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1.

Burkholderia phage AP3 (vB_BceM_AP3) is a temperate virus of the Myoviridae and the Peduovirinae subfamily (P2likevirus genus). This phage specifically infects multidrug-resistant clinical Burkholderia cenocepacia lineage IIIA strains commonly isolated from cystic fibrosis patients. AP3 exhibits high pairwise nucleotide identity (61.7 %) to Burkholderia phage KS5, specific to the same B. cenocepacia host, and has 46.7–49.5 % identity to phages infecting other species of Burkholderia. The lysis cassette of these related phages has a similar organization (putative antiholin, putative holin, endolysin, and spanins) and shows 29–98 % homology between specific lysis genes, in contrast to Enterobacteria phage P2, the hallmark phage of this genus. The AP3 and KS5 lysis genes have conserved locations and high amino acid sequence similarity. The AP3 bacteriophage particles remain infective up to 5 h at pH 4–10 and are stable at 60 °C for 30 min, but are sensitive to chloroform, with no remaining infective particles after 24 h of treatment. AP3 lysogeny can occur by stable genomic integration and by pseudo-lysogeny. The lysogenic bacterial mutants did not exhibit any significant changes in virulence compared to wild-type host strain when tested in the Galleria mellonella moth wax model. Moreover, AP3 treatment of larvae infected with B. cenocepacia revealed a significant increase (P < 0.0001) in larvae survival in comparison to AP3-untreated infected larvae. AP3 showed robust lytic activity, as evidenced by its broad host range, the absence of increased virulence in lysogenic isolates, the lack of bacterial gene disruption conditioned by bacterial tRNA downstream integration site, and the absence of detected toxin sequences. These data suggest that the AP3 phage is a promising potent agent against bacteria belonging to the most common B. cenocepacia IIIA lineage strains.

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2.
Bacteriophages (phages) are the most abundant entities in nature, yet little is known about their capacity to acquire new hosts and invade new niches. By exploiting the Gram‐positive soil bacterium Bacillus subtilis (B. subtilis) and its lytic phage SPO1 as a model, we followed the coevolution of bacteria and phages. After infection, phage‐resistant bacteria were readily isolated. These bacteria were defective in production of glycosylated wall teichoic acid (WTA) polymers that served as SPO1 receptor. Subsequently, a SPO1 mutant phage that could infect the resistant bacteria evolved. The emerging phage contained mutations in two genes, encoding the baseplate and fibers required for host attachment. Remarkably, the mutant phage gained the capacity to infect non‐host Bacillus species that are not infected by the wild‐type phage. We provide evidence that the evolved phage lost its dependency on the species‐specific glycosylation pattern of WTA polymers. Instead, the mutant phage gained the capacity to directly adhere to the WTA backbone, conserved among different species, thereby crossing the species barrier.  相似文献   

3.
[目的]将T4噬菌体WG01宿主决定区的gp37基因片段,与另一株T4噬菌体QL01的相应基因进行同源重组,从而获得嵌合噬菌体并进行宿主谱分析,为阐明T4噬菌体的宿主谱形成机制以及快速筛选针对特定病原菌的噬菌体奠定了基础。[方法]通过同源重组的方法将WG01 gp37上的8个基因片段分别替换给QL01,用沙门氏菌作为宿主菌筛选嵌合噬菌体,并对嵌合噬菌体进行宿主谱、最佳感染复数、一步生长曲线和遗传稳定性测定。[结果]本研究共获得了5株嵌合噬菌体(QWA、QWC、QWF、QWG、QWFG)。宿主谱试验结果表明,与噬菌体QL01相比,嵌合噬菌体对21株沙门宿主菌分别可以多裂解7、8、4、10和9株菌,即嵌合噬菌体都获得了相对较宽的宿主谱,其中QWG的沙门氏菌宿主菌拓宽最多。生物学特性试验结果表明,嵌合噬菌体QWG生物学特性稳定。嵌合噬菌体QWG经连续传代培养20代,测序分析第1代和第20代嵌合噬菌体尾丝蛋白基因在传代过程中的稳定性,测序结果表明,嵌合噬菌体改造部分的基因能稳定遗传。[结论]用基因改造的方法可以产生宿主谱拓宽且能稳定遗传的嵌合噬菌体,为快速筛选针对特定病原菌的噬菌体提供了可能。  相似文献   

4.
【目的】铅黄肠球菌是医源感染的机会致病菌,可引起危及生命的败血症、脑膜炎等,但针对其噬菌体的研究尚属空白。噬菌体作为细菌病毒,具有宿主特异性。本研究首次分离到可培养的铅黄肠球菌烈性噬菌体,对其基因组序列的分析和其他特征研究为进一步探讨噬菌体与宿主的作用机制及治疗应用提供参考。【方法】噬菌体Ecf_virus_SZ01以健康人粪便中分离的铅黄肠球菌(DO55)作为宿主菌,分离自深圳市南山区未经处理的生活污水样本,利用透射电镜观察噬菌体形态并对其生物学特征和基因组特点进行研究。【结果】透射电镜显示,噬菌体Ecf_virus_SZ01头部直径约为106 nm,尾部直径约为150 nm,尾长且无伸缩性尾鞘,属长尾噬菌体科;该噬菌体的最佳感染复数为0.01;一步生长曲线显示,潜伏期约为30 min,每个受感染细胞产生子代的平均数量为50 PFU/cell;抑菌曲线显示MOI=0.01时对宿主菌具有很好的抑制效果;宿主特异性强,不能实现跨属侵染;测序结果显示其基因组为dsDNA,长度为59 409 bp,GC含量为43.2%;该噬菌体共有102个开放阅读框,BLASTn比对显示该噬菌体与NCBI数据库中其他噬菌体相似性极低。【结论】首次分离到宿主为铅黄肠球菌的噬菌体,具有潜伏期短、裂解能力强、宿主专一的特征,基因组与数据库中现有噬菌体相比十分新颖,并对其生物学特性和基因组进行了分析。  相似文献   

5.
【背景】金黄色葡萄球菌是常见的人畜共患条件致病菌,随着多耐药菌株分离率的增长,研发与抗生素作用模式不同的抗菌剂迫在眉睫。【目的】分离高效且特异性强的金黄色葡萄球菌噬菌体,对其进行功能注释,并对其编码的裂解酶进行功能验证。【方法】通过对噬菌体全基因组序列进行分析找到裂解酶基因,利用原核表达系统对其编码的2个裂解酶蛋白进行克隆,用SDS-PAGE与蛋白免疫印迹法(Western blotting)鉴定目的蛋白是否表达,并采用单斑法验证其裂解活性。【结果】本研究的噬菌体为一株新的金黄色葡萄球菌噬菌体,命名为vB_Sau_P68,该基因组全长为139 409 bp,GC含量为31.0%,编码220个开放阅读框(open reading frame,ORF),透射电镜观察具有正二十面体头部和收缩性尾部,形态学分类属于肌尾噬菌体。该噬菌体编码2个裂解酶基因,分别具有CHAP催化结构域与SH3_5结合结构域,SDS-PAGE与Western blotting表明Lys161能够表达且有裂解活性,Lys163则无法外源表达。对Lys161序列进行分析,该裂解酶无信号肽,无跨膜区域,以无规则卷曲为主。【...  相似文献   

6.
Intensive aquaculture conditions expose fish to bacterial infections, leading to significant financial losses, extensive antibiotic use and risk of antibiotic resistance in target bacteria. Flavobacterium columnare causes columnaris disease in aquaculture worldwide. To develop a bacteriophage-based control of columnaris disease, we isolated and characterized 126 F. columnare strains and 63 phages against F. columnare from Finland and Sweden in 2017. Bacterial isolates were virulent on rainbow trout (Oncorhynchus mykiss) and fell into four previously described genetic groups A, C, E and G, with genetic groups C and E being the most virulent. Phage host range studied against a collection of 227 bacterial isolates (from 2013 to 2017) demonstrated modular infection patterns based on host genetic group. Phages infected contemporary and previously isolated bacterial hosts, but bacteria isolated most recently were generally resistant to previously isolated phages. Despite large differences in geographical origin, isolation year or host range of the phages, whole-genome sequencing of 56 phages showed high level of genetic similarity to previously isolated F. columnare phages (Ficleduovirus, Myoviridae). Altogether, this phage collection demonstrates a potential for use in phage therapy.  相似文献   

7.
An unusual, spontaneous, phage sk1-resistant mutant (RMSK1/1) of Lactococcus lactis C2 apparently blocks phage DNA entry into the host. Although no visible plaques formed on RMSK1/1, this host propagated phage at a reduced efficiency. This was evident from center-of-infection experiments, which showed that 21% of infected RMSK1/1 formed plaques when plated on its phage-sensitive parental strain, C2. Moreover, viable cell counts 0 and 4 h after infection were not significantly different from those of an uninfected culture. Further characterization showed that phage adsorption was normal, but burst size was reduced fivefold and the latent period was increased from 28.5 to 36 min. RMSK1/1 was resistant to other, but not all, similar phages. Phage sensitivity was restored to RMSK1/1 by transformation with a cloned DNA fragment from a genomic library of a phage-sensitive strain. Characterization of the DNA that restored phage sensitivity revealed an open reading frame with similarity to sequences encoding lysozymes (β-1,4-N-acetylmuramidase) and lysins from various bacteria, a fungus, and phages of Lactobacillus and Streptococcus and also revealed DNA homologous to noncoding sequences of temperate phage of L. lactis, DNA similar to a region of phage sk1, a gene with similarity to tRNA genes, a prophage attachment site, and open reading frames with similarities to sun and to sequences encoding phosphoprotein phosphatases and protein kinases. Mutational analyses of the cloned DNA showed that the region of homology with lactococcal temperate phage was responsible for restoring the phage-sensitive phenotype. The region of homology with DNA of lactococcal temperate phage was similar to DNA from a previously characterized lactococcal phage that suppresses an abortive infection mechanism of phage resistance. The region of homology with lactococcal temperate phage was deleted from a phage-sensitive strain, but the strain was not phage resistant. The results suggest that the cloned DNA with homology to lactococcal temperate phage was not mutated in the phage-resistant strain. The cloned DNA apparently suppressed the mechanism of resistance, and it may do so by mimicking a region of phage DNA that interacts with components of the resistance mechanism.  相似文献   

8.
This short review highlights the complete absence of literature on lysins of bacteriophages infecting species like S. salivarius subsp. thermophilus, Pediococcus and Leuconostoc species, L. helveticus, L. acidophilus, L. plantarum and L. brevis, which are also widely used in the dairy industry. The lysins described share some similar biochemical characteristics: optimal pH and temperature, site of hydrolysis inside the peptidoglycan, and some activators and inhibitors. The cloning of the genes encoding these lysins only began in the last few years and four of them have been completely sequenced. In the future, these lysin genes could be interestingly compared to the host autolysin(s) gene(s). By contrast, the passage of phage lysins through the cytoplasmic membrane of the host cell in order to reach the peptidoglycan (via a signal sequence or the presence of a holin) seems not to be clearly resolved. The presence of a second open-reading frame upstream from the gene of the lysin, enabling a putative holin to be encoded, has already been suggested. No doubt our ever increasing knowledge about bacteriophage genome organization will help to elucidate this question. Meanwhile the obtention of a Lactococcus strain with an autolytic phenotype, using a bacteriophage lysin gene, as well as the successful use of purified PL1 lysin to obtain protoplasts of L. casei encourage us to continue to explore the field of bacteriophage lysins.  相似文献   

9.
We identified a ~30-kb genomic island (named GI8) carrying the binary toxin gene operon binA/binB on both the chromosome and large pBsph plasmid in the mosquitocidal Lysinibacillus sphaericus C3-41 strain. We found that GI8 is related to the occurrence of binA/binB within L. sphaericus and displays excision and integration capability by recognizing the attB region, which consists of a 2-nt target site (AT) flanked by an 11-nt imperfect inverted repeat. pBsph and two pBsph-like plasmids (p2362 and p1593) were found to carry a type IV secretion system (T4SS) and displayed transmissibility within a narrow host range specific to L. sphaericus. GI8 can be co-transferred with pBsph as a composite element by integration into its attB site, then excised from pBsph and re-integrated into the chromosomal attB site in the new host. The potential hosts of GI8, regardless of whether they are toxic or non-toxic to mosquito larvae, share good collinearity at the chromosomal level. Data indicated that the appearance of the mosquitocidal L. sphaericus lineage was driven by horizontal transfer of the T4SS-type conjugative plasmid and GI8 with excision and specific integration capability.  相似文献   

10.
【目的】枯草芽孢杆菌(Bacillus subtilis)是在自然界中广泛存在的革兰氏阳性菌,其抗逆性极强,能抑制大多数有害菌的繁殖,是常用的产酶菌,用其生产的蛋白酶、淀粉酶占全球工业酶产量的50%。原噬菌体(prophage)整合在宿主基因组中,可为宿主提供基因和生物学功能,非常具有研究价值。以往,有关B. subtilis原噬菌体的报道主要集中于缺陷型原噬菌体(defective prophage),本研究对一株非缺陷型活性原噬菌体(active prophage)的基因组进行解析,以扩充对非缺陷型原噬菌体的认知。【方法】使用丝裂霉素C从枯草芽孢杆菌中诱导一株噬菌体,命名为Bacillus phage Bsu-yong1(简称Bsu-yong1)。对Bsu-yong1进行负染、透射电镜(transmission electron microscopy,TEM)观察,用Illumina MiSeq测定其基因组序列、综合运用生物信息学工具对其进行基因功能注释和系统进化分析。【结果】Bsu-yong1与PBSX类缺陷型原噬菌体在形态上相似,但Bsu-yong1具有完整的噬菌体基因组,这与缺陷型原噬菌体不同,后者在包装过程中不能正确包裹自身的基因组,而是随机包裹一段宿主染色体。Bsu-yong1基因组全长为43 590 bp,G+C含量为41%,含有62个开放阅读框(open reading frame,ORF),呈模块化分布。Bsu-yong1拥有基因编码T7SS效应器LXG多态性毒素(T7SS effector LXG polymorphic toxin)、ImmA/IrrE蛋白和SMI1/KNR4蛋白。前二者为细菌毒素(toxin),后者为抗毒素(antitoxin),toxin-antitoxin是细菌免疫系统重要成员,参与菌间竞争与环境适应。此前,尚未有编码LXG polymorphic toxin的基因在噬菌体中被发现和报道。在基于全基因组比对构建的蛋白谱进化树(proteomic tree)中,Bsu-yong1与噬菌体sv105、rho14、vB_BteM-A9Y聚集形成一个独立的进化支(clade),基因组比对显示它们基因组的复制与调控模块具有高度保守性,它们共享29个核心基因(core gene),均具有PBSX样形态特征。Bsu-yong1与其他噬菌体的进化距离较远。将Bsu-yong1与所有噬菌体进行比对,得到的成对序列比较(pairwise sequence comparison,PASC)最大值为46.72%,小于属边界值(70%)。【结论】vB_Bsu-yong1在有尾纲中代表一个新的未知的属;建议构建一个新的科(family),该科由Bsu-yong1与噬菌体sv105、rho14、vB_BteM-A9Y组成。vB_Bsu-yong携带免疫相关基因,它可能有利于宿主在菌间竞争中获胜和适应环境。本研究丰富了噬菌体基因数据库,拓展了对芽孢杆菌活性原噬菌体的认知。  相似文献   

11.
A clonal population of pathogenic Vibrio parahaemolyticus O3 : K6 serovar has spread in coastal waters, causing outbreaks worldwide since 1996. Bacteriophage infection is one of the main factors affecting bacterial strain concentration in the ocean. We studied the occurrence and properties of phages infecting this V. parahaemolyticus pandemic strain in coastal waters. Analysing 143 samples, phages were found in 13. All isolates clustered in a closely related group of podophages with at least 90% nucleotide sequence identity in three essential genes, despite distant geographical origins. These bacteriophages were able to multiply on the V. parahaemolyticus pandemic strain, but the impact on host concentration and subsequent growth was negligible. Infected bacteria continued producing the phage but were not lysogenized. The phage genome of prototype strain VP93 is 43 931 nucleotides and contains 337 bp direct terminal repeats at both ends. VP93 is the first non‐Pseudomonas phage related to the ΦKMV‐like subgroup of the T7 supergroup. The lack of a major effect on host growth suggests that these phages exert little control on the propagation of the pandemic strain in the environment. This form of phage growth can be modelled if phage‐sensitive and ‐resistant cells that convert to each other with a high frequency are present in clonal cultures of pandemic V. parahaemolyticus.  相似文献   

12.
There is a lack of fundamental knowledge about the influence of bacteriophage on probiotic bacteria and other commensals in the gut. Here, we present the isolation and morphological and genetic characterization of a virulent narrow-host-range bacteriophage, φLb338-1. This phage was isolated from fresh sewage and was shown to infect the probiotic cheese strain Lactobacillus paracasei NFBC 338. Electron microscopy studies revealed that φLb338-1 is a member of the Myoviridae family, with an isometric head, a medium-sized contractile tail, and a complex base plate. Genome sequencing revealed a 142-kb genome with 199 open reading frames. Putative functions could be assigned to 22% of the open reading frames; these had significant homology to genes found in the broad-host-range SPO1-like group of phages which includes the Enterococcus faecalis phage φEF24C, Listeria phage A511, and Lactobacillus plantarum phage LP65. Interestingly, no significant genomic similarity was observed between the phage and the probiotic host strain. Future studies will determine if the presence of bacteriophage φLb338-1 or others in the human or animal gut plays an antagonistic role against the probiotic effect of beneficial bacteria.  相似文献   

13.
Polymerase chain reaction primers based on the ureC gene are described for use in detecting diverse groundwater urea-hydrolyzing bacteria. Six degenerate primers were designed and evaluated for their ability to detect the gene encoding the large catalytic subunit of urease, ureC. Five combinations of these primers were tested pair-wise and displayed an overlapping detection range for bacterial isolates. Pair L2F/L2R exhibited the greatest detection range for described bacterial species and for bacterial isolates from groundwater samples belonging to the bacterial divisions Firmicutes, Actinobacteria, and the α , β , and γ subdivisions of Proteobacteria. Primers L2F/L2R exhibited a greater detection range than previously described ureC-specific primers, and amplified novel ureC sequences from groundwater isolates in the genera Hydrogenophaga, Acidovorax, Janthinobacterium, and Arthrobacter. A comparative phylogenetic analysis of ureC and 16S rRNA genes was performed to determine the utility of groundwater ureC sequence information as a phylogenetic marker for ureolytic species. Our results were consistent with previous analyses of urease genes which demonstrated that the ureC gene has undergone lateral transfer and is not a robust phylogenetic marker. However, the ureC-specific primers, L2F/L2R, demonstrate a broad detection range for ureolytic species, and can serve to enhance functional diversity analyses of ureolytic bacteria.  相似文献   

14.
Prophage Lrm1 was induced with mitomycin C from an industrial Lactobacillus rhamnosus starter culture, M1. Electron microscopy of the lysate revealed relatively few intact bacteriophage particles among empty heads and disassociated tails. The defective Siphoviridae phage had an isometric head of approximately 55 nm and noncontractile tail of about 275 nm with a small baseplate. In repeated attempts, the prophage could not be cured from L. rhamnosus M1, nor could a sensitive host be identified. Sequencing of the phage Lrm1 DNA revealed a genome of 39,989 bp and a G+C content of 45.5%. A similar genomic organization and mosaic pattern of identities align Lrm1 among the closely related Lactobacillus casei temperate phages A2, ΦAT3, and LcaI and with L. rhamnosus virulent phage Lu-Nu. Of the 54 open reading frames (ORFs) identified, all but 8 shared homology with other phages of this group. Five unknown ORFs were identified that had no homologies in the databases nor predicted functions. Notably, Lrm1 encodes a putative endonuclease and a putative DNA methylase with homology to a methylase in Lactococcus lactis phage Tuc2009. Possibly, the DNA methylase, endonuclease, or other Lrm1 genes provide a function crucial to L. rhamnosus M1 survival, resulting in the stability of the defective prophage in its lysogenic state. The presence of a defective prophage in an industrial strain could provide superinfection immunity to the host but could also contribute DNA in recombination events to produce new phages potentially infective for the host strain in a large-scale fermentation environment.  相似文献   

15.
Conjugal transfer and autonomous replication of some episomes occurred normally in a recombination-deficient (Rec) mutant of Escherichia coli K-12. Transduction with phage Plbt of an R factor also occurred normally in this Rec mutant, but complete or abortive transduction with Plbt of chromosomal genes did not occur. In contrast, transduction of galactose genes by phage λdg occurred in the Rec bacteria as frequently as in the Rec+ strain. It was shown that phage Plbt does not grow at all on the Rec–bacteria. Recombination between two different R factors, two mutants of phage λ and two mutants of phage T4 occurred normally in the Rec bacteria, but did not give a Rec+ phenotype to the host bacteria. Colicinogenic factor I made the Rec host bacteria more resistant to ultraviolet light but the colicinogenic strain was still infertile in the crosses with the Hfr srains of E. coli K-12.  相似文献   

16.
Host specialization is a key process in ecological divergence and speciation of plant‐associated fungi. The underlying determinants of host specialization are generally poorly understood, especially in endophytes, which constitute one of the most abundant components of the plant microbiome. We addressed the genetic basis of host specialization in two sympatric subspecies of grass‐endophytic fungi from the Epichloë typhina complex: subsp. typhina and clarkii. The life cycle of these fungi entails unrestricted dispersal of gametes and sexual reproduction before infection of a new host, implying that the host imposes a selective barrier on viability of the progeny. We aimed to detect genes under divergent selection between subspecies, experiencing restricted gene flow due to adaptation to different hosts. Using pooled whole‐genome sequencing data, we combined FST and DXY population statistics in genome scans and detected 57 outlier genes showing strong differentiation between the two subspecies. Genomewide analyses of nucleotide diversity (π), Tajima's D and dN/dS ratios indicated that these genes have evolved under positive selection. Genes encoding secreted proteins were enriched among the genes showing evidence of positive selection, suggesting that molecular plant–fungus interactions are strong drivers of endophyte divergence. We focused on five genes encoding secreted proteins, which were further sequenced in 28 additional isolates collected across Europe to assess genetic variation in a larger sample size. Signature of positive selection in these isolates and putative identification of pathogenic function supports our findings that these genes represent strong candidates for host specialization determinants in Epichloë endophytes. Our results highlight the role of secreted proteins as key determinants of host specialization.  相似文献   

17.
The fish pathogen Flavobacterium psychrophilum infects farmed salmonids worldwide, and application of bacteriophages has been suggested for controlling disease outbreaks in aquaculture. Successful application of phages requires detailed knowledge about the variability in phage susceptibility of the host communities. In this study, we analysed the genetic diversity of F. psychrophilum hosts and phages from the Baltic Sea area to identify genetic determinants of phage-host interaction patterns. A host range analysis of 103 phages tested against 177 F. psychrophilum strains (18 231 phage–host interactions) identified nine phage clusters, infecting from 10% to 91% of the strain collection. The core genome-based comparison of 35 F. psychrophilum isolates revealed an extremely low overall genomic diversity (>99.5% similarity). However, a small subset of 16 ORFs, including genes involved in the type IX secretion system (T9SS), gliding motility and hypothetical cell-surface related proteins, exhibited a highly elevated genetic diversity. These specific genetic variations were linked to variability in phage infection patterns obtained from experimental studies, indicating that these genes are key determinants of phage susceptibility. These findings provide novel insights on the molecular mechanisms determining phage susceptibility in F. psychrophilum and emphasizes the importance of phages as drivers of core genomic diversity in this pathogen.  相似文献   

18.
The evolution of host–parasite interactions could be affected by intraspecies variation between different host and parasite genotypes. Here we studied how bacterial host cell‐to‐cell signaling affects the interaction with parasites using two bacteria‐specific viruses (bacteriophages) and the host bacterium Pseudomonas aeruginosa that communicates by secreting and responding to quorum sensing (QS) signal molecules. We found that a QS‐signaling proficient strain was able to evolve higher levels of resistance to phages during a short‐term selection experiment. This was unlikely driven by demographic effects (mutation supply and encounter rates), as nonsignaling strains reached higher population densities in the absence of phages in our selective environment. Instead, the evolved nonsignaling strains suffered relatively higher growth reduction in the absence of the phage, which could have constrained the phage resistance evolution. Complementation experiments with synthetic signal molecules showed that the Pseudomonas quinolone signal (PQS) improved the growth of nonsignaling bacteria in the presence of a phage, while the activation of las and rhl quorum sensing systems had no effect. Together, these results suggest that QS‐signaling can promote the evolution of phage resistance and that the loss of QS‐signaling could be costly in the presence of phages. Phage–bacteria interactions could therefore indirectly shape the evolution of intraspecies social interactions and PQS‐mediated virulence in P. aeruginosa.  相似文献   

19.
Soil viruses are important components of the carbon (C) cycle, yet we still know little about viral ecology in soils. We added diverse 13C-labelled carbon sources to soil and we used metagenomic-SIP to detect 13C assimilation by viruses and their putative bacterial hosts. These data allowed us to link a 13C-labelled bacteriophage to its 13C-labelled Streptomyces putative host, and we used qPCR to track the dynamics of the putative host and phage in response to C inputs. Following C addition, putative host numbers increased rapidly for 3 days, and then more gradually, reaching maximal abundance on Day 6. Viral abundance and virus:host ratio increased dramatically over 6 days, and remained high thereafter (8.42 ± 2.94). From Days 6 to 30, virus:host ratio remained high, while putative host numbers declined more than 50%. Putative host populations were 13C-labelled on Days 3–30, while 13C-labelling of phage was detected on Days 14 and 30. This dynamic suggests rapid growth and 13C-labelling of the host fueled by new C inputs, followed by extensive host mortality driven by phage lysis. These findings indicate that the viral shunt promotes microbial turnover in soil following new C inputs, thereby altering microbial community dynamics, and facilitating soil organic matter production.  相似文献   

20.
Four genes identified within the late operon of PBSX show characteristics expected of a host cell lysis system; they are xepA, encoding an exported protein; xhlA, encoding a putative membrane-associated protein; xhlB, encoding a putative holin; and xlyA, encoding a putative endolysin. In this work, we have assessed the contribution of each gene to host cell lysis by expressing the four genes in different combinations under the control of their natural promoter located on the chromosome of Bacillus subtilis 168. The results show that xepA is unlikely to be involved in host cell lysis. Expression of both xhlA and xhlB is necessary to effect host cell lysis of B. subtilis. Expression of xhlB (encoding the putative holin) together with xlyA (encoding the endolysin) cannot effect cell lysis, indicating that the PBSX lysis system differs from those identified in the phages of gram-negative bacteria. Since host cell lysis can be achieved when xlyA is inactivated, it is probable that PBSX encodes a second endolysin activity which also uses XhlA and XhlB for export from the cell. The chromosome-based expression system developed in this study to investigate the functions of the PBSX lysis genes should be a valuable tool for the analysis of other host cell lysis systems and for expression and functional analysis of other lethal gene products in gram-positive bacteria.  相似文献   

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