• Title/Summary/Keyword: Bacillus Anthracis

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Discrimination of Bacillus anthracis from Bacillus cereus Group Using KHT5 Marker (KHT5 마커를 사용한 Bacillus cereus 그룹에서 Bacillus anthracis의 구별)

  • 김형태;김성주;채영규
    • Korean Journal of Microbiology
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    • v.39 no.1
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    • pp.40-44
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    • 2003
  • Bacillus anthracis is a gram-positive spore-forming bacterium that causes the disease anthrax. In order to develop a DNA marker specific for Bacillus anthracis and to discriminate this species from Bacillus cereus group, we applied the randomly amplified polymorphic DNA (RAPD)-PCR technique to a collection of 29 strains of the genus Bacillus, including 22 species of the B. cereus group. A 709-bp RAPD marker (KHT5) specific for B. anthracis was obtained from B. anthracis BAK. The PCR product of internal primer set from the KHT5 fragment distinguished B. anthracis from the other species of the B. cereus group.

Random Amplified Polymorphic DNA-PCR Analysis for Identification of Bacillus anthracis (탄저균의 Random Amplified Polymorphic DNA-PCR 분석)

  • 김성주;박경현;김형태;조기승;김기천;최영길;박승환;이남택;채영규
    • Korean Journal of Microbiology
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    • v.37 no.1
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    • pp.56-60
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    • 2001
  • Molecular typing of Bacillus anthracis has been extremely difficult due to the lack of polymorphic DNA markers. Aiming to develop a DNA marker specific for Bacillus anthracis and to be able to discriminate this species from Bacillus genus, we applied the random amplified polymorphic DNA (RAPD)-PCR. We have identified B. anthracis from various Bacillus species. The analysis performed by RAPD clearly demonstrated substantial genetic variations among Bacillus species. This type of analysis is an easy, quick and highly discriminatory technique that may help in diagnosis of anthrax.

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Identification Based on Computational Analysis of rpoB Sequence of Bacillus anthracis and Closely Related Species (Bacillus anthracis와 그 유연종의 rpoB 유전자 컴퓨터 분석을 통한 동정)

  • Kim, Kyu-Kwang;Kim, Han-Bok
    • Korean Journal of Microbiology
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    • v.44 no.4
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    • pp.333-338
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    • 2008
  • Computational analysis of partial rpoB gene sequence (777 bp) was done in this study to identify B. anthracis and its closely related species B. cereus and B. thuringiensis. Sequence data including 17 B. anthracis strains, 9 B. cereus strains, and 7 B. thuringiensis strains were obtained by searching databases. Those sequences were aligned and used for other computational analysis. B. anthracis strains were identificated by in silico restriction enzyme digestion. B. cereus and B. thuringiensis were not segregated by this method. Those sequencing and BLAST search were required to distinguish the two. In actual identification tests, B. anthracis strains could be identified by PCR-RFLP, and B. cereus and B. thuringiensis strains were distinguished by BLAST search with reliable e-value. In this study fast and accurate method for identifying three Bacillus species, and flow chart of identification were developed.

Discovery of Protein Biomarkers for Infected Bacillus anthracis Spores in Using Proteomic Analysis (프로테오믹스를 이용한 탄저균 아포 감염에 대한 바이오마커 탐색)

  • 서귀문;남덕화;오광근;김성주;김지천;채영규
    • Journal of the Korea Institute of Military Science and Technology
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    • v.7 no.1
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    • pp.77-81
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    • 2004
  • The etiological agent is Bacillus anthracis, a gram-positive rod-shaped bacterium able to form spores. In order to elucidate the mechanism of infecttion on human macrophage cells, we performed two-dimensional electrophoresis and MALDI-TOF analysis using the infected human macrophage cells with the spores of B. anthracis Sterne of inactivated B. anthracis Sterne. We identified 9 proteins which related to the infection of Bacillus anthracis spores on human macrophage cells at the early stage events. Maybe nine proteins will be bio-markers and vaccine candidates to the Bacillus anthracis spore infection.

Detection of Virulence-Associated Genes in Clinical Isolates of Bacillus anthracis by Multiplex PCR and DNA Probes

  • Kumar, Sanjay;Tuteja, Urmil
    • Journal of Microbiology and Biotechnology
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    • v.19 no.11
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    • pp.1475-1481
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    • 2009
  • Anthrax is a zoonotic disease caused by Bacillus anthracis, and well recognized as a potential agent for bioterrorism. B. anthracis can be identified by detecting the virulence factors genes located on two plasmids, pXO1 and pXO2. The aim of the present study was to determine the presence of virulence genes in 27 isolates of B. anthracis isolated from clinical and environmental samples. For this purpose, multiplex PCR and DNA probes were designed to detect protective antigen (pag), edema factor (cya), lethal factor (lef), and capsule (cap) genes. Our results indicated that all the isolates contained all the above virulence genes, suggesting that the isolates were virulent. To the best our knowledge, this is the first study about the determination of virulence marker genes in clinical and environmental isolates of B. anthracis using multiplex PCR and DNA probes in India. We suggest that the above methods can be useful in specific identification of virulent B. anthracis in clinical and environmental samples.

Analysis of Cellular Fatty Acid Methyl Esters (FAMEs) for the Identification of Bacillus anthracis (균체 지방산 분석을 이용한 Bacillus anthracis의 동정)

  • Kim, Won-Yong;Song, Tae-Wook;Song, Mi-Ok;Nam, Ji-Yeon;Park, Chul-Min;Kim, Ki-Jung;Chung, Sang-In;Choi, Chul-Soon
    • The Journal of the Korean Society for Microbiology
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    • v.35 no.1
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    • pp.31-40
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    • 2000
  • Bacillus anthracis, the etiological agent of anthrax has been classified into the Bacillus subgroup I with B. cereus, B. mycoides and B. thuringiensis based on morphological and DNA similarity. DNA studies have further indicated that these species have very AT-rich genomes and high homology, indeed it has been proposed that these four sub-species be recognized as members of the one species. Several methods have been developed to obtain good differentiation between these species. However, none of these methods provides the means for an absolutely correct differntiation. The analysis of fatty acid methyl esters (FAMEs) was employed as a quick, simple and reliable method for the identification of 21 B. anthracis strains and closley related strains. The most significant differences were found between B. anthracis and B. anthracis closely related strains in FAMEs profiles. All tested strains of B. anthracis had a branched fatty acid C17:1 Anteiso A, whereas the fraction of unsaturated fatty acid Iso C17:1 w10c was found in B. anthracis closely related strains. By UPGMA clustering analysis of FAMEs profiles, all of the tested strains were classified into two clusters defined at Euclidian distance value of 24.5. The tested strains of B. anthracis were clustered together including Bacillus sp. Kyungjoo 3. However, the isolates of B. anthracis closely related spp. Rho, S10A, 11R1, CAU9910, CAU9911, CAU9912 and CAU9913 were clustered with the other group. On the basis of these results, isolates of B. anthracis Bongchon, Kyungjoo 1, 2 and Bacillus sp. Kyungjoo 3 were reclassified as a B. anthracis. It is concluded that FAMEs analysis provides a sensitive and reliable method for the identification of B. anthracis from closely related taxa.

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Generation of a Specific Marker to Discriminate Bacillus anthracis from Other Bacteria of the Bacillus cereus Group

  • Kim, Hyoung-Tai;Seo, Gwi-Moon;Jung, Kyoung-Hwa;Kim, Seong-Joo;Kim, Jee-Cheon;Oh, Kwang-Geun;Koo, Bon-Sung;Chai, Young-Gyu
    • Journal of Microbiology and Biotechnology
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    • v.17 no.5
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    • pp.806-811
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    • 2007
  • Bacillus anthracis is a soil pathogen capable of causing anthrax that is closely related to several environmental species, including B. cereus, B. mycoides, and B. thuringiensis. DNA homology studies showed that B. anthracis, B. cereus, B. mycoides, and B. thuringiensis are closely related, with a high sequence homology. To establish a method to specifically detect B. anthracis in situations such as environmental contamination, we initially performed RAPD-PCR with a 10-mer random primer and confirmed the presence of specific PCR bands only in B. anthracis species. One region specific for B. anthracis was cloned and sequenced, and an internal primer set was designed to amplify a 241-bp DNA fragment within the sequenced region. The PCR system involving these specific primer sets has practical applications. Using lyses methods to prepare the samples for PCR, it was possible to quickly amplify the 241-bp DNA segment from samples containing only a few bacteria. Thus, the PCR detection method developed in this study is expected to facilitate the monitoring of environmental B. anthracis contamination.

Proteomic Analysis of the Oxidative Stress Response Induced by Low-Dose Hydrogen Peroxide in Bacillus anthracis

  • Kim, Sang Hoon;Kim, Se Kye;Jung, Kyoung Hwa;Kim, Yun Ki;Hwang, Hyun Chul;Ryu, Sam Gon;Chai, Young Gyu
    • Journal of Microbiology and Biotechnology
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    • v.23 no.6
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    • pp.750-758
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    • 2013
  • Anthrax is a bacterial disease caused by the aerobic spore-forming bacterium Bacillus anthracis, which is an important pathogen owing to its ability to be used as a terror agent. B. anthracis spores can escape phagocytosis and initiate the germination process even in antimicrobial conditions, such as oxidative stress. To analyze the oxidative stress response in B. anthracis and thereby learn how to prevent antimicrobial resistance, we performed protein expression profiling of B. anthracis strain HY1 treated with 0.3 mM hydrogen peroxide using a comparative proteomics-based approach. The results showed a total of 60 differentially expressed proteins; among them, 17 showed differences in expression over time. We observed time-dependent changes in the production of metabolic and repair/protection signaling proteins. These results will be useful for uncovering the metabolic pathways and protection mechanisms of the oxidative response in B. anthracis.

Strain-specific Detection of Bacillus Anthracis using Multiple-locus Variable-number Tandem Repeat Analysis (Multiple-locus Variable-number Tandem Repeat 분석을 사용한 Bacillus Anthracis 균주간 특이성 규명)

  • Jung, Kyoung-Hwa;Kim, Sang-Hoon;Kim, Seong-Joo;Kim, Ji-Cheon;Chai, Young-Gyu
    • Journal of the Korea Institute of Military Science and Technology
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    • v.14 no.2
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    • pp.305-312
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    • 2011
  • Bacillus anthracis(Ba) is a Gram-positive spore-forming bacterium that causes the disease anthrax. The feature of Ba is the presence of two large virulence plasmids, pXO1 and pXO2. Molecular genotyping of Ba has been difficult to the lack of polymorphic DNA marker. Ba isolated from Korea has been genotyped using various nucleotide analysis methods, such as 16s rDNA sequencing and multiple-locus variable-number tandem repeat (MLVA) analysis. We identified genotypes that represent a genetic lineage in the B1 cluster. This study emphasized the need to perform molecular genotyping when attempting to verify a strain-specific Ba.

Molecular Diversity of pagA Gene from Baciilus anthracis (탄저균 pagA 유전자의 분자적 다양성)

  • 김성주;조기승;최영길;채영규
    • Korean Journal of Microbiology
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    • v.37 no.1
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    • pp.49-55
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    • 2001
  • Bacillus anthracis is a gram-positive spore-forming bacterium that causes the disease anthrax. The anthrax toxin contains three components, including the protective antigen (PA), which binds to eucaryotic cell surface receptors and mediates the transport of toxins into the cell. In this study, the entire 2,294-nucleotide protective antigen gene (pag) was sequenced from 4 of B. anthracis strains to identify potential variation in the toxin and to further our understanding of B. anthracis evolution in Korea. Sequence alignment of the entire PA gene from 30 strains representative of the four B. anthracis diversity groups revealed mutations. The mutation of B. anthracis BAK are located adjacent to a highly antigenic region crossing the junction between PA domains 3 and 4 shown to be critical to LF binding. The different mutational combinations observed in this study give rise to 11 PA genotypes and 4PA phenotypes. Three-dimensional analysis of all the amino acid changes (Ala to Val) observed in BAK indicated that these changes are not only close sequentially but also very close in three-dimensional space to the antigenic region importan tfor LF binding. Phylogenetic (cladistic) analysis of the pag corresponded with previous strain grouping based on chromosomal variation, suggesting that plasmid evolution in B. anthracis has occurred with little or no horizontal transfer between the different strains.

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