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1.
BMC Gastroenterol ; 21(1): 335, 2021 Aug 28.
Artigo em Inglês | MEDLINE | ID: mdl-34454434

RESUMO

BACKGROUND: Although salt plays an important role in maintaining the normal physiological metabolism of the human body, many abnormalities in the liver caused by a high-salt diet, especially with normal pathological results, are not well characterized. METHODS: Eight-week-old female C57BL/6 mice were randomly divided into a normal group and a high salt group. These groups were then fed with normal or sodium-rich chow (containing 6% NaCl) for 6 weeks. Liver injury was evaluated, and the influences of a high-salt diet on the liver were analyzed by transcriptome sequencing at the end of week 6. RESULTS: We found that although no liver parenchymal injury could be found after high-salt feeding, many metabolic abnormalities had formed based on transcriptome sequencing results. GO and KEGG enrichment analyses of differentially expressed genes revealed that at least 15 enzymatic activities and the metabolism of multiple substances were affected by a high-salt diet. Moreover, a variety of signaling and metabolic pathways, as well as numerous biological functions, were involved in liver dysfunction due to a high-salt diet. This included some known pathways and many novel ones, such as retinol metabolism, linoleic acid metabolism, steroid hormone biosynthesis, and signaling pathways. CONCLUSIONS: A high-salt diet can induce serious abnormal liver metabolic activities in mice at the transcriptional level, although substantial physical damage may not yet be visible. This study, to our knowledge, was the first to reveal the impact of a high-salt diet on the liver at the omics level, and provides theoretical support for potential clinical risk evaluation, pathogenic mechanisms, and drug design for combating liver dysfunction. This study also provides a serious candidate direction for further research on the physiological impacts of high-salt diets.


Assuntos
Cloreto de Sódio , Transcriptoma , Animais , Dieta , Feminino , Fígado/metabolismo , Redes e Vias Metabólicas/genética , Camundongos , Camundongos Endogâmicos C57BL , Cloreto de Sódio/metabolismo
2.
Biochem Biophys Res Commun ; 513(3): 651-656, 2019 06 04.
Artigo em Inglês | MEDLINE | ID: mdl-30982579

RESUMO

Endospores are important for maintenance of the B. anthracis lifecycle and necessary for its effective spread between hosts. Our experiments with B. anthracis showed that disruption of SpoIIID results in a spore formation defect, as determined by heat resistance assays and microscopic assessment. We further found complete engulfment by the ΔspoIIID mutant strain by membrane morphology staining but no synthesis of the clarity coat and exosporium by transmission electron microscopy. Reduced transcription and expression of small acid-soluble spore protein(sasP-2) and the spore development associated genes (σK, gerE and cotE) in the mother cell were found in the ΔspoIIID strain, suggesting that the spore formation defect in B. anthracis A16R is related to decreased transcription and expression of these genes. Extracellular protease and virulence enhancement in the ΔspoIIID strain may be related to the elevation of metalloproteinases (TasA and Camelysin) levels. Our findings pave the way for further research on the regulation network of sporulation, survival and virulence in these two morphological forms of B. anthracis.


Assuntos
Bacillus anthracis/crescimento & desenvolvimento , Proteínas de Bactérias/metabolismo , Proteínas de Ligação a DNA/metabolismo , Esporos Bacterianos/crescimento & desenvolvimento , Fatores de Transcrição/metabolismo , Animais , Antraz/metabolismo , Antraz/microbiologia , Bacillus anthracis/genética , Bacillus anthracis/metabolismo , Bacillus anthracis/patogenicidade , Proteínas de Bactérias/genética , Proteínas de Ligação a DNA/genética , Feminino , Deleção de Genes , Regulação Bacteriana da Expressão Gênica , Humanos , Camundongos , Proteólise , Esporos Bacterianos/genética , Esporos Bacterianos/metabolismo , Fatores de Transcrição/genética
3.
Microbiol Resour Announc ; 13(7): e0028124, 2024 Jul 18.
Artigo em Inglês | MEDLINE | ID: mdl-38916302

RESUMO

In this report, we present the complete genome sequences of two Bacillus anthracis strains utilized as veterinary vaccines in China. The sequencing was conducted using a hybrid assembly methodology that combined Illumina short reads and PacBio long reads. This approach provides a high-quality representative sequence for the strains mentioned above.

4.
Microorganisms ; 12(5)2024 May 17.
Artigo em Inglês | MEDLINE | ID: mdl-38792847

RESUMO

Human brucellosis caused by Brucella is a widespread zoonosis that is prevalent in many countries globally. The high homology between members of the Brucella genus and Ochrobactrum spp. often complicates the determination of disease etiology in patients. The efficient and reliable identification and distinction of Brucella are of primary interest for both medical surveillance and outbreak purposes. A large amount of genomic data for the Brucella genus was analyzed to uncover novel probes containing single-nucleotide polymorphisms (SNPs). GAMOSCE v1.0 software was developed based on the above novel eProbes. In conjunction with clinical requirements, an RPA-Cas12a detection method was developed for the on-site determination of B. abortus and B. melitensis by fluorescence and lateral flow dipsticks (LFDs). We demonstrated the potential of these probes for rapid and accurate detection of the Brucella genus and five significant Brucella species in silico using GAMOSCE. GAMOSCE was validated on different Brucella datasets and correctly identified all Brucella strains, demonstrating a strong discrimination ability. The RPA-Cas12a detection method showed good performance in detection in clinical blood samples and veterinary isolates. We provide both in silico and on-site methods that are convenient and reliable for use in local hospitals and public health programs for the detection of brucellosis.

5.
Biology (Basel) ; 12(5)2023 Apr 24.
Artigo em Inglês | MEDLINE | ID: mdl-37237459

RESUMO

Bacillus anthracis is a Gram-positive bacterium that causes the zoonotic disease anthrax. Here, we studied the characteristic phenotype and virulence attenuation of the putative No. II vaccine strain, PNO2, which was reportedly introduced from the Pasteur Institute in 1934. Characterization of the strain showed that, compared with the control strain, A16Q1, the attenuated PNO2 (PNO2D1) was phospholipase-positive, with impaired protein hydrolysis and significantly reduced sporulation. Additionally, PNO2D1 significantly extended the survival times of anthrax-challenged mice. An evolutionary tree analysis revealed that PNO2D1 was not a Pasteur strain but was more closely related to a Tsiankovskii strain. A database comparison revealed a seven-base insertion mutation in the nprR gene. Although it did not block nprR transcription, the insertion mutation resulted in the premature termination of protein translation. nprR deletion of A16Q1 resulted in a nonproteolytic phenotype that could not sporulate. The database comparison revealed that the abs gene is also prone to mutation, and the abs promoter activity was much lower in PNO2D1 than in A16Q1. Low abs expression may be an important reason for the decreased virulence of PNO2D1.

6.
Emerg Microbes Infect ; 11(1): 428-437, 2022 Dec.
Artigo em Inglês | MEDLINE | ID: mdl-34842509

RESUMO

As next-generation pathogen detection methods, CRISPR-Cas-based detection methods can perform single-nucleotide polymorphism (SNP) level detection with high sensitivity and good specificity. They do not require any particular equipment, which opens up new possibilities for the accurate detection and identification of Bacillus anthracis. In this study, we developed a complete detection system for B. anthracis based on Cas12a. We used two chromosomally located SNP targets and two plasmid targets to identify B. anthracis with high accuracy. The CR5 target is completely new. The entire detection process can be completed within 90 min without electrical power and with single-copy level sensitivity. We also developed an unaided-eye visualization system based on G4-DNAzyme for use with our CRISPR-Cas12a detection system. This visualization system has good prospects for deployment in field-based point-of-care detection. We used the antisense nucleic acid CatG4R as the detection probe, which showed stronger resistance to interference from components of the solution. CatG4R can also be designed as an RNA molecule for adaptation to Cas13a detection, thereby broadening the scope of the detection system.


Assuntos
Antraz/diagnóstico , Bacillus anthracis/genética , Proteínas de Bactérias/genética , Proteínas Associadas a CRISPR/genética , Sistemas CRISPR-Cas/genética , DNA Catalítico/genética , Endodesoxirribonucleases/genética , Elementos Antissenso (Genética)/genética , Bacillus anthracis/isolamento & purificação , Proteínas de Bactérias/metabolismo , Proteínas Associadas a CRISPR/metabolismo , DNA Bacteriano/genética , Endodesoxirribonucleases/metabolismo , Quadruplex G , Plasmídeos/genética
7.
Microbiol Resour Announc ; 11(8): e0050322, 2022 Aug 18.
Artigo em Inglês | MEDLINE | ID: mdl-35862908

RESUMO

This report describes the complete genome sequence of Acinetobacter baumannii strain SHOU-Ab01, which was isolated from the liver of a Chinese giant salamander (Andrias davidianus). SHOU-Ab01 belonged to sequence type 40 (ST40), and its genome contained a circular chromosome (size, 3,891,862 bp) and two circular plasmids (sizes, 8,571 bp and 5,870 bp).

8.
Microbiol Spectr ; 10(3): e0228521, 2022 06 29.
Artigo em Inglês | MEDLINE | ID: mdl-35575735

RESUMO

Bacillus anthracis is a spore-forming bacterium that causes life-threatening infections in animals and humans and has been used as a bioterror agent. Rapid and reliable detection and identification of B. anthracis are of primary interest for both medical and biological threat-surveillance purposes. Few chromosomal sequences provide enough polymorphisms to clearly distinguish B. anthracis from closely related species. We analyzed 18 loci of the chromosome of B. anthracis and discovered eight novel single-nucleotide polymorphism (SNP) sites that can be used for the specific identification of B. anthracis. Using these SNP sites, we developed software-named AGILE V1.1 (anthracis genome-based identification with high-fidelity E-probe)-for easy, user-friendly identification of B. anthracis from whole-genome sequences. We also developed a recombinase polymerase amplification-Cas12a-based method that uses nucleic acid extracts for the specific, rapid, in-the-field identification of B. anthracis based on these SNPs. Via this method and B. anthracis-specific CRISPR RNAs for the target CR5_2, CR5_1, and Ba813 SNPs, we clearly detected 5 aM genomic DNA. This study provides two simple and reliable methods suitable for use in local hospitals and public health programs for the detection of B. anthracis. IMPORTANCE Bacillus anthracis is the etiologic agent of anthrax, a fatal disease and a potential biothreat. A specific, accurate, and rapid method is urgently required for the identification of B. anthracis. We demonstrate the potential of using eight novel SNPs for the rapid and accurate detection of B. anthracis via in silico and laboratory-based testing methods. Our findings have important implications for public health responses to disease outbreaks and bioterrorism threats.


Assuntos
Antraz , Bacillus anthracis , Animais , Antraz/diagnóstico , Antraz/microbiologia , Bacillus anthracis/genética , Reação em Cadeia da Polimerase/métodos , Polimorfismo de Nucleotídeo Único
9.
Front Microbiol ; 12: 536357, 2021.
Artigo em Inglês | MEDLINE | ID: mdl-34177818

RESUMO

The CRISPR-Cas system has been widely applied in prokaryotic genome editing with its high efficiency and easy operation. We constructed some "scissors plasmids" via using the temperature-sensitive pJOE8999 shuttle plasmid, which carry the different 20nt (N20) guiding the Cas9 nuclease as a scissors to break the target DNA. We successfully used scissors plasmids to eliminate native plasmids from Bacillus anthracis and Bacillus cereus, and specifically killed B. anthracis. When curing pXO1 and pXO2 virulence plasmids from B. anthracis A16PI2 and A16Q1, respectively, we found that the plasmid elimination percentage was slightly higher when the sgRNA targeted the replication initiation region (96-100%), rather than the non-replication initiation region (88-92%). We also tried using a mixture of two scissors plasmids to simultaneously eliminate pXO1 and pXO2 plasmids from B. anthracis, and the single and double plasmid-cured rates were 29 and 14%, respectively. To our surprise, when we used the scissor plasmid containing two tandem sgRNAs to cure the target plasmids pXO1 and pXO2 from wild strain B. anthracis A16 simultaneously, only the second sgRNA could guide Cas9 to cleave the target plasmid with high efficiency, while the first sgRNA didn't work in all the experiments we designed. When we used the CRISPR/cas9 system to eliminate the pCE1 mega-virulence plasmid from B. cereus BC307 by simply changing the sgRNA, we also obtained a plasmid-cured isogenic strain at a very high elimination rate (69%). The sterilization efficiency of B. anthracis was about 93%, which is similar to the efficiency of plasmid curing, and there was no significant difference in the efficiency of among the scissors plasmids containing single sgRNA, targeting multi-sites, or single-site targeting and the two tandem sgRNA. This simple and effective curing method, which is applicable to B. cereus group strains, provides a new way to study these bacteria and their virulence profiles.

10.
Pathogens ; 10(5)2021 May 06.
Artigo em Inglês | MEDLINE | ID: mdl-34066578

RESUMO

Three worldwide historical plague pandemics resulted in millions of deaths. Yersinia pestis, the etiologic agent of plague, is also a potential bioterrorist weapon. Simple, rapid, and specific detection of Y. pestis is important to prevent and control plague. However, the high similarity between Y. pestis and its sister species within the same genus makes detection work problematic. Here, the genome sequence from the Y. pestis CO92 strain was electronically separated into millions of fragments. These fragments were analyzed and compared with the genome sequences of 539 Y. pestis strains and 572 strains of 20 species within the Yersinia genus. Altogether, 97 Y. pestis-specific tags containing two or more single nucleotide polymorphism sites were screened out. These 97 tags efficiently distinguished Y. pestis from all other closely related species. We chose four of these tags to design a Cas12a-based detection system. PCR-fluorescence methodology was used to test the specificity of these tags, and the results showed that the fluorescence intensity produced by Y. pestis was significantly higher than that of non-Y. pestis (p < 0.0001). We then employed recombinase polymerase amplification and lateral flow dipsticks to visualize the results. Our newly developed plasmid-independent, species-specific library of tags completely and effectively screened chromosomal sequences. The detection limit of our four-tag Cas12a system reached picogram levels.

11.
Microorganisms ; 8(4)2020 Apr 10.
Artigo em Inglês | MEDLINE | ID: mdl-32290166

RESUMO

The Bacillus anthracis spore constitutes the infectious form of the bacterium, and sporulation is an important process in the organism's life cycle. Herein, we show that disruption of SpoVG resulted in defective B. anthracis sporulation. Confocal microscopy demonstrated that a ΔspoVG mutant could not form an asymmetric septum, the first morphological change observed during sporulation. Moreover, levels of spoIIE mRNA were reduced in the spoVG mutant, as demonstrated using ß-galactosidase activity assays. The effects on sporulation of the ΔspoVG mutation differed in B. anthracis from those in B. subtilis because of the redundant functions of SpoVG and SpoIIB in B. subtilis. SpoVG is highly conserved between B. anthracis and B. subtilis. Conversely, BA4688 (the protein tentatively assigned as SpoIIB in B. anthracis) and B. subtilis SpoIIB (SpoIIBBs) share only 27.9% sequence identity. On complementation of the B. anthracis ΔspoVG strain with spoIIBBs, the resulting strain pBspoIIBBs/ΔspoVG could not form resistant spores, but partially completed the prespore engulfment stage. In agreement with this finding, mRNA levels of the prespore engulfment gene spoIIM were significantly increased in strain pBspoIIBBs/ΔspoVG compared with the ΔspoVG strain. Transcription of the coat development gene cotE was similar in the pBspoIIBBs/ΔspoVG and ΔspoVG strains. Thus, unlike in B. subtilis, SpoVG appears to be required for sporulation in B. anthracis, which provides further insight into the sporulation mechanisms of this pathogen.

12.
Microbiol Res ; 233: 126414, 2020 Mar.
Artigo em Inglês | MEDLINE | ID: mdl-31981903

RESUMO

In pastoral parts of China, anthrax still presents a major risk to livestock and threatens the health of local human populations. Currently, whole-genome-based molecular markers, such as single-nucleotide polymorphisms (SNPs) and variable number tandem repeats (VNTRs), are the most effective tools for genotyping Bacillus anthracis. In this study, 191 isolates were selected to assess the diversity of B. anthracis in China. Five isolates were confirmed not to be B. anthracis by clustered regularly interspaced short palindromic repeat analysis, while the remaining 186 isolates were typed using canonical SNP (canSNP) and VNTR analyses. Five sublineages/subgroups, A.Br.001/002, A.Br.Vollum, A.Br.Aust.94, A.Br.Ames, and A.Br.008/009, were detected based on 13 canSNP sites. The 186 isolates were further assigned 114 sequence types based on 27 VNTR loci, with major branches correlating with the canSNP analysis. We then used a simplified multiple-locus variable number tandem repeat analysis (MLVA) protocol (MLVAmin) based on eight high-resolution VNTR sites to analyze the Chinese isolates, with the resulting phylogeny again agreeing with the canSNP analysis. We also developed two schemes, MLVAc and MLVAp, using various numbers of VNTRs to analyze different canSNP sublineages to increase the typing resolution of the canSNP protocol. The results showed a highly imbalanced geographical distribution of the B. anthracis population, with four different sublineages observed in Xinjiang Province, while only one sublineage, A.Br.001/002, was found in the other six provinces, except for three A.Br.Ames strains isolated from Inner Mongolia. Based on the MLVA and canSNP analysis, the spread of B. anthracis appears to have occurred from west to east via three independent routes.


Assuntos
Antraz/microbiologia , Bacillus anthracis/classificação , Variação Genética , Repetições Minissatélites , Polimorfismo de Nucleotídeo Único , Técnicas de Tipagem Bacteriana , China , Repetições Palindrômicas Curtas Agrupadas e Regularmente Espaçadas , Genótipo , Técnicas de Genotipagem , Humanos
13.
J Biotechnol ; 271: 8-16, 2018 Apr 10.
Artigo em Inglês | MEDLINE | ID: mdl-29438783

RESUMO

To investigate gene function in Bacillus anthracis, a high-efficiency cloning system is required with an increased rate of allelic exchange. Golden Gate cloning is a molecular cloning strategy allowing researchers to simultaneously and directionally assemble multiple DNA fragments to construct target plasmids using type IIs restriction enzymes and T4 DNA ligase in the same reaction system. Here, a B. anthracis S-layer protein EA1 allelic exchange vector was successfully constructed using the Golden Gate method. No new restriction sites were introduced into this knockout vector, and seamless assembly of the DNA fragments was achieved. To elevate the efficiency of homologous recombination between the allelic exchange vector and chromosomal DNA, we introduced an I-SceI site into the allelic exchange vector. The eag gene was successfully knocked out in B. anthracis using this vector. Simultaneously, the allelic exchange vector construction method was developed into a system for generating B. anthracis allelic exchange vectors. To verify the effectiveness of this system, some other allelic exchange vectors were constructed and gene replacements were performed in B. anthracis. It is speculated that this gene knockout vector construction system and high-efficiency targeted gene replacement using I-SceI endonuclease can be applied to other Bacillus spp.


Assuntos
Bacillus anthracis/genética , Clonagem Molecular/métodos , Glicoproteínas de Membrana/genética , DNA Ligases/metabolismo , Desoxirribonucleases de Sítio Específico do Tipo II/metabolismo , Vetores Genéticos/genética , Recombinação Homóloga
14.
NPJ Vaccines ; 3: 4, 2018.
Artigo em Inglês | MEDLINE | ID: mdl-29423317

RESUMO

Enteric fever, mainly caused by Salmonella enterica serovar Paratyphi A, remains a common and serious infectious disease worldwide. As yet, there are no licensed vaccines against S. Paratyphi A. Biosynthesis of conjugate vaccines has become a promising approach against bacterial infection. However, the popular biosynthetic strategy using N-linked glycosylation systems does not recognize the specialized O-polysaccharide structure of S. Paratyphi A. Here, we describe an O-linked glycosylation approach, the only currently available glycosylation system suitable for an S. Paratyphi A conjugate vaccine. We successfully generated a recombinant S. Paratyphi A strain with a longer O-polysaccharide chain and transformed the O-linked glycosylation system into the strain. Thus, we avoided the need for construction of an O-polysaccharide expression vector. In vivo assays indicated that this conjugate vaccine could evoke IgG1 antibody to O-antigen of S. Paratyphi A strain CMCC 50973 and elicit bactericidal activity against S. Paratyphi A strain CMCC 50973 and five other epidemic strains. Furthermore, we replaced the peptides after the glycosylation site (Ser) with an antigenic peptide (P2). The results showed that the anti-lipopolysaccharide antibody titer, bactericidal activity of serum, and protective effect during animal challenge could be improved, indicating a potential strategy for further vaccine design. Our system provides an easier and more economical method for the production of S. Paratyphi A conjugate vaccines. Modification of the glycosylation site sequon provides a potential approach for the development of next-generation "precise conjugate vaccines."

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