a cointegrate formation between the Lactose plasmid and another plasmid of the donor strain, whereas pPF72, pPF66 and the Lactose plasmid were distinct in the corresponding transconjugants. Plasmids pPF72 and pPF66 produced a bacteriocin. At 30°C, the phage resistance conferred by the plasmids was complete against small isometric-headed phage and partial against prolate-headed phage, except for pPF107 whose phage resistance mechanism was totally effective against both types of phages, but was completely inactivated at 40°C. Restriction maps of four of the plasmids were constructed using pulsed-field gel electrophoresis.     

Isolation of anti-MISIIR scFv molecules from a phage display library by cell sorter biopanning

While cell surface antigens represent the most common targets for antibody-based cancer therapy, isolation of new antibodies specific for these targets from single-chain Fv phage display libraries has been hindered by limitations associated with traditional selection techniques. Solid phase panning is often associated with conformational changes to the target protein due to its immobilization on plastic tubes that can limit the ability of the isolated scFv to bind to conformational epitopes and solution panning methods require the use of secondary tags that often mask desired sequences and create unintended epitopes. Commonly utilized cell-based panning methods typically yield a panel of single-chain Fv (scFv) molecules that are specific for numerous cell surface antigens, often obscuring the desired clones. Here, we describe a novel cell sorter-based system to isolate single-chain Fv molecules specific for defined antigen targets expressed on stably-transformed mammalian cells. We employed these methods to isolate promising scFv clones that bind specifically to the Müllerian inhibiting substance type II receptor, a cell surface ovarian cancer antigen that has proven to be a difficult target for selection strategies.     

Inactivation in vitro of the Escherichia coli outer membrane protein FhuA by a phage T5-encoded lipoprotein

Bacteriophage T5-encoded lipoprotein, synthesized by infected Escherichia coli cells, prevents superinfection of the host cell by this virus. The molecular basis of its ability to inactivate the receptor of phage T5, the FhuA protein, was investigated in vitro. Fully competent T5 lipoprotein, with a His tag attached to the C-terminus, was purified in detergent solution. Co-reconstitution with homogeneous FhuA protein into liposomes revealed that the lipoprotein inhibited the irreversible inactivation of phage T5 by FhuA protein. This phenomenon correlated with the inhibition of phage DNA ejection determined by fluorescence monitoring. Addition of detergent abolished the interaction between T5 lipoprotein and FhuA protein. When the signal sequence and N-terminal cysteinyl residue of the lipoprotein were removed by genetic truncation, the soluble polypeptide could be refolded and purified from inclusion bodies. The truncated lipoprotein interfered with infection of E. coli by phage T5, but only at very high concentrations. Circular dichroism spectra of both forms of T5 lipoprotein exhibited predominantly β-structure. T5 lipoprotein is sufficient for inactivation of the FhuA protein, presumably by inserting the N-terminal acyl chains into the membrane, thus increasing its local concentration. An in vitro stoichiometry of 10:1 has been calculated for the phage-encoded T5 lipoprotein to FhuA protein complex.     

Campylobacter group II phage CP21 is the prototype of a new subgroup revealing a distinct modular genome organization and host specificity

Background

The application of phages is a promising tool to reduce the number of Campylobacter along the food chain. Besides the efficacy against a broad range of strains, phages have to be safe in terms of their genomes. Thus far, no genes with pathogenic potential (e.g., genes encoding virulence factors) have been detected in Campylobacter phages. However, preliminary studies suggested that the genomes of group II phages may be diverse and prone to genomic rearrangements.

Results

We determined and analysed the genomic sequence (182,761 bp) of group II phage CP21 that is closely related to the already characterized group II phages CP220 and CPt10. The genomes of these phages are comprised of four modules separated by very similar repeat regions, some of which harbouring open reading frames (ORFs). Though, the arrangement of the modules and the location of some ORFs on the genomes are different in CP21 and in CP220/CPt10. In this work, a PCR system was established to study the modular genome organization of other group II phages demonstrating that they belong to different subgroups of the CP220-like virus genus, the prototypes of which are CP21 and CP220. The subgroups revealed different restriction patterns and, interestingly enough, also distinct host specificities, tail fiber proteins and tRNA genes. We additionally analysed the genome of group II phage vB_CcoM-IBB_35 (IBB_35) for which to date only five individual contigs could be determined. We show that the contigs represent modules linked by long repeat regions enclosing some yet not identified ORFs (e.g., for a head completion protein). The data suggest that IBB_35 is a member of the CP220 subgroup.

Conclusion

Campylobacter group II phages are diverse regarding their genome organization. Since all hitherto characterized group II phages contain numerous genes for transposases and homing endonucleases as well as similar repeat regions, it cannot be excluded that these phages are genetically unstable. To answer this question, further experiments and sequencing of more group II phages should be performed.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1837-1) contains supplementary material, which is available to authorized users.     

Fab MAbs specific to HA of influenza virus with H5N1 neutralizing activity selected from immunized chicken phage library

Hemagglutinin protein (HA) was considered to be the primary target for monoclonal antibody production. This protein not only plays an important role in viral infections, but can also be used to differentiate H5N1 virus from other influenza A viruses. Hence, for diagnostic and therapeutic applications, it is important to develop anti-HA monoclonal antibody (MAb) with high sensitivity, specificity, stability, and productivity. Nine unique Fab MAbs were generated from chimeric chicken/human Fab phage display library constructed from cDNA derived from chickens immunized with recombinant hemagglutinin protein constructed from H5N1 avian influenza virus (A/Vietnam/1203/04). The obtained Fab MAbs showed several characteristics for further optimization and development—three clones were highly specific to only H5N1 virus. This finding can be applied to the development of H5N1 diagnostic testing. Another clone showed neutralization activity that inhibited H5N1 influenza virus infection in Madin-Darby canine kidney (MDCK) cells. In addition, one clone showed strong reactivity with several of the influenza A virus subtypes tested. The conversion of this clone to whole IgG is a promising study for a cross-neutralization activity test.     

鼠疫菌噬菌体效价噬菌斑测定法的建立

目的建立鼠疫菌噬菌体噬菌斑效价测定方法。方法通过分析细菌接种浓度、孵育吸附时间及培养温度等参数,建立鼠疫菌噬菌体效价测定方法,并分析其精密性;建立鼠疫活疫苗鉴别及纯菌检查用噬菌体效价质量标准。结果经优化后确定细菌接种浓度为7×108/mL,不需孵育吸附,培养温度为29℃,所建立的检测方法精密性较好,用于鼠疫活疫苗鉴别及纯菌检查用噬菌体效价质量标准应不低于1×106PFU/mL。结论建立了鼠疫菌噬菌体噬菌斑效价测定方法,为鼠疫菌噬菌体及疫苗质量控制奠定了基础。     

一株屎肠球菌烈性噬菌体的分离鉴定及基因组测序分析

【背景】屎肠球菌为ESKAPE(由屎肠球菌、金黄色葡萄球菌、肺炎克雷伯菌、鲍曼不动杆菌、铜绿假单胞菌和肠杆菌属六大超级细菌的拉丁学名首字母组成)病原体之一,对多种抗菌药物具有耐药性,严重威胁全球人类健康,被世界卫生组织列入亟须研发新抗菌药的病原体名单。【目的】分离针对屎肠球菌的烈性噬菌体,测定其基本生物学特性并进行基因组测序分析,为屎肠球菌噬菌体疗法提供原料。【方法】从牧场污水中分离筛选出一株烈性屎肠球菌噬菌体,命名为Enterococcus phage 1A11,通过透射电镜观察噬菌体的形态,测定其最佳感染复数、一步生长曲线和裂解谱,并进行全基因组的测序和分析,以阐释该噬菌体的基本生物学特性。【结果】电镜下可观察到屎肠球菌噬菌体1A11具有典型的正二十面体头部结构和较长的尾部结构,属于有尾病毒目长尾病毒科,而且测得其最佳感染复数为0.01,裂解周期为70 min,潜伏期为30 min,暴发期为40 min,并特异性地对部分屎肠球菌产生裂解作用。噬菌体1A11的基因组大小为42 750 bp,GC含量为34.71%,含有70个推定的开放阅读框(open reading frame, O...     

Development of a noncompetitive phage anti-immunocomplex assay for brominated diphenyl ether 47

We present a new application of the noncompetitive phage anti-immunocomplex assay (PHAIA) by converting an existing competitive assay to a versatile noncompetitive sandwich-type format using immunocomplex binding phage-borne peptides to detect the brominated flame retardant, brominated diphenyl ether 47 (BDE 47). Three phage-displayed 9-mer disulfide-constrained peptides that recognize the BDE 47-polyclonal antibody immunocomplex were isolated. The resulting PHAIAs showed variable sensitivities, and the most sensitive peptide had a dose-response curve with an SC₅₀ (concentration of analyte producing 50% saturation of the signal) of 0.7 ng/ml BDE 47 and a linear range of 0.3-2 ng/ml, which was nearly identical to the best heterologous competitive format (IC₅₀ of 1.8 ng/ml, linear range of 0.4-8.5/ml). However, the PHAIA was 1400-fold better than homologous competitive assay. The validation of the PHAIA with extracts of house furniture foam as well as human and calf sera spiked with BDE 47 showed overall recovery of 80-113%. The PHAIA was adapted to a dipstick format (limit of detection of 3.0 ng/ml), and a blind test with six random extracts of local house furniture foams showed that the results of the PHAIA and dipstick assay were consistent, giving the same positive and negative detection.     

Identification of immunogenic polypeptides from a <Emphasis Type="Italic">Mycoplasma hyopneumoniae</Emphasis> genome library by phage display

The identification of immunogenic polypeptides of pathogens is helpful for the development of diagnostic assays and therapeutic applications like vaccines. Routinely, these proteins are identified by two-dimensional polyacrylamide gel electrophoresis and Western blot using convalescent serum, followed by mass spectrometry. This technology, however, is limited, because low or differentially expressed proteins, e.g. dependent on pathogen-host interaction, cannot be identified. In this work, we developed and improved a M13 genomic phage display-based method for the selection of immunogenic polypeptides of Mycoplasma hyopneumoniae, a pathogen causing porcine enzootic pneumonia. The fragmented genome of M. hyopneumoniae was cloned into a phage display vector, and the genomic library was packaged using the helperphage Hyperphage to enrich open reading frames (ORFs). Afterwards, the phage display library was screened by panning using convalescent serum. The analysis of individual phage clones resulted in the identification of five genes encoding immunogenic proteins, only two of which had been previously identified and described as immunogenic. This M13 genomic phage display, directly combining ORF enrichment and the presentation of the corresponding polypeptide on the phage surface, complements proteome-based methods for the identification of immunogenic polypeptides and is particularly well suited for the use in mycoplasma species.     

Selection and characterization of high affinity VEGFR1 antibodies from a novel human binary code scFv phage library

VEGFR1 is a receptor tyrosine kinase that has been implicated in cancer pathogenesis. It is upregulated in angiogenic endothelial cells and expressed on human tumor cells as well. VEGFR1 positive hematopoietic progenitor cells home to sites of distant metastases prior to the arrival of the tumor cells thus establishing a pre-metastatic niche. To discover high affinity human antibodies selective for VEGFR1 molecular imaging or for molecularly targeted therapy, a novel phage display scFv library was assembled and characterized. The library was constructed from the humanized 4D5 framework that was mostly comprised tyrosine and serine residues in four complimentarity determining regions (CDRs). The library produced diverse and functional antibodies against a panel of proteins, some of which are of biomedical interest including, CD44, VEGFA, and VEGFR1. After panning, these antibodies had affinity strong enough for molecular imaging or targeted drug delivery without the need for affinity maturation. One of the anti-VEGFR1 scFvs recognized its cognate receptor and was selective for the VEGFR1.     

Construction and diversity analysis of a murine IgE phage surface display library

INTR0DUCTI0NIn0urprevi0usstudy0fV5andVKfromfouranti-TCSIgEhybrid0masestab-lishedin0urlaboratory,wefoundVKfr0mallfourcl0nesusedfragmentsfromthesamegermlinegenefamilyVK21,andabiasintheuse0fJk1genefragmentwasalsoobserved.Ontheotherhand,thegeneusageofVHwaJsquitediverse.WespeculatedthatinIgEresponsest0TCS,thelightchainmayplayam0reimpor-tantroleinspecificbindingtoallergenicdeterminant0nTCS[1].However,duet0thelimitationofhybrid0matechnology,itisdifficulttoachievealargenumberofanti-TCSI…     

Core and accessory genome architecture in a group of Pseudomonas aeruginosa Mu-like phages

Background

Bacteriophages that infect the opportunistic pathogen Pseudomonas aeruginosa have been classified into several groups. One of them, which includes temperate phage particles with icosahedral heads and long flexible tails, bears genomes whose architecture and replication mechanism, but not their nucleotide sequences, are like those of coliphage Mu. By comparing the genomic sequences of this group of P. aeruginosa phages one could draw conclusions about their ontogeny and evolution.

Results

Two newly isolated Mu-like phages of P. aeruginosa are described and their genomes sequenced and compared with those available in the public data banks. The genome sequences of the two phages are similar to each other and to those of a group of P. aeruginosa transposable phages. Comparing twelve of these genomes revealed a common genomic architecture in the group. Each phage genome had numerous genes with homologues in all the other genomes and a set of variable genes specific for each genome. The first group, which comprised most of the genes with assigned functions, was named “core genome”, and the second group, containing mostly short ORFs without assigned functions was called “accessory genome”. Like in other phage groups, variable genes are confined to specific regions in the genome.

Conclusion

Based on the known and inferred functions for some of the variable genes of the phages analyzed here, they appear to confer selective advantages for the phage survival under particular host conditions. We speculate that phages have developed a mechanism for horizontally acquiring genes to incorporate them at specific loci in the genome that help phage adaptation to the selective pressures imposed by the host.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-15-1146) contains supplementary material, which is available to authorized users.