耐药结核分枝杆菌基因组信息挖掘

<正>由于结核分枝杆菌的耐药性问题,使结核病这个古老的传染病死灰复燃,并成为全球性的严重公关问题。从1998年首个结核分枝杆菌(H37Rv)全基因组完成图的获得[1],到近年来采用新一代测序技术对多个菌株进行高通量的基因组测序与分析,对结核分枝杆菌进化及耐药机制的认识不断深入。关于结核分枝杆菌菌株的基因组比较分析有多篇报道,包括对中国12个省来源的161株结核分枝杆菌     

Cellular immune responses to nine Mycobacterium tuberculosis vaccine candidates following intranasal vaccination

Background

The identification of Mycobacterium tuberculosis vaccines that elicit a protective immune response in the lungs is important for the development of an effective vaccine against tuberculosis.

Methods and Principal Findings

In this study, a comparison of intranasal (i.n.) and subcutaneous (s.c.) vaccination with the BCG vaccine demonstrated that a single moderate dose delivered intranasally induced a stronger and sustained M. tuberculosis-specific T-cell response in lung parenchyma and cervical lymph nodes of BALB/c mice than vaccine delivered subcutaneously. Both BCG and a multicomponent subunit vaccine composed of nine M. tuberculosis recombinant proteins induced strong antigen-specific T-cell responses in various local and peripheral immune compartments. Among the nine recombinant proteins evaluated, the alanine proline rich antigen (Apa, Rv1860) was highly antigenic following i.n. BCG and immunogenic after vaccination with a combination of the nine recombinant antigens. The Apa-induced responses included induction of both type 1 and type 2 cytokines in the lungs as evaluated by ELISPOT and a multiplexed microsphere-based cytokine immunoassay. Of importance, i.n. subunit vaccination with Apa imparted significant protection in the lungs and spleen of mice against M. tuberculosis challenge. Despite observed differences in the frequencies and location of specific cytokine secreting T cells both BCG vaccination routes afforded comparable levels of protection in our study.

Conclusion and Significance

Overall, our findings support consideration and further evaluation of an intranasally targeted Apa-based vaccine to prevent tuberculosis.     

牛分支杆菌与肺结核分支杆菌基因组的比较

通过比较基因组学的方法研究发现,牛分支杆菌与肺结核杆菌基因组的同源性为99．95％,但在牛分枝杆菌基因组中有11个缺失区,大小从1kb到12．7kb,遗传信息的缺失引起牛分枝杆菌的基因组减小;牛分枝杆菌与肺结核分枝杆菌H37Rv间存在着2437个单核苷酸多态性（SNPs）,与肺结核分枝杆菌CDC1551间存在着2423个单核苷酸多态性（SNPs）,牛分支杆菌与肺结核分枝杆菌在编码细胞壁和分泌蛋白上变异程度也是巨大的。研究结果揭示了牛分支杆菌与肺结核分枝杆菌的遗传关系,为研究分支杆菌疫苗和诊断试剂提供理论依据,对牛肺结核病的防治有着非常重要的意义。     

Psoroptes ovis: identification of vaccine candidates by immunoscreening

Serum from successful vaccine trials against the sheep scab mite, Psoroptes ovis, was used to immunoscreen a cDNA library constructed from mixed-stage and gender P. ovis to identify potential recombinant vaccine candidates. Immunodominant recombinant proteins recognised by IgG in these sera were selected for further analysis. Two candidates were identified in this way; a catchin-like protein (CLP) and a novel mu class glutathione S-transferase (GST). Both candidates were expressed in bacteria as recombinant proteins, the GST as an active enzyme, and combined with four other recombinant allergens in a multi-component recombinant vaccine. Strong serum IgG responses were induced in sheep against each of the components of the recombinant vaccine, however, the protective efficacy of the vaccine could not be determined because of variability in the establishment of a challenge infection.     

Computational genome analyses of metabolic enzymes in Mycobacterium leprae for drug target identification

Leprosy is an infectious disease caused by Mycobacterium leprae. M. leprae has undergone a major reductive evolution leaving a minimal set of functional genes for survival. It remains non-cultivable. As M. leprae develops resistance against most of the drugs, novel drug targets are required in order to design new drugs. As most of the essential genes mediate several biosynthetic and metabolic pathways, the pathway predictions can predict essential genes. We used comparative genome analysis of metabolic enzymes in M. leprae and H. sapiens using KEGG pathway database and identified 179 non-homologues enzymes. On further comparison of these 179 non-homologous enzymes to the list of minimal set of 48 essential genes required for cell-wall biosynthesis of M. leprae reveals eight common enzymes. Interestingly, six of these eight common enzymes map to that of peptidoglycan biosynthesis and they all belong to Mur enzymes. The machinery for peptidoglycan biosynthesis is a rich source of crucial targets for antibacterial chemotherapy and thus targeting these enzymes is a step towards facilitating the search for new antibiotics.     

Mining the Leishmania genome for novel antigens and vaccine candidates

Leishmaniasis is a neglected disease with an estimated 12 million infected people. The recent completion of the sequencing of the Leishmania major genome has opened opportunities for the identification of targets for vaccine development. We present here the first attempt at identifying novel vaccine candidates by whole genome analysis. We predicted CD8⁺ T cell epitopes from the L. major proteome and validated in vivo in mice the immunogenicity of some of the best predicted epitopes. Consensus epitope predictions from 8272 annotated protein sequences with 5–8 different algorithms allowed the identification of 78 class I CD8⁺ epitopes. BALB/c mice were immunized with 26 synthetic peptides corresponding to the most likely epitopes. Fourteen (54%) resulted immunogenic, with eight being strong inducers of T cell IFNγ production. None of the proteins from which the epitopes are derived are differentially expressed, only two may be surface proteins, eight have putative enzymatic, and metabolic activities. These epitopes and proteins represent new antigen candidates for further studies. While pathogen genomes have not yet delivered their full promise in terms of human health applications, our study opens the way for extensive genome mining for antigen identification and vaccine development against Leishmania and other pathogens.     

Whole genome shotgun sequencing of one Colombian clinical isolate of Mycobacterium tuberculosis reveals DosR regulon gene deletions

Several genomes of different Mycobacterium tuberculosis isolates have been completely sequenced around the world. The genomic information obtained have shown higher diversity than originally thought and specific adaptations to different human populations. Within this work, we sequenced the genome of one Colombian M.?tuberculosis virulent isolate. Genomic comparison against the reference genome of H37Rv and other strains showed multiple deletion and insertions that ranged between a few bases to thousands. Excluding PPE and PG-PGRS genes, 430 proteins present changes in at least 1 amino acid. Also, novel positions of the IS6110 mobile element were identified. This isolate is also characterized by a large genomic deletion of 3.6?kb, leading to the loss and modification of the dosR regulon genes, Rv1996 and Rv1997. To our knowledge, this is the first report of the genome sequence of a Latin American M.?tuberculosis clinical isolate.     

Genetic typing of Mycobacterium tuberculosis strains by spoligotyping and genome fingerprinting techniques

A total of 122 M. tuberculosis clinical drug-resistant strains isolated in Central Russia were studied by spoligotyping and genome fingerprinting techniques. According to spoligotyping results 77% of M. tuberculosis strains were distributed to 13 oligotypes, while 23% of these strains were found to form unique patterns. Most of them belonged to the families Beijing and Haarlem (43.4% and 13.9% respectively). The patterns of the strains of oligotype 12 (7F-7F-7E-0E-78-3E) were identical to those of the strains isolated in Brazil, France and the Netherlands. The strains of the spoligotype 22 (7F-1E-7F-7F-07-3E) had the patterns identical to those of the strains of group S13, also isolated in Brazil. According to genome fingerprinting 31.4% of the strains were found to belong to clusters with the similarity coefficient equal to 1. The strains belonging to genotypes W and A1 were found to prevail in the analyzed group.     

Surface proteome mining for identification of potential vaccine candidates against Campylobacter jejuni: an in silico approach

Functional & Integrative Genomics - Campylobacter jejuni remains a major cause of human gastroenteritis with estimated annual incidence rate of 450 million infections worldwide. C. jejuni is a...     

Complete annotated genome sequence of Mycobacterium tuberculosis Erdman

We report the completely annotated genome sequence of Mycobacterium tuberculosis Erdman (TMC 107; ATCC 35801), which is a well-known laboratory strain of M. tuberculosis.     

人型结核杆菌全染色体DNA探针鉴别结核杆菌和其安分枝杆菌

The dot-blots containing DNA isolated from nonmycobacterial and mycobacterial microorganisms were hybridized with 32P-labeled M. tuberculosis whole chromosomal DNA at the various temperatures. The probe did not cross-hybridize to DNA of nonmycobacterial microorganisms (E. coli, Plasmid pUC19, Nocardia asteriodes), nor with DNA from all mycobacteria tested except M. bovis BCG under the higher temperature conditions. Microorganisms could also be directly spotted and lysed on nitrocellulose filters and used for hybridization thus making this technique suitable for clinical diagnosis.     

Whole genome survey and microsatellite motif identification of Artemia franciscana

Artemia is an industrially important genus used in aquaculture as a nutritious diet for fish and as an aquatic model organism for toxicity tests. However, despite the significance of Artemia, genomic research remains incomplete and knowledge on its genomic characteristics is insufficient. In particular, Artemia franciscana of North America has been widely used in fisheries of other continents, resulting in invasion of native species. Therefore, studies on population genetics and molecular marker development as well as morphological analyses are required to investigate its population structure and to discriminate closely related species. Here, we used the Illumina Hi-Seq platform to estimate the genomic characteristics of A. franciscana through genome survey sequencing (GSS). Further, simple sequence repeat (SSR) loci were identified for microsatellite marker development. The predicted genome size was ∼867 Mb using K-mer (a sequence of k characters in a string) analysis (K = 17), and heterozygosity and duplication rates were 0.655 and 0.809%, respectively. A total of 421467 SSRs were identified from the genome survey assembly, most of which were dinucleotide motifs with a frequency of 77.22%. The present study will be a useful basis in genomic and genetic research for A. franciscana.     

Genes to genetic immunization: identification of bacterial vaccine candidates

Pathogenic bacteria still represent a major threat to human health worldwide and the need for new vaccines is great. Virulence factors, particularly surface-located molecules, often make good vaccine targets because they are essential for access to their niche within the host. The advent of whole-genome sequencing of bacterial pathogens has revolutionized the methods by which these organisms are studied and provides us with the possibility of identifying potential targets for vaccines by sequence scanning alone. Other developments in molecular biology, such as whole genome expression and mass mutagenesis, are also contributing to the identification of potential vaccine targets. In this chapter, we review approaches that exploit whole genome sequence data to identify potential virulence determinants and vaccine antigens.     

Combining fold recognition and exploratory data analysis for searching for glycosyltransferases in the genome of Mycobacterium tuberculosis

Fold recognition was applied to the systematic analysis of the all sequences encoded by the genome of Mycoplasma tuberculosis H37Rv in order to identify new putative glycosyltransferases. The search was conducted against a library composed of all known crystal structures of glycosyltransferases and some related proteins. A clear relationship appeared between some sequences and some folds. It appears necessary to complete the fold recognition approach with a statistical approach in order to identify the relevant data above the background noise. Exploratory data analysis was carried out using several methods. Analytical methods confirmed the validity of the approach, while predictive methods, although very preliminary in the present case, allowed for identifying a number of sequences of interest that should be further investigated. This new approach of combining bioinformatics and chemometrics appears to be a powerful tool for analysis of newly sequenced genomes. Its application to glycobiology is of great interest.     

利用rpoB基因芯片技术进行快速分枝杆菌菌种鉴定

利用rpoB基因芯片技术快速进行分枝杆菌菌种鉴定.以分枝杆菌rpoB基因编码序列为靶基因,用基因芯片技术检测21种分枝杆菌标准株;8种其它细菌标准株;126株临床分离株.分枝杆菌与其它细菌标准株经PCR扩增后,分枝杆菌标准株均扩增出360 bp DNA片段,在其它细菌中,除甲型溶血性链球菌和假白喉棒状杆菌出现同样片段外,其它细菌均未见扩增.21种寡核苷酸探针除海分枝杆菌与偶然分枝杆菌的探针有交叉杂交外,其余均为特异性杂交.对126株临床分离株进行鉴定,89株为结核分枝杆菌,占70.6%(89/126),非结核分枝杆菌(NTM)占9.2%(9/98).应用rpoB基因芯片技术鉴定分枝杆菌菌种,是一种快速、准确的方法,具有较高的临床应用价值.