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1.
Chen D  Zhang W  Zhu ZD  Huang Y  Wang P  Zhou BB  Yang XN  Xiao HS  Zhang QH 《遗传》2010,32(12):1296-1303
文章旨在建立一种基因组目标靶序列捕捉文库的方法,并结合第二代测序技术,以实现候选基因区段的深度测序。利用Agilent公司的eArray在线平台,对1250个基因的11824个外显子共2414977bp的基因组序列进行120个碱基长度的捕捉探针(钓饵)设计,并制备成SureSelect液相靶序列捕获试剂。选用2例人基因组DNA,超声打断后末端补平并磷酸化,连接SOLiD接头,回收150bp~200bp的DNA片段,与靶序列探针杂交捕获目标序列,油包水微乳滴PCR扩增后,磁珠分离富集,上SOLiD测序系统通过工作流程分析(WFA)进行文库质量的评价,或正式测序反应。结果显示对所包含的11147个基因外显子片段设计出并合成了46509个捕捉探针,制备成SureSelect试剂盒。探针可有效地捕捉并富集基因组DNA的目标靶片段,定量PCR显示富集效率可达29倍。WFA分析表明文库可以在SOLiD仪器进行正式测序。测序结果显示靶序列区域的测序数占有效总测序数的比例达到70%,覆盖率均在200×以上。结果表明本研究所建立的SureSelect基因组靶序列捕捉、富集建立测序文库的技术路线可行,可直接用于SOLiD测序仪的测序。  相似文献   

2.
Whole genome sequencing of viruses directly from clinical samples is integral for understanding the genetics of host-virus interactions. Here, we report the use of sample sparing target enrichment (by hybridisation) for viral nucleic acid separation and deep-sequencing of herpesvirus genomes directly from a range of clinical samples including saliva, blood, virus vesicles, cerebrospinal fluid, and tumour cell lines. We demonstrate the effectiveness of the method by deep-sequencing 13 highly cell-associated human herpesvirus genomes and generating full length genome alignments at high read depth. Moreover, we show the specificity of the method enables the study of viral population structures and their diversity within a range of clinical samples types.  相似文献   

3.
New DNA viruses identified in patients with acute viral infection syndrome   总被引:11,自引:0,他引:11  
A sequence-independent PCR amplification method was used to identify viral nucleic acids in the plasma samples of 25 individuals presenting with symptoms of acute viral infection following high-risk behavior for human immunodeficiency virus type 1 transmission. GB virus C/hepatitis G virus was identified in three individuals and hepatitis B virus in one individual. Three previously undescribed DNA viruses were also detected, a parvovirus and two viruses related to TT virus (TTV). Nucleic acids in human plasma that were distantly related to bacterial sequences or with no detectable similarities to known sequences were also found. Nearly complete viral genome sequencing and phylogenetic analysis confirmed the presence of a new parvovirus distinct from known human and animal parvoviruses and of two related TTV-like viruses highly divergent from both the TTV and TTV-like minivirus groups. The detection of two previously undescribed viral species in a small group of individuals presenting acute viral syndrome with unknown etiology indicates that a rich yield of new human viruses may be readily identifiable using simple methods of sequence-independent nucleic acid amplification and limited sequencing.  相似文献   

4.
Targeted sequencing is a cost-efficient way to obtain answers to biological questions in many projects, but the choice of the enrichment method to use can be difficult. In this study we compared two hybridization methods for target enrichment for massively parallel sequencing and single nucleotide polymorphism (SNP) discovery, namely Nimblegen sequence capture arrays and the SureSelect liquid-based hybrid capture system. We prepared sequencing libraries from three HapMap samples using both methods, sequenced the libraries on the Illumina Genome Analyzer, mapped the sequencing reads back to the genome, and called variants in the sequences. 74-75% of the sequence reads originated from the targeted region in the SureSelect libraries and 41-67% in the Nimblegen libraries. We could sequence up to 99.9% and 99.5% of the regions targeted by capture probes from the SureSelect libraries and from the Nimblegen libraries, respectively. The Nimblegen probes covered 0.6 Mb more of the original 3.1 Mb target region than the SureSelect probes. In each sample, we called more SNPs and detected more novel SNPs from the libraries that were prepared using the Nimblegen method. Thus the Nimblegen method gave better results when judged by the number of SNPs called, but this came at the cost of more over-sampling.  相似文献   

5.
Viral infections cause many different diseases stemming both from well-characterized viral pathogens but also from emerging viruses, and the search for novel viruses continues to be of great importance. High-throughput sequencing is an important technology for this purpose. However, viral nucleic acids often constitute a minute proportion of the total genetic material in a sample from infected tissue. Techniques to enrich viral targets in high-throughput sequencing have been reported, but the sensitivity of such methods is not well established. This study compares different library preparation techniques targeting both DNA and RNA with and without virion enrichment. By optimizing the selection of intact virus particles, both by physical and enzymatic approaches, we assessed the effectiveness of the specific enrichment of viral sequences as compared to non-enriched sample preparations by selectively looking for and counting read sequences obtained from shotgun sequencing. Using shotgun sequencing of total DNA or RNA, viral targets were detected at concentrations corresponding to the predicted level, providing a foundation for estimating the effectiveness of virion enrichment. Virion enrichment typically produced a 1000-fold increase in the proportion of DNA virus sequences. For RNA virions the gain was less pronounced with a maximum 13-fold increase. This enrichment varied between the different sample concentrations, with no clear trend. Despite that less sequencing was required to identify target sequences, it was not evident from our data that a lower detection level was achieved by virion enrichment compared to shotgun sequencing.  相似文献   

6.
Multiple receptors within the innate immune system have evolved to recognize nucleic acids as signatures of viral infection. It is believed that this specificity is essential for viral detection, as viruses often lack other invariant features that can serve as suitable targets for innate receptors. One such innate receptor, TLR9, has been implicated in the detection of many dsDNA viruses. In this study, we investigate the detection of murine gammaherpesvirus 68 (MHV68) by TLR9. We find that the genomic DNA of the murine CMV, a very potent inducer of innate responses. Genome-wide analysis of the number of stimulatory versus nonstimulatory CpG motifs present in the genome of each virus reveals that the MHV68 genome contains only a fraction of the number of immunostimulatory motifs present in murine CMV. Notably, MHV68 appears to have selectively suppressed the number of stimulatory motifs through cytosine to thymine conversion. These data suggest that certain viruses may have evolved and modified their genomic content to avoid recognition by nucleic acid-sensing receptors of the innate immune system.  相似文献   

7.
8.
Mizutani T 《Uirusu》2007,57(2):217-225
We developed a new system for detection of viral nucleic acids because rapid detection of pathogens is necessary to prevent potential outbreaks of infectious diseases. This system, named rapid determination of viral RNA sequences (RDV), involves whole-genome amplification and a new direct sequencing technique. Using the RDV system, it is possible to obtain viral nucleic acid sequences within 2 days. The nucleic acid sequences of SARS-CoV and West Nile virus, which represent emerging and re-emerging infectious viruses, were determined from infectious viral culture supernatant by the RDV method. We demonstrated the clinical application of this system in human specimens and its diagnostic usage in mosquitoes. Furthermore, new adenovirus and herpesvirus were found in bats using the RDV method.  相似文献   

9.
10.
Microbial communities play an important role in organismal and ecosystem health. While high‐throughput metabarcoding has revolutionized the study of bacterial communities, generating comparable viral communities has proven elusive, particularly in wildlife samples where the diversity of viruses and limited quantities of viral nucleic acid present distinctive challenges. Metagenomic sequencing is a promising solution for studying viral communities, but the lack of standardized methods currently precludes comparisons across host taxa or localities. Here, we developed an untargeted shotgun metagenomic sequencing protocol to generate comparable viral communities from noninvasively collected faecal and oropharyngeal swabs. Using samples from common vampire bats (Desmodus rotundus), a key species for virus transmission to humans and domestic animals, we tested how different storage media, nucleic acid extraction procedures and enrichment steps affect viral community detection. Based on finding viral contamination in foetal bovine serum, we recommend storing swabs in RNAlater or another nonbiological medium. We recommend extracting nucleic acid directly from swabs rather than from supernatant or pelleted material, which had undetectable levels of viral RNA. Results from a low‐input RNA library preparation protocol suggest that ribosomal RNA depletion and light DNase treatment reduce host and bacterial nucleic acid, and improve virus detection. Finally, applying our approach to twelve pooled samples from seven localities in Peru, we showed that detected viral communities saturated at the attained sequencing depth, allowing unbiased comparisons of viral community composition. Future studies using the methods outlined here will elucidate the determinants of viral communities across host species, environments and time.  相似文献   

11.
建立一种高通量的基因微阵列检测技术,对常见呼吸道病毒感染进行监控.根据公开发表的8个病毒科38种常见呼吸道病毒的序列,计算其保守区域,设计病毒的特异性检测探针,制备呼吸道病毒检测基因微阵列.利用随机引物PCR方法标记样品中的病毒靶序列,标记产物与基因微阵列上的探针杂交,清洗、扫描后进行结果分析.采用流感病毒、麻疹病毒、腮腺炎病毒和风疹病毒作为报告病毒,并对80例上呼吸道感染患者的咽拭子标本进行验证测试.初步结果表明,该呼吸道病毒微阵列基因芯片检测是可行的,在利用基因微阵列技术对病毒监控方面进行了有益的尝试,得到了有经验的信息.  相似文献   

12.
近年来,CRISPR/Cas系统已经成为转录调控和基因组编辑的重要工具。除了在基因编辑领域的贡献,CRISPR/Cas系统独特的靶核酸顺式切割和非特异性单链核酸反式切割能力,在开发核酸检测的新型生物传感器方面展现出巨大潜力。构建基于CRISPR/Cas系统高灵敏度生物传感器的关键通常依赖其与不同信号扩增策略,诸如核酸扩增技术或特定信号转导方法的结合。基于此,本文旨在通过介绍不同类型的CRISPR/Cas系统,全面概述基于该系统的核酸检测生物传感器的研究进展,并重点对结合核酸扩增技术(PCR、LAMP、RCA、RPA和EXPAR)、灵敏的信号转导方法(电化学和表面增强拉曼光谱)和特殊结构设计生物传感的三大类型信号放大策略的CRISPR/Cas生物传感器进行总结和评论。最后,本文对目前的挑战以及未来的前景进行展望。  相似文献   

13.
适配体(Aptamers)是通过指数富集的配体系统进化(systematic evolution of ligands by exponential enrichment,SELEX)技术,从随机核酸文库中筛选出来的单链寡核苷酸,已在临床医疗及其他领域得到日益广泛的应用.与抗体相比,适配体具有很多优点,如高亲和力、高特异性、分子量小、几乎无免疫排斥反应、结构稳定、易于合成等.可用于适配体筛选的靶标范围非常广,包括有机小分子、蛋白、完整细胞及病毒颗粒等.迅速可靠的病原检测对于病毒性传染病的成功预防和治疗具有重要意义.随着严格筛选和快速分离技术的进步,适配体在病毒感染的检测治疗中显示出巨大的潜力.本文概括介绍了适配体在病毒研究方面的最新应用进展及未来前景.  相似文献   

14.
基因扩增产物的固相杂交-酶联显色方法的建立   总被引:3,自引:0,他引:3  
建立基于基因扩增技术的简便、快速的病毒核酸定量检测方法.将标记有生物素的寡核苷酸引物所扩增的病毒基因产物,与通过共价键结合在微孔反应板上的特异性探针进行快速杂交,然后通过辣根过氧化物酶标记的抗生物素进行酶联显色,读取光密度值.应用本方法对血清中乙型、丙型肝炎病毒核酸定量检测,灵敏度分别可达1-5拷贝/反应.此方法简便、快速、特异性好、敏感性高、半定量指标客观,可广泛应用于肝炎病毒感染的临床诊断和疗效评价.  相似文献   

15.
We have developed a full genome virus detection process that combines sensitive nucleic acid preparation optimised for virus identification in fecal material with Illumina MiSeq sequencing and a novel post-sequencing virus identification algorithm. Enriched viral nucleic acid was converted to double-stranded DNA and subjected to Illumina MiSeq sequencing. The resulting short reads were processed with a novel iterative Python algorithm SLIM for the identification of sequences with homology to known viruses. De novo assembly was then used to generate full viral genomes. The sensitivity of this process was demonstrated with a set of fecal samples from HIV-1 infected patients. A quantitative assessment of the mammalian, plant, and bacterial virus content of this compartment was generated and the deep sequencing data were sufficient to assembly 12 complete viral genomes from 6 virus families. The method detected high levels of enteropathic viruses that are normally controlled in healthy adults, but may be involved in the pathogenesis of HIV-1 infection and will provide a powerful tool for virus detection and for analyzing changes in the fecal virome associated with HIV-1 progression and pathogenesis.  相似文献   

16.
Viruses compartmentalize their replication and assembly machinery to both evade detection and concentrate the viral proteins and nucleic acids necessary for genome replication and virion production. Accumulating evidence suggests that diverse RNA and DNA viruses form replication organelles and nucleocapsid assembly sites using phase separation. In general, the biogenesis of these compartments is regulated by two types of viral protein, collectively known as antiterminators and nucleocapsid proteins, respectively. Herein, we discuss how RNA viruses establish replication organelles and nucleocapsid assembly sites, and the evidence that these compartments form through phase separation. While this review focuses on RNA viruses, accumulating evidence suggests that all viruses rely on phase separation and form biomolecular condensates important for completing the infectious cycle.  相似文献   

17.
A single-step, multiplex, real-time polymerase chain reaction (RT-PCR) was developed for the simultaneous and differential laboratory diagnosis of Classical swine fever virus (CSFV) and African swine fever virus (ASFV) alongside an exogenous internal control RNA (IC-RNA). Combining a single extraction methodology and primer and probe sets for detection of the three target nucleic acids CSFV, ASFV and IC-RNA, had no effect on the analytical sensitivity of the assay and the new triplex RT-PCR was comparable to standard PCR techniques for CSFV and ASFV diagnosis. After optimisation the assay had a detection limit of 5 CSFV genome copies and 22 ASFV genome copies. Analytical specificity of the triplex assay was validated using a panel of viruses representing 9 of the 11 CSFV subgenotypes, at least 8 of the 22 ASFV genotypes as well as non-CSFV pestiviruses. Positive and negative clinical samples from animals infected experimentally, due to field exposure or collected from the UK which is free from both swine diseases, were used to evaluate the diagnostic sensitivity and specificity for detection of both viruses. The diagnostic sensitivity was 100% for both viruses whilst diagnostic specificity estimates were 100% for CSFV detection and 97.3% for ASFV detection. The inclusion of a heterologous internal control allowed identification of false negative results, which occurred at a higher level than expected. The triplex assay described here offers a valuable new tool for the differential detection of the causative viruses of two clinically indistinguishable porcine diseases, whose geographical occurrence is increasingly overlapping.  相似文献   

18.
The study of the virus life cycle in infected cells is a methodological challenge due to the small size and diversity of the viral components. Recent developments on preservation of fine structure and molecular localization have provided a group of powerful methods with wide applications in cell biology and virology. Among the different electron microscopy (EM) techniques available to visualize viral assembly at the intracellular level, we will focus on conventional ultrathin sections, cryosections, and freeze-substitution. For obtaining molecular information associated to ultrastructure we have now a group of methods to detect viral proteins (immunogold labeling), as well as the viral genome, through the different techniques for detection of nucleic acids (the enzyme-gold approach, in situ hybridization, and elemental mapping). We will illustrate the applications of these methods with examples of viruses that exhibit different levels of structural complexity. These new approaches help to detect and identify viruses in clinical samples and to characterize the virus life cycle and the cellular components involved, to obtain data that could help for a therapeutic intervention, and to characterize virus-like particles that can be the basis of new and safe vaccines.  相似文献   

19.
We have developed a new method for the detection of nucleic acid hybridization, based on a simple latex agglutination test that can be evaluated by the unaided eye. Nucleic acid, e.g., a polymerase chain reaction (PCR) product, is denatured and incubated with polystyrene beads carrying covalently bound complementary oligonucleotide sequences. Hybridization of the nucleic acids leads to aggregation of the latex particles, thereby verifying the presence of target sequence. The test is performed at room temperature, and results are available within 10 min. As a proof of principle, the hybridization/latex agglutination assay was applied to the detection of purified PCR fragments either specific for Salmonella spp. or a synthetic sequence, and to the detection of Salmonella enterica in artificially contaminated chicken samples. A few nanograms of purified PCR fragments were detectable. In artificially contaminated chicken samples, 3 colony-forming units (cfu)/25 g were detected in one of three replicates, and 30 cfu/25 g were detected in both of two replicates when samples for PCR were taken directly from primary enrichment, demonstrating the practical applicability of this test system. Even multiplex detection might be achievable. This novel kind of assay could be useful for a range of applications where hybridization of nucleic acids, e.g., PCR fragments, is to be detected.  相似文献   

20.
Innovative tools for detection of plant pathogenic viruses and bacteria   总被引:8,自引:0,他引:8  
Detection of harmful viruses and bacteria in plant material, vectors or natural reservoirs is essential to ensure safe and sustainable agriculture. The techniques available have evolved significantly in the last few years to achieve rapid and reliable detection of pathogens, extraction of the target from the sample being important for optimising detection. For viruses, sample preparation has been simplified by imprinting or squashing plant material or insect vectors onto membranes. To improve the sensitivity of techniques for bacterial detection, a prior enrichment step in liquid or solid medium is advised. Serological and molecular techniques are currently the most appropriate when high numbers of samples need to be analysed. Specific monoclonal and/or recombinant antibodies are available for many plant pathogens and have contributed to the specificity of serological detection. Molecular detection can be optimised through the automatic purification of nucleic acids from pathogens by columns or robotics. New variants of PCR, such as simple or multiplex nested PCR in a single closed tube, co-operative-PCR and real-time monitoring of amplicons or quantitative PCR, allow high sensitivity in the detection of one or several pathogens in a single assay. The latest development in the analysis of nucleic acids is micro-array technology, but it requires generic DNA/RNA extraction and pre-amplification methods to increase detection sensitivity. The advances in research that will result from the sequencing of many plant pathogen genomes, especially now in the era of proteomics, represent a new source of information for the future development of sensitive and specific detection techniques for these microorganisms.  相似文献   

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