丝状噬菌体与噬菌体展示技术

丝状噬菌体的利用,在分子生物学研究以及基因工程发展中起了重大作用[1]。丝状噬菌体作为载体具有多方面的巨大应用潜力。1985年Smith[2]到最先将外源基因插入丝状噬菌体fl的基因Ⅲ,使目的基因编码的多肽能以融合蛋白的形式展水在噬菌体表面,从而创建了噬菌体展示技术。噬菌     

噬菌体治疗研究进展

噬菌体发现之初, 便被前苏联和东欧医学界用来治疗细菌感染。但是, 随着抗生素时代的到来, 人们慢慢忽略了对噬菌体的深入研究。近来, 由于全球耐药菌感染率不断攀升, 用抗生素治疗细菌感染面临了前所未有的挑战, 一些科学家和临床工作者开始重新把注意力集中到噬菌体研究上来, 并在这个领域取得了极大的进展, 尤其是通过大量的实验证明: 噬菌体可以有效地提高细菌感染的实验动物的存活率。本文就近几年国内外的科研工作者在噬菌体治疗领域所取得的进展做一综述。     

噬菌体：微小却不简单

噬菌体是专一感染细菌等微生物的病毒,是地球上多样性最高和最丰富的生物体,是生物学研究中重要的模式生物,同时是抗生素耐药菌的天然抗菌剂。噬菌体研究的相关成果极大地推动了生物学各个领域的发展。     

噬菌体治疗中细菌对噬菌体的抗性

抗生素治疗尽管有几十年有效治疗的历史,但随着越来越多耐/抗药性细菌的出现,细菌对抗生素的抗药性已成为一个大问题。噬菌体治疗是使用噬菌体作为抗菌剂来感染细菌株系,它一直是人们倡导的一个很有前途的常规抗生素治疗的替代方案。然而,由于细菌与噬菌体的协同进化中,细菌可以通过多种机制获得对噬菌体的抗性。因此,人们对噬菌体治疗抱有期望的同时,也关注噬菌体治疗长时间的使用之后,是否会与抗生素使用之后结果相类似,导致抗性细菌病原菌感染的治疗困难。综述了细菌-噬菌体协同进化中细菌病原菌对有感染能力的噬菌体是否会产生抗性,及其在噬菌体治疗中影响的争论,并展望了噬菌体治疗的潜在前景。     

噬菌体抗体技术

抗体可变区的重键基因及轻链基因与线性噬菌体的包膜蛋白蛋白基因重组后,可以在噬菌体表面表达形成具有活性的抗体片段。通过抗原的直接筛选,可以分离得到特异性强,亲和力高的抗体分子,包括人抗体。本文就噬菌体抗体文库的构建,噬菌体抗体的分离及其应用作了简要介绍。     

噬菌体肽库的构建策略

目的多肽的筛选可通过亲和筛选直接得到富集,并具有繁殖性,目前已广泛应用于多肽药物的开发,蛋白分子结构与功能的研究,疫苗研制等多种领域,特别是对于抗原决定簇的精确定位,蛋白分子之间,蛋白与核酸分子之间相互作用的结合模型和生物活性小配体的获得以及在未知蛋白分子一级结构的情况下直接获取其空间结构方面是一个非常有效的研究工具。     

前噬菌体

随着微生物基因组测序工作的广泛展开,前噬菌体在宿主菌基因组中普遍存在的事实已逐渐为人们所接受.相关研究工作的深入揭示前噬菌体并不只是细菌体内一个简单的寄生体,相反是细菌生理活动相当活跃的参与者,在宿主菌生命活动中发挥着重要的作用.对前噬菌体的深入了解将丰富人们对多种生命现象的认识.本文即是关于前噬菌体的分类、分布、鉴定、进化及其与宿主菌相互作用等知识点的一个简单综述.     

噬菌体抗体库技术的研究进展

从显示在丝状噬菌体表面的重组抗体库中选择抗体的方法已成为获得试剂、诊断及治疗的重要手段。本文介绍该技术的原理、发展及运用,但着重描述如何利用细胞筛选、改进洗脱条件、增加库容及进一步筛选以获得高亲和力抗体的方法。     

Knotting of DNA molecules isolated from deletion mutants of intact bacteriophage P4.

DNA molecules isolated from tailless phage particles (capsids) of bacteriophage P4 virl del10 are known to be knotted. We have found by electron microscopy that 80% of DNA molecules isolated from intact phage particles of P4 virl del10 also contained knots. This observation indicates that the predominant form of P4 virl del10 DNA within the intact phage particle is either knotted or in a configuration that permits knotting upon isolation. In comparison to P4 virl del10 (deleted 1000 basepairs), DNA molecules isolated from intact P4 virl del2 (deleted 650 basepairs) and P4 virl (non-deleted) contained 50% and 15% knots respectively, showing an association of decreased size of deletion of DNA with a decreased fraction of knotted genomes.     

Novel topologically knotted DNA from bacteriophage P4 capsids: studies with DNA topoisomerases.

DNA molecules isolated from bacteriophage P4 are mostly linear with cohesive ends capable of forming circular and concatemeric structures. In contrast, almost all DNA molecules isolated form P4 tailless capsids (heads) are monomeric DNA circles with their cohesive ends hydrogen-bonded. Different form simple DNA circles, such P4 head DNA circles contain topological knots. Gel electrophoretic and electronmicroscopic analyses of P4 head DNA indicate that the topological knots are highly complex and heterogeneous. Resolution of such complex knots has been studied with various DNA topoisomerases. The conversion of highly knotted P4 DNA to its simple circular form is demonstrated by type II DNA topoisomerases which catalyze the topological passing of two crossing double-stranded DNA segments [Liu, L. F., Liu, C. C. & Alberts, B. M. (1980) Cell, 19, 697-707]. The knotted P4 head DNA can be used in a sensitive assay for the detection of a type II DNA topoisomerase even in the presence of excess type I DNA topoisomerases.     

Morphological and genetic analysis of three bacteriophages of Serratia marcescens isolated from environmental water

Increases in multidrug-resistant strains of Serratia marcescens are of great concern in pediatrics, especially in neonatal intensive care units. In the search for bacteriophages to control infectious diseases caused by multidrug-resistant S. marcescens , three phages (KSP20, KSP90, and KSP100) were isolated from environmental water and were characterized morphologically and genetically. KSP20 and KSP90 belonged to morphotype A1 of the family Myoviridae , and KSP100 belonged to morphotype C3 of the family Podoviridae . Analysis of the DNA region coding virion proteins, together with their morphological features, indicated that KSP20, KSP90, and KSP100 were related to the P2-like phage (temperate), T4-type phage (virulent), and phiEco32 phage (virulent), respectively. Based on amino acid sequences of the major capsid protein, KSP90 formed a new branch with a Stenotrophomonas maltophilia phage, Smp14, in the T4-type phage phylogeny. Both Smp14 and phiEco32 have been reported as potential therapeutic phages. These results suggest that KSP90 and KSP100 may be candidate therapeutic phages to control S. marcescens infection.     

Steps in the stabilization of newly packaged DNA during phage P22 morphogenesis

The protein products of three adjacent P22 genes, 4, 10 and 26, are required for the stabilization of DNA newly packaged into P22 phage capsids. We have isolated unstable DNA containing capsids from cells infected with mutants defective in these genes. All three classes could be converted into mature phage in vitro, confirming that they represent intermediates in particle maturation. The first of the three proteins to add to the newly filled capsids is gp4, followed by gp10 and gp26. The active form of gp4 sediments at 3 S, while the active forms of both gp10 and gp26 sediment at 5 S. These soluble subunits appear to polymerize onto the newly filled capsids to form the neck of the mature phage, the channel for DNA injection. Since gp4 is the first protein to act after DNA packaging, the unstable DNA containing capsids from 4- -infected cells must represent the direct product of the packaging of DNA into procapsids. The major fraction of these capsids lost activity with a half-life of 1.1 minutes at 23 degrees C, though they were much more stable at 0 degree C. Electron microscopic observations indicated that the loss of activity was due to the DNA exiting from the incomplete capsids. The marginal stability of the condensed DNA molecules within capsids is consistent with models of ATP-driven condensation and spontaneous DNA ejection. The basis of the stability of these highly condensed molecules remains to be determined.     

Characterization of Pseudomonas aeruginosa phage KPP21 belonging to family Podoviridae genus N4‐like viruses isolated in Japan

Bacteriophages (phages) belonging to the family Podoviridae genus N4‐like viruses have been used as therapeutic agent in phage therapy against Pseudomonas aeruginosa infections. P. aeruginosa phage KPP21 was isolated in Japan, and phylogenetically investigated the phages belonging to this viral genus. Morphological and genetic analyses confirmed that phage KPP21 belongs to the family Podoviridae genus N4‐like viruses. Moreover, phylogenetic analyses based on putative DNA polymerase and major virion protein showed that P. aeruginosa phages belonging to the genus N4‐like viruses are separated into two lineages and that phage KPP21 is in the same clade as phage LUZ7.     

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。     

我国若干地区蜡样芽孢杆菌723株噬菌体分型的初步报告

四年来,作者由水中获取蜡样芽孢杆菌噬菌体13株,旨在试作噬菌体分型。待检菌株共723株,由国内16个地区提供(其中食物中毒株121株;食品株602株)。分型结果显示:C29、C30、C24、C27、C19和A_4等型别占优势。中毒株     

Argentinean Lactococcus lactis bacteriophages: genetic characterization and adsorption studies

Aims: Characterization of four virulent Lactococcus lactis phages (CHD, QF9, QF12 and QP4) isolated from whey samples obtained from Argentinean cheese plants. Methods and Results: Phages were characterized by means of electron microscopy, host range and DNA studies. The influence of Ca²⁺, physiological cell state, pH and temperature on cell adsorption was also investigated. The double‐stranded DNA genomes of these lactococcal phages showed distinctive restriction patterns. Using a multiplex PCR, phage QP4 was classified as a member of the P335 polythetic species while the three others belong to the 936 group. Ca²⁺ was not needed for phage adsorption but indispensable to complete cell lysis by phage QF9. The lactococci phages adsorbed normally between pH 5 and pH 8, and from 0°C to 40°C, with the exception of phage QF12 which had an adsorption rate significantly lower at pH 8 and 0°C. Conclusions: Lactococcal phages from Argentina belong to the same predominant groups of phages found in other countries and they have the same general characteristics. Significance and Impact of the Study: This work is the first study to characterize Argentinean L. lactis bacteriophages.     

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。     

Recombinant P4 bacteriophages propagate as viable lytic phages or as autonomous plasmids in Klebsiella pneumoniae

Summary We demonstrate the use of bacteriophage P4 as a molecular cloning vector in Klebsiella pneumoniae. A hybrid P4 phage, constructed in vitro, that contains a K. pneumoniae hisDG DNA fragment can be propagated either as a lytic viable specialized transducing phage or as an autonomous, self-replicating plasmid. Hybrid P4 genomes existing as plasmids can be readily converted into non-defective P4-hybrid phage particles by superinfection with helper phage P2. Infection of a K. pneumoniae hisD non-P2 lysogen with P4-hisD hybrid phage results in approximately 90% of the infected cells becoming stably transduced to HisD⁺. Because P4 interferes with P2 growth, high titre stocks of P4 hybrid phages are relatively free (10^-6) of P2 contamination. The hisG gene product was detected in ultraviolet light irradiated host cells infected by the P4-hisDG hybrid phage. A mutant of P4 (P4sidl) that directs the packaging of P4 DNA into P2 sized capsids should permit the construction of hybrid phages carrying 26 kilobase inserts.