炭疽芽胞杆菌染色体特异序列的筛选及实时定量检测

筛选117条炭疽芽胞杆菌(Bacillusanthracis)特异序列,经双重特异性验证后得到19条理想的特异序列(genomicsignatures),其中6条符合设计TaqMan探针建立实时定量PCR的要求,根据常规PCR检测结果选择其中C04片段与炭疽芽胞杆菌毒性质粒pX01、pX02上的pagA、capB基因建立实时定量PCR检测体系。经试验证实这一体系检测灵敏度达到每PCR反应10~100个拷贝。利用12种相关菌株评价后获得100%特异性,对10份模拟污染标本和20份对照标本检测,所有污染标本均被检出,所有对照标本均为阴性。此方法特异、灵敏、高效,在炭疽芽胞杆菌感染的诊断和环境污染的检测等领域有潜在的应用前景。     

基于裂解酶与ATP生物发光法特异定量检测炭疽杆菌方法的研究简

目的：原核表达炭疽杆菌噬菌体叮裂解酶（PlyG）和萤光素酶（Luc）,结合这2种酶建立特异定量检测炭疽杆菌的方法。方法：PCR扩增得到带有His标签的裂解酶基因和萤光素酶基因,构建重组表达载体pET22b-p@G和DET22b-luc,转化至大肠杆菌BL21（DE3）并诱导表达,过镍柱纯化得到目的蛋白;利用裂解酶裂解和ATP生物发光定量检测蜡样芽孢杆菌RSVFl,与平板计数法对比建立线性关系。结果：表达了炭疽杆菌噬菌体γ裂解酶和萤光素酶,并建立了特异定量检测蜡样芽孢杆菌RSVF1的方法,与平板计数方法具有显著的线性相关。结论：因炭疽杆菌与蜡样芽孢杆菌RSVF1均对PlyG具有较强的敏感性,故本研究所建立的将炭疽杆菌噬菌体γ裂解酶与萤光素一萤光素酶系统相结合的检测方法对现场或临床定性定量检测炭疽杆菌提供了理论支持,具有良好的应用前景。     

Differential analysis of Bacillus anthracis after pX01 plasmid curing and comprehensive data on Bacillus anthracis infection in macrophages and glial cells

Bacillus anthracis is a gram-positive bacterial organism responsible for anthrax. This organism has two pathogenic plasmids: pX01 and pX02. The genetic function of pX01, which comprises about 198 kb, is not known, except for a region called the pathogenic island, which contains three genes-pag, lef, and cya-that code for three toxic proteins. A 2-D difference gel electrophoresis (2-D DIGE) system was used to verify the existence of proteins controlled by the pX01 plasmid, and protein regulation data were obtained using DeCyder software. A total of 1728 proteins were identified in the wild-type strain of this organism and 1684 in the pX01 plasmid. Twenty-seven of these proteins disappeared and eight appeared when the pX01 plasmid was removed. An additional 52 proteins were downregulated and 15 were upregulated when this plasmid was removed. A total of 102 proteins have been identified using the MALDI-TOF method of analysis, including 49 whose functions are unknown. Among these, 31 participate in metabolic processes, two in cellular processes, 15 in the processing of genetic information, and five in the processing of extracellular information. Another seven proteins participate in bacterial virulence and pathogenesis. We investigated the functions of these proteins in other bacteria, particularly the B. anthracis derivative H9041. Bacterial growth differed between pX01+/pX02+ B. anthracis and its pX01-/pX02+ derivative as did the cytotoxicity of macrophages infected by pX01+/pX02+ B. anthracis and the pX01-pX02+ derivative. We also found that S100B protein levels increased in the host infected with pX01+/pX02+ B. anthracis or its pX01-/pX02+ derivative. These data suggest that the pX01 plasmid plays a key role in the regulation of protein functions in B. anthracis.     

Validation of potential inhibitors for SrtA against Bacillus anthracis by combined approach of ligand-based and molecular dynamics simulation

The development of SrtA inhibitors targeting the biothreat organism namely Bacillus anthracis was achieved by the combined approach of pharmacophore modeling, binding interactions, electron transferring capacity, ADME, and Molecular dynamics studies. In this study, experimentally reported Ba-SrtA inhibitors (pyridazinone and pyrazolethione derivatives) were considered for the development of enhanced pharmacophoric model. The obtained AAAHR hypothesis was a pure theoretical concept that accounts for common molecular interaction network present in experimentally active pyridazinone and pyrazolethione derivatives. Pharmacophore-based screening of AAAHR hypothesis provides several new compounds, and those compounds were treated with four phases of docking protocols with combined Glide-QPLD docking approach. In this approach, scoring and charge accuracy variations were seen to be dominated by QM/MM approach through the allocation of partial charges. Finally, we reported the best compounds from binding db, Chembridge db, and Toslab based on scoring values, energy parameters, electron transfer reaction, ADME, and cell adhesion inhibition activity. The dynamic state of interaction and binding energy assess that new compounds are more active inside the binding pocket and these compounds on experimental validations will survive as better inhibitors for targeting the cell adhesion mechanism of Ba-SrtA.     

Virulent spores of Bacillus anthracis and other Bacillus species deposited on solid surfaces have similar sensitivity to chemical decontaminants

AIMS: To compare the relative sensitivity of Bacillus anthracis and spores of other Bacillus spp. deposited on different solid surfaces to inactivation by liquid chemical disinfecting agents. METHODS AND RESULTS: We prepared under similar conditions spores from five different virulent and three attenuated strains of B. anthracis, as well as spores of Bacillus subtilis, Bacillus atrophaeus (previously known as Bacillus globigii), Bacillus cereus, Bacillus thuringiensis and Bacillus megaterium. As spore-surface interactions may bias inactivation experiments, we evaluated the relative binding of different spores to carrier materials. The survival of spores deposited on glass, metallic or polymeric surfaces were quantitatively measured by ASTM standard method E-2414-05 which recovers spores from surfaces by increasing stringency. The number of spores inactivated by each decontaminant was similar and generally within 1 log among the 12 different Bacillus strains tested. This similarity among Bacillus strains and species was observed through a range of sporicidal efficacy on spores deposited on painted metal, polymeric rubber or glass. CONCLUSIONS: The data obtained indicate that the sensitivity of common simulants (B. atrophaeus and B. subtilis), as well as spores of B. cereus, B. thuringiensis, and B. megaterium, to inactivation by products that contain either: peroxide, chlorine or oxidants is similar to that shown by spores from all eight B. anthracis strains studied. SIGNIFICANCE AND IMPACT OF THE STUDY: The comparative results of the present study suggest that decontamination and sterilization data obtained with simulants can be safely extrapolated to virulent spores of B. anthracis. Thus, valid conclusions on sporicidal efficacy could be drawn from safer and less costly experiments employing non-pathogenic spore simulants.     

炭疽杆菌检测方法的研究现状与展望

炭疽是严重威胁人类健康的烈性传染病,其病原体为炭疽芽孢杆菌。炭疽芽孢杆菌在我国公布的《人间传染的病原微生物名录》中被列为第二类病原微生物(高致病性病原微生物),其芽孢可作为生物战剂和生物恐怖的原材料,因此,发展灵敏、高效的炭疽杆菌检测方法十分重要和紧迫。按检测的靶标分类,针对炭疽杆菌的检测方法主要有四大类:针对炭疽杆菌芽孢的检测方法,针对细菌繁殖体的检测方法,针对炭疽杆菌基因的检测方法和针对炭疽毒素蛋白的检测方法。其中,针对炭疽杆菌芽孢和细菌繁殖体的检测已经有比较成熟的方法,但其在特异性以及临床的实用性方面难以令人满意;针对炭疽杆菌基因的检测技术在特异性和灵敏度上有较大的提高,但在临床诊断等方面还有欠缺;而针对炭疽毒素蛋白的检测技术的发展,使得直接对炭疽杆菌的主要致病因子的检测成为可能,这对于临床诊断以及流行病学研究具有重要意义。本文对当前炭疽杆菌检测方法的最新进展做了简要的归纳,关注了不同检测方法的适用范围和检测能力,并展望了相关领域的发展趋势,希望能为从事炭疽杆菌检测方法研究的同行提供参考和帮助。     

Rapid genotypic detection of Bacillus anthracis and the Bacillus cereus group by multiplex real-time PCR melting curve analysis

Bacillus anthracis has four plasmid possible virulence genotypes: pXO1+/pXO2+, pXO1+/pXO2-, pXO1-/pXO2+ or pXO1-/pXO2-. Due to the lack of a specific chromosomal marker for B. anthracis, differentiation of the pXO1-/pXO2- form of B. anthracis from closely related Bacillus cereus group species is difficult. In this study, we evaluate the ability of sspE, pXO1 and pXO2 primers to discriminate individual B. anthracis and the B. cereus group genotypes using multiplex real-time PCR and melting curve analysis. Optimal conditions for successful multiplex assays have been established. Purified DNAs from 38 bacterial strains including 11 strains of B. anthracis and 18 B. cereus group strains were analyzed. Nine of the B. cereus group near-neighbor strains were shown by multilocus sequence typing to be phylogenetically proximate to the B. anthracis clade. We have demonstrated that the four plasmid genotypes of B. anthracis and B. cereus group near-neighbors were differentially and simultaneously discriminated by this assay.     

A simple and sensitive method for detection of Bacillus anthracis by loop‐mediated isothermal amplification

Aims: To develop a rapid and simple system for detection of Bacillus anthracis using a loop‐mediated isothermal amplification (LAMP) method and determine the suitability of LAMP for rapid identification of B. anthracis infection. Methods and Results: A specific LAMP assay targeting unique gene sequences in the bacterial chromosome and two virulence plasmids, pXO1 and pXO2, was designed. With this assay, it was possible to detect more than 10 fg of bacterial DNA per reaction and obtain results within 30–40 min under isothermal conditions at 63°C. No cross‐reactivity was observed among Bacillus cereus group and other Bacillus species. Furthermore, in tests using blood specimens from mice inoculated intranasally with B. anthracis spores, the sensitivity of the LAMP assay following DNA extraction methods using a Qiagen DNeasy kit or boiling protocol was examined. Samples prepared by both methods showed almost equivalent sensitivities in LAMP assay. The detection limit was 3·6 CFU per test. Conclusions: The LAMP assay is a simple, rapid and sensitive method for detecting B. anthracis. Significance and Impact of the Study: The LAMP assay combined with boiling extraction could be used as a simple diagnostic method for identification of B. anthracis infection.     

The extracellular and cytoplasmic proteomes of the non-virulent Bacillus anthracis strain UM23C1-2

The recently published genome sequence of Bacillus anthracis Ames has facilitated the prediction of proteins associated with the virulence of this bacterium. The aim of this study was to define reference maps for the extracellular and cytoplasmic proteomes of the avirulent B. anthracis strain UM23C1-2 that are useful for physiological studies and the development of improved vaccines. Using 2-DE and subsequent MALDI-TOF-TOF MS, 64 proteins were identified in the extracellular proteome, only 29 of which were predicted to be exported into the culture medium. The latter included chitinases, proteases, nucleotidases, sulfatases, phosphatases and proteins of unknown function. Of the remaining proteins in the culture medium, 18 were predicted to be associated with the cell wall or anchored on the trans side of the cytoplasmic membrane while 17 other proteins lacked identifiable export signals and were predicted to be cytoplasmic proteins. Among the S-layer proteins, Sap and Eag account for 10% of the total extracellular proteome. Many of the proteins are predicted to contribute to the virulence and antigenic signature of B. anthracis. We have also studied the composition of the cytoplasmic proteome, identifying 300 distinct proteins. The most abundant cytoplasmic proteins are primarily those involved in glycolysis, amino acid metabolism, protein translation, protein folding and stress adaptation. The presence of a variety of proteases, peptidases, peptide binding proteins, as well as enzymes required for the metabolism of amino acids, suggests that B. anthracis is adapted to life in a protein-rich environment rather than the soil. We therefore speculate that proteases and peptidases could be useful targets for the development of improved vaccines. In addition, both of these B. anthracis compartment-specific proteomes can be used as reference maps to monitor changes in the production of secreted and cytosolic proteins that occur, for example, during growth in macrophages.     

Development of a rapid and sensitive immunoassay for detection and subsequent recovery of Bacillus anthracis spores in environmental samples

Bacillus anthracis is considered a major threat as an agent of bioterrorism. B. anthracis spores are readily dispersed as aerosols, are very persistent, and are resistant to normal disinfection treatments. Immunoassays have been developed to rapidly detect B. anthracis spores at high concentrations. However, detection of B. anthracis spores at lower concentrations is problematic due to the fact that closely related Bacillus species (e.g., B. thuringiensis) can cross-react with anti-B. anthracis antibodies, resulting in false positive detections. Subsequent polymerase chain reaction (PCR) analysis is required to differentiate virulent strains. We report here on a protocol for the rapid, sensitive detection of B. anthracis spore using the Integrating Waveguide Biosensor followed by a method for the rapid release and germination of immunocaptured spores. A detection limit of ca. 10³ spores was achieved by incubating spores simultaneously with capture and detection antibodies (“liquid-phase” assay) prior to capture on capillary tubes/waveguides. Subsequent incubation with BHI broth directly in capillary tubes allowed for rapid germination, outgrowth, and release of spores, resulting in vegetative cells for PCR analysis.     

Decreased time for detection and quantification of virulent Bacillus anthracis and Yersinia pestis using a BioNanoPore (BNPTM) membrane technology

Many aspects of biodefense research require quantitative growth assessments of the test agent. This study evaluated the BioNanoPore (BNP™) technology to quantitate Bacillus anthracis and Yersinia pestis faster than traditional plate counting methods. The BNP™ technology enabled quantification of B. anthracis and Y. pestis in phosphate-buffered saline and naïve rabbit blood at 6 and 24 h, respectively. After 6 h of growth, counts for B. anthracis ranged from 6·19–6·45 log₁₀ CFU ml⁻¹ on BNP™, while counts after 24 h on tryptic soy agar (TSA) ranged from 6·51–6·58 log₁₀ CFU ml⁻¹. For Y. pestis , counts on BNP™ at 24 h ranged from 6·31–6·41 log₁₀ CFU ml⁻¹ on BNP™ and ranged from 6·44–6·89 log₁₀ CFU ml⁻¹ on TSA at 48 h. This study demonstrates that the BNP™ technology provides a more rapid detection of B. anthracis and Y. pestis , which could aid in the evaluation of potential medical countermeasures and treatments as well as other biological defense applications such as surface sampling or decontamination efficacy.     

The effect of acquired resistance to mercury on the phage sensitivity pattern of Staphylococcus aureus and its adherence to buccal epithelial cells

Abstract The study on the effect of acquired resistance to mercury on the phage sensitivity pattern of Staphylococcus aureus and its adherence to buccal epithelial cells showed increased lag period in growth and inverse relationship between the mercury resistance and cell wall teichoic acid, protein A and binding of cells to normal humal buccal cells. The phage pattern was found to change with the development of mercury resistance.     

Efficacy of liquid spray decontaminants for inactivation of Bacillus anthracis spores on building and outdoor materials

Aims: To obtain data on the efficacy of various liquid and foam decontamination technologies to inactivate Bacillus anthracis Ames and Bacillus subtilis spores on building and outdoor materials. Methods and Results: Spores were inoculated onto test coupons and positive control coupons of nine different materials. Six different sporicidal liquids were spray‐applied to the test coupons and remained in contact for exposure times ranging from 10 to 70 min. Following decontamination, spores were recovered from the coupons and efficacy was quantified in terms of log reduction. Conclusions: The hydrogen peroxide/peracetic acid products were the most effective, followed by decontaminants utilizing hypochlorous acid chemistry. Decontamination efficacy varied by material type. Significance and Impact of the Study: The study results may be useful in the selection of technologies to decontaminate buildings and outdoor areas in the event of contamination with B. anthracis spores. These results may also facilitate selection of decontaminant liquids for the inactivation of other spore‐forming infectious disease agents.     

Proteomics reveals that proteins expressed during the early stage of Bacillus anthracis infection are potential targets for the development of vaccines and drugs

In this review, we advance a new concept in developing vaccines and/or drugs to target specific proteins expressed during the early stage of Bacillus anthracis (anthrax) infection and address existing challenges to this concept. Three proteins (immune inhibitor A, GPR-like spore protease, and alanine racemase) initially identified by proteomics in our laboratory were found to have differential expressions during anthrax spore germination and early outgrowth. Other studies of different bacillus strains indicate that these three proteins are involved in either germination or cytotoxicity of spores, suggesting that they may serve as potential targets for the design of anti-anthrax vaccines and drugs.     

Use of high-resolution melting and melting temperature-shift assays for specific detection and identification of Bacillus anthracis based on single nucleotide discrimination

Single nucleotide polymorphisms (SNPs) are important diagnostic markers for the detection and differentiation of Bacillus anthracis. High-Resolution Melting (HRM) and Melting Temperature (Tm)-shift methods are two approaches that enable SNP detection without the need for expensive labeled probes. We evaluated the potential diagnostic capability of those methods to discriminate B. anthracis from the other members of the B. cereus group. Two assays targeting B. anthracis-specific SNPs in the plcR and gyrA genes were designed for each method and used to genotype a panel of 155 Bacilli strains. All B. anthracis isolates (n = 65) were correctly and unambiguously identified. Assays also proved to be appropriate for the direct genotyping of biological samples. They could reliably detect B. anthracis in contaminated organs containing as little as 10³ CFU/ml, corresponding to a few genome equivalents per reaction. The HRM and Tm-shift applications described here represent valuable tools for specific identification of B. anthracis at reduced cost.     

A combined immunomagnetic separation and lateral flow method for a sensitive on-site detection of Bacillus anthracis spores – assessment in water and dairy products

Aim:  Combination of immunomagnetic separation (IMS) and lateral flow device (LFD) assays for the development of a sensitive, rapid, on-site methodology that enables concentration and detection of Bacillus anthracis spores in complex samples.
Methods and Results:  The data presents the development of an optimized, 30 min, IMS assay, with about 95% capture of B. anthracis spores from different dairy products ( n  = 38). No cross reactivity was detected with typical milk flora and some closely related Bacilli. To enable direct application of the IMS captured spores on the LFD, spores were eluted from the bead–spore complex utilizing 95% (v/v) formamide-10 mmol l⁻¹ EDTA for 30 s in a microwave oven. Detached spores were analysed on LFD enabling detection within 10 min. The combined IMS–LFD methodology (40 min) demonstrates a 60-fold improvement in sensitivity, relative to samples that were applied directly on the LFD without the IMS concentrating step.
Conclusions:  The IMS–LFD method is a powerful platform, combining rapidity, specificity and efficiency for concentrating and detecting B. anthracis from water and milk contaminated samples.
Significant and Impact of the Study:  The combination of IMS and LFD enhances the sensitivity and flexibility of B. anthracis spore detection from complex samples. This method can potentially be extended to other toxins and micro-organisms in a variety of matrices.     

The effect of carbohydrates on the sporogenesis of Clostridium perfringens and Bacillus anthracis

The authors studied the effect of a number of carbohydrates on the sporogenesis of Clostridium perfringens and Bacillus anthracis (vaccine strain STI) as probable soil factors capable of influencing the duration of survival of these causative agents in the external environment. Differences in the effect of the same sugars on the formation of spores by these microorganisms and clearly expressed sporogenesis-inhibiting effect of glucose (and also of lactose in clostridia) have been demonstrated. The analysis of the peculiarities of sporogenesis under unadjusted and stabilized pH values provides a basis for regarding the "glucose effect" as repression of sporogenesis in the given causative agent, but not as inhibition resulting from considerable acidification of the culture medium. This is essential for the soil conditions characterized by high buffer capacity. The ecological value of substances of carbohydrate nature consists in their important role in the energetics and trophicity of microbial coenoses of the soil which cannot fail reflecting on the fate of pathogenic microorganisms in the soil.