1.Role of small noncoding RNA in the regulation of bacterial virulence.
West China Journal of Stomatology 2016;34(4):433-438
In the long-term interaction between pathogens and host, the pathogens regulate the expression of related viru-lence genes to fit the host environment in response to the changes in the host microenvironment. Gene expression was believed to be controlled mainly at the level of transcription initiation by repressors or activators. Recent studies have revealed that small noncoding RNAs (sRNAs) are key regulators in bacterial pathogenesis. sRNA in bacteria is a noncoding RNA with length ranging from 50 to 500 nucleotides. Pathogens can sense the changes in the host environment and consequently regulate the expression of virulence genes by sRNAs. This condition promotes the ability of pathogens to survive within the host, which is beneficial to the invasion and pathogenicity of pathogens. In contrast to transcriptional factors, sRNA-mediated gene regu-lation makes rapid and sensitive responses to environmental cues. Many sRNAs involved in bacterial virulence and pathogenesis have been identified. These sRNAs are key components of coordinated regulation networks, playing important roles in regulating the expression of virulence genes at post-transcriptional level. This review aims to provide an overview on the molecular mechanisms and roles of sRNAs in the regulation of bacterial virulence.
Bacteria
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pathogenicity
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RNA, Bacterial
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RNA, Small Untranslated
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Virulence
2.Current Challenges in Bacterial Transcriptomics.
Suhyung CHO ; Yoobok CHO ; Sooin LEE ; Jayoung KIM ; Hyeji YUM ; Sun Chang KIM ; Byung Kwan CHO
Genomics & Informatics 2013;11(2):76-82
Over the past decade or so, dramatic developments in our ability to experimentally determine the content and function of genomes have taken place. In particular, next-generation sequencing technologies are now inspiring a new understanding of bacterial transcriptomes on a global scale. In bacterial cells, whole-transcriptome studies have not received attention, owing to the general view that bacterial genomes are simple. However, several recent RNA sequencing results are revealing unexpected levels of complexity in bacterial transcriptomes, indicating that the transcribed regions of genomes are much larger and complex than previously anticipated. In particular, these data show a wide array of small RNAs, antisense RNAs, and alternative transcripts. Here, we review how current transcriptomics are now revolutionizing our understanding of the complexity and regulation of bacterial transcriptomes.
Genome
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Genome, Bacterial
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Hypogonadism
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Mitochondrial Diseases
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Ophthalmoplegia
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RNA
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RNA, Antisense
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RNA, Satellite
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Sequence Analysis, RNA
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Transcription Initiation Site
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Transcriptome
3.Expression of Nucleotide-oligomerization Domain (NOD) and Related Genes in Mouse Tissues Infected with Mycobacterium leprae.
Tae Hoon KIM ; Gue Tae CHAE ; Tae Jin KANG
Immune Network 2015;15(6):319-324
The nucleotide-oligomerization domain (NOD) is an important molecule involved in host defense against bacterial infection. To study the role of NODs in the host response to Mycobacterium leprae, we measured the mRNA levels of NODs and related genes in infected mouse tissues. The mRNA expression of NOD1, NOD2, caspase-1 and ASC was increased in mouse footpads. Whereas NOD2 expression in macrophages was increased at 2 and 24 h post-infection with M. leprae, there was no expression of NOD1 at these time points. An increase in caspase-1 expression was observed at 2 h and continued at 24 h. However, the expression of ASC was increased only at the early time point. The expression of caspase-1 is regulated by NOD2-dependent pathway in established HEK 293. Our results suggest NOD2, rather than NOD1, may be associated with the host response to M. leprae and that caspase-1 activation is essential for the host response.
Animals
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Bacterial Infections
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Macrophages
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Mice*
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Mycobacterium leprae*
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Mycobacterium*
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RNA, Messenger
4.Analysis of the genome sequencing data of the Marinobacterium genus.
Mengru WANG ; Wei XI ; Zhengjun LI
Chinese Journal of Biotechnology 2020;36(12):2695-2706
The marine genus Marinobacterium was first identified in 1997, and a total of 18 species have been characterized so far, 10 of which have published whole-genome sequencing data. This article summarizes the characteristics of Marinobacterium genus and analyzes the genome sequencing data related to the carbon source utilization, polyhydroxyalkanoate metabolism, and aromatic compounds degradation. The Marinobacterium species possess the complete glycolysis pathway and tricarboxylic acid cycle, yet lack genes involved in xylose utilization. All strains of the Marinobacterium genus contain the genes encoding for the typeⅠand type Ⅲ polyhydroxyalkanoate synthases, suggesting that the genus may have ability of polyhydroxyalkanoate accumulation. The Marinobacterium species contain the degradation pathways of aromatic compounds. Benzene, phenol and benzoic acid can be degraded into catechol via different enzymes, subsequently catechol is converted to 3-ketoadipate through the ortho-cleavage pathway. Alternatively, catechol can be degraded into pyruvate and acetyl-CoA. The analysis of genome sequencing data of the Marinobacterium genus provides in-depth understanding of the metabolic characteristics, indicating that the genus may have certain applications in the synthesis of polyhydroxyalkanoate and the removal of marine aromatic compounds.
Alteromonadaceae
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DNA, Bacterial
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Phylogeny
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RNA, Ribosomal, 16S
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Sequence Analysis, DNA
5.Research on the procedure for recovery and species identification of Legionella from surface environmental water.
Ping-Hua QU ; Yi-Bing YIN ; Zhao-Hui HU ; Qing-Yi ZHU ; Ya-Jun SONG ; Rui-Fu YANG ; Yuan-Li LIU ; Pu LI
Chinese Journal of Preventive Medicine 2008;42(9):653-657
OBJECTIVETo establish a set of procedure for recovery and species identification of Legionella from the surface environmental water.
METHODSForty-four water samples were collected in eight parks of Guangzhou city from August to November in 2006. The bacteriologic examination was performed by cultivation on BCYEalpha plate, and 108 presumptive Legionella colonies were picked and their homogeneous relationship was analyzed by using an amplified fragment length polymorphism (AFLP) method. Species identification was carried out by latex agglutination test, biochemical characterization, analysis of cellular fatty acids composition, 16 S rRNA gene and mip gene sequencing.
RESULTSLegionella was recovered among 27 (61.36%) samples of all eight parks, and 31 different strains were identified from those 108 presumptive Legionella isolates by AFLP method, including 20 strains of L. pneumophila, five strains of L. feeleii, four strains of L. longbeachae, one strain of L. oakridgensis and one strain of L. sainthelensi, and L. pneumophila could be easily differentiated by phenotypic and biochemical characteristics, latex agglutination test or analysis of the cellular fatty acids composition . However, uncertain factors were existing in those phenotypic identification methods as compared to the sequence analysis.
CONCLUSIONThe taxonomic analysis of the Legionellae family should be dependent on the 16 S rRNA gene or mip gene.
Bacteriological Techniques ; DNA, Bacterial ; genetics ; Environmental Monitoring ; methods ; Legionella ; genetics ; isolation & purification ; RNA, Bacterial ; RNA, Ribosomal, 16S ; Water Microbiology
6.Tracing the Variation in Physiological Response to Rifampicin Across the Microbial Spectrum.
Abhinav DEY ; Dipankar CHATTERJI
Journal of Bacteriology and Virology 2012;42(2):87-100
Rifampicin is an acknowledged inhibitor of bacterial RNA polymerase. We observed that there exists a substantial variation in the basal-level tolerance to rifampicin across microbial species. A number of mechanisms have come to light which depict the molecular aspects of the behavior of an individual bacterial cell towards rifampicin. This review assesses the current knowledge about rifampicin and conjectures about the probable aspects of rifampicin which remain unexplored.
DNA-Directed RNA Polymerases
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Drug Resistance, Microbial
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Light
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Rifampin
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RNA, Bacterial
7.Establishment of quantifying and typing analysis of 16S rRNA gene by real-time PCR.
Xiao-Li SHU ; Yi-Dong WU ; Shi-Qiang SHANG
Chinese Journal of Contemporary Pediatrics 2008;10(6):732-736
OBJECTIVETo explore a new method of rapid and reliable diagnosis of bacterial infectious diseases such as purulent meningitis and septicemia.
METHODSA pair of universal primers and a set of probes (including universal fluorescence probe, Gram-positive probe and Gram-negative probe) were designed based on the bacterial highly conserved region of 16S rRNA gene. By using the FQ-PCR method, 12 standard strains, 23 clinical cultural isolations and the controls such as HBV, Cryptococcus histolyticus, Blastomyces albicans and human DNA were detected with the three kinds of probes. The correlation among the results of the three kinds of probes detection was analyzed.
RESULTSThe determination of 16S rRNA gene with FQ-PCR was a highly specific and sensitive method and not cross-reactive with human DNA, virus or fungi. The least amount of 10 copies of 16S rRNA gene which corresponded to 2 bacteria could be detected with FQ-PCR. Twelve standard strains and 23 clinical cultural isolations were detected by FQ-PCR with the three kinds of probes mentioned above. All samples presented positive results using the universal probe. The results of 16S rRNA gene detected by the Gramjpositive probe were positive to the 18 G+ strains. The results of 16S rRNA gene detected by the Gram-probe were positive to the 17 G- strains.
CONCLUSIONSThe FQ-PCR technique was established for bacteria quantifying and typing using the universal primer and the double type probes. This method was convenient and rapid in detecting, quantifying and typing bacteria, with a high specificity and sensitivity.
Fluorescence ; Genes, rRNA ; Humans ; Polymerase Chain Reaction ; methods ; RNA, Bacterial ; genetics ; RNA, Ribosomal, 16S ; genetics
8.Compiling Multicopy Single-Stranded DNA Sequences from Bacterial Genome Sequences.
Wonseok YOO ; Dongbin LIM ; Sangsoo KIM
Genomics & Informatics 2016;14(1):29-33
A retron is a bacterial retroelement that encodes an RNA gene and a reverse transcriptase (RT). The former, once transcribed, works as a template primer for reverse transcription by the latter. The resulting DNA is covalently linked to the upstream part of the RNA; this chimera is called multicopy single-stranded DNA (msDNA), which is extrachromosomal DNA found in many bacterial species. Based on the conserved features in the eight known msDNA sequences, we developed a detection method and applied it to scan National Center for Biotechnology Information (NCBI) RefSeq bacterial genome sequences. Among 16,844 bacterial sequences possessing a retron-type RT domain, we identified 48 unique types of msDNA. Currently, the biological role of msDNA is not well understood. Our work will be a useful tool in studying the distribution, evolution, and physiological role of msDNA.
Biotechnology
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Chimera
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DNA
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DNA, Single-Stranded*
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Genome, Bacterial*
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Retroelements
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Reverse Transcription
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RNA
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RNA-Directed DNA Polymerase
9.Three Cases of Moraxella osloensis Meningitis: A Difficult Experience in Species Identification and Determination of Clinical Significance.
Kyoung Ho ROH ; Chang Ki KIM ; Eunmi KOH ; Myung Sook KIM ; Dongeun YONG ; Soo Chul PARK ; Kyungwon LEE ; Yunsop CHONG
Journal of Korean Medical Science 2010;25(3):501-504
We had three cases of Moraxella osloensis meningitis. The species identification was impossible by conventional and commercial phenotypic tests. However, we could identify the species using the 16S rRNA gene sequencing. Determination of clinical significance was difficult in one patient. All three patients recovered by appropriate antimicrobial therapy.
Adolescent
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Aged, 80 and over
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Anti-Bacterial Agents/therapeutic use
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*Bacterial Typing Techniques
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Child, Preschool
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Female
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Humans
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Male
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Meningitis, Bacterial/drug therapy/*microbiology
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Moraxella/*pathogenicity
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Moraxellaceae Infections/drug therapy/*microbiology
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RNA, Bacterial/analysis
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RNA, Ribosomal, 16S/analysis
10.Incidence of Erythromycin Resistance Genes, erm(B) and mef(A), in Streptococci Isolated from Dental Plaques of Koreans.
International Journal of Oral Biology 2013;38(2):61-65
Erythromycin is a macrolide antibiotic and inhibits bacterial protein synthesis by stimulating the dissociation of the peptidyl-tRNA molecule from the ribosomes during elongation. The use of macrolides has increased dramatically over the last few years and has led to an increase in bacterial resistance to these antibiotics. Bacterial resistance to erythromycin is generally conferred by the ribosome methylation and/or transport (efflux) protein genes. Among the identified erythromycin-resistant genes, erm(B) (erythromycin methylation) and mef(A) (macrolide efflux) are generally detectable in erythromycin-resistant streptococcal species. The distribution of these genes in oral streptococcal isolates has been reported in studies from other countries but has not been previously examined in a Korean study. We here examined by PCR the presence of erm(B) and mef(A) in oral streptococci isolated from Korean dental plaques. Among the 57 erythromycin-resistant strains tested, 64.9% harbored erm(B) whereas 40.4% were positive for mef(A). Eleven isolates had both the erm(B) and mef(A) genes. Twenty six isolates had only erm(B) and 12 isolates had only mef(A). Eight of the 57 strains examined were negative for both genes.
Anti-Bacterial Agents
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Bacterial Proteins
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Dissociative Disorders
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Erythromycin
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Incidence
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Macrolides
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Methylation
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Polymerase Chain Reaction
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Ribosomes
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RNA, Transfer, Amino Acyl