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1.
J Vis Exp ; (202)2023 Dec 15.
Artigo em Inglês | MEDLINE | ID: mdl-38163269

RESUMO

Hepatitis B virus (HBV) is a significant cause of liver disease worldwide. It can lead to acute or chronic infections, making individuals highly susceptible to fatal cirrhosis and liver cancer. Accurate detection and quantification of HBV DNA in the blood are essential for diagnosing and monitoring HBV infection. The most common method for detecting HBV DNA is real-time PCR, which can be used to detect the virus and assess the viral load to monitor the response to antiviral therapy. Here, we describe a detailed protocol for the detection and quantification of HBV DNA in human serum or plasma using an IVD-marked real-time PCR-based kit. The kit uses primers and probes that target the highly conserved core region of the HBV genome and can accurately quantify all HBV genotypes (A, B, C, D, E, F, G, H, I, and J). The kit also includes an endogenous internal control to monitor possible PCR inhibition. This assay runs for 40 cycles, and its cutoff is 38 Ct. For the quantification of HBV DNA in clinical samples, a set of 5 quantification standards is provided with the kit. The standards contain known concentrations of HBV-specific DNA that are calibrated against the 4th WHO International Standard for HBV DNA for the nucleic acid test (NIBSC code 10/266). The standards are used to validate the functionality of the HBV-specific DNA amplification and to generate a standard curve, allowing the quantification of HBV DNA in a sample. HBV DNA as low as 2.5 IU/mL was detected using the PCR kit. The high sensitivity and reproducibility of the kit make it a powerful tool in clinical laboratories, aiding healthcare professionals in effectively diagnosing and managing HBV infections.


Assuntos
Vírus da Hepatite B , Hepatite B , Humanos , Vírus da Hepatite B/genética , Reação em Cadeia da Polimerase em Tempo Real/métodos , DNA Viral/genética , DNA Viral/análise , Reprodutibilidade dos Testes , Carga Viral/métodos , Sensibilidade e Especificidade
2.
Front Microbiol ; 12: 638331, 2021.
Artigo em Inglês | MEDLINE | ID: mdl-34276582

RESUMO

Foodborne illness caused by pathogenic Vibrios is generally associated with the consumption of raw or undercooked seafood. Fish and other seafood can be contaminated with Vibrio species, natural inhabitants of the marine, estuarine, and freshwater environment. Pathogenic Vibrios of major public health concerns are Vibrio cholerae, Vibrio parahaemolyticus, and Vibrio vulnificus. Common symptoms of foodborne Vibrio infection include watery diarrhea, stomach cramping, nausea, vomiting, fever, and chills. Administration of oral or intravenous rehydration salts solution is the mainstay for the management of cholera, and antibiotics are also used to shorten the duration of diarrhea and to limit further transmission of the disease. Currently, doxycycline, azithromycin, or ciprofloxacin are commonly used for V. cholerae, and doxycycline or quinolone are administered for V. parahaemolyticus, whereas doxycycline and a third-generation cephalosporin are recommended for V. vulnificus as initial treatment regimen. The emergence of antimicrobial resistance (AMR) in Vibrios is increasingly common across the globe and a decrease in the effectiveness of commonly available antibiotics poses a global threat to public health. Recent progress in comparative genomic studies suggests that the genomes of the drug-resistant Vibrios harbor mobile genetic elements like plasmids, integrating conjugative elements, superintegron, transposable elements, and insertion sequences, which are the major carriers of genetic determinants encoding antimicrobial resistance. These mobile genetic elements are highly dynamic and could potentially propagate to other bacteria through horizontal gene transfer (HGT). To combat the serious threat of rising AMR, it is crucial to develop strategies for robust surveillance, use of new/novel pharmaceuticals, and prevention of antibiotic misuse.

3.
Wellcome Open Res ; 5: 184, 2020.
Artigo em Inglês | MEDLINE | ID: mdl-32995557

RESUMO

Background: India first detected SARS-CoV-2, causal agent of COVID-19 in late January 2020, imported from Wuhan, China. From March 2020 onwards, the importation of cases from countries in the rest of the world followed by seeding of local transmission triggered further outbreaks in India. Methods: We used ARTIC protocol-based tiling amplicon sequencing of SARS-CoV-2 (n=104) from different states of India using a combination of MinION and MinIT sequencing from Oxford Nanopore Technology to understand how introduction and local transmission occurred. Results: The analyses revealed multiple introductions of SARS-CoV-2 genomes, including the A2a cluster from Europe and the USA, A3 cluster from Middle East and A4 cluster (haplotype redefined) from Southeast Asia (Indonesia, Thailand and Malaysia) and Central Asia (Kyrgyzstan). The local transmission and persistence of genomes A4, A2a and A3 was also observed in the studied locations. The most prevalent genomes with patterns of variance (confined in a cluster) remain unclassified, and are here proposed as A4-clade based on its divergence within the A cluster. Conclusions: The viral haplotypes may link their persistence to geo-climatic conditions and host response. Multipronged strategies including molecular surveillance based on real-time viral genomic data is of paramount importance for a timely management of the pandemic.

4.
Proc Natl Acad Sci U S A ; 117(38): 23762-23773, 2020 09 22.
Artigo em Inglês | MEDLINE | ID: mdl-32873641

RESUMO

Bacterial species are hosts to horizontally acquired mobile genetic elements (MGEs), which encode virulence, toxin, antimicrobial resistance, and other metabolic functions. The bipartite genome of Vibrio cholerae harbors sporadic and conserved MGEs that contribute in the disease development and survival of the pathogens. For a comprehensive understanding of dynamics of MGEs in the bacterial genome, we engineered the genome of V. cholerae and examined in vitro and in vivo stability of genomic islands (GIs), integrative conjugative elements (ICEs), and prophages. Recombinant vectors carrying the integration module of these GIs, ICE and CTXΦ, helped us to understand the efficiency of integrations of MGEs in the V. cholerae chromosome. We have deleted more than 250 acquired genes from 6 different loci in the V. cholerae chromosome and showed contribution of CTX prophage in the essentiality of SOS response master regulator LexA, which is otherwise not essential for viability in other bacteria, including Escherichia coli In addition, we observed that the core genome-encoded RecA helps CTXΦ to bypass V. cholerae immunity and allow it to replicate in the host bacterium in the presence of similar prophage in the chromosome. Finally, our proteomics analysis reveals the importance of MGEs in modulating the levels of cellular proteome. This study engineered the genome of V. cholerae to remove all of the GIs, ICEs, and prophages and revealed important interactions between core and acquired genomes.


Assuntos
Genoma Bacteriano/genética , Ilhas Genômicas/genética , Vibrio cholerae/genética , Proteínas de Bactérias/genética , Conjugação Genética/genética , Engenharia Genética , Sequências Repetitivas Dispersas/genética , Prófagos/genética , Serina Endopeptidases/genética , Vibrio cholerae/patogenicidade
5.
Front Microbiol ; 10: 2562, 2019.
Artigo em Inglês | MEDLINE | ID: mdl-31787954

RESUMO

Toxigenic Vibrio cholerae strains, including strains in serogroups O1 and O139 associated with the clinical disease cholera, are ubiquitous in aquatic reservoirs, including fresh, estuarine, and marine environments. Humans acquire cholera by consuming water and/or food contaminated with the microorganism. The genome of toxigenic V. cholerae harbors a cholera-toxin producing prophage (CT-prophage) encoding genes that promote expression of cholera toxin. The CT-prophage in V. cholerae is flanked by two satellite prophages, RS1 and TLC. Using cell surface appendages (TCP and/or MSHA pili), V. cholerae can sequentially acquire TLC, RS1, and CTX phages by transduction; the genome of each of these phages ultimately integrates into V. cholerae's genome in a site-specific manner. Here, we showed that a non-toxigenic V. cholerae O1 biotype El Tor strain, lacking the entire RS1-CTX-TLC prophage complex (designated as RCT: R for RS1, C for CTX and T for TLC prophage, respectively), was able to acquire RCT from donor genomic DNA (gDNA) of a wild-type V. cholerae strain (E7946) via chitin-induced transformation. Moreover, we demonstrated that a chitin-induced transformant (designated as AAS111) harboring RCT was capable of producing cholera toxin. We also showed that recA, rather than xerC and xerD recombinases, promoted the acquisition of RCT from donor gDNA by the recipient non-toxigenic V. cholerae strain. Our data document the existence of an alternative pathway by which a non-toxigenic V. cholerae O1 strain can transform to a toxigenic strain by using chitin induction. As chitin is an abundant natural carbon source in aquatic reservoirs where V. cholerae is present, chitin-induced transformation may be an important driver in the emergence of new toxigenic V. cholerae strains.

6.
Proc Natl Acad Sci U S A ; 116(13): 6226-6231, 2019 03 26.
Artigo em Inglês | MEDLINE | ID: mdl-30867296

RESUMO

The Bay of Bengal is known as the epicenter for seeding several devastating cholera outbreaks across the globe. Vibrio cholerae, the etiological agent of cholera, has extraordinary competency to acquire exogenous DNA by horizontal gene transfer (HGT) and adapt them into its genome for structuring metabolic processes, developing drug resistance, and colonizing the human intestine. Antimicrobial resistance (AMR) in V. cholerae has become a global concern. However, little is known about the identity of the resistance traits, source of AMR genes, acquisition process, and stability of the genetic elements linked with resistance genes in V. cholerae Here we present details of AMR profiles of 443 V. cholerae strains isolated from the stool samples of diarrheal patients from two regions of India. We sequenced the whole genome of multidrug-resistant (MDR) and extensively drug-resistant (XDR) V. cholerae to identify AMR genes and genomic elements that harbor the resistance traits. Our genomic findings were further confirmed by proteome analysis. We also engineered the genome of V. cholerae to monitor the importance of the autonomously replicating plasmid and core genome in the resistance profile. Our findings provided insights into the genomes of recent cholera isolates and identified several acquired traits including plasmids, transposons, integrative conjugative elements (ICEs), pathogenicity islands (PIs), prophages, and gene cassettes that confer fitness to the pathogen. The knowledge generated from this study would help in better understanding of V. cholerae evolution and management of cholera disease by providing clinical guidance on preferred treatment regimens.


Assuntos
Cólera/microbiologia , Farmacorresistência Bacteriana Múltipla/genética , Transferência Genética Horizontal , Genoma Bacteriano/genética , Vibrio cholerae/genética , Antibacterianos/farmacologia , Conjugação Genética/genética , Elementos de DNA Transponíveis/genética , Diarreia/microbiologia , Evolução Molecular , Fezes/microbiologia , Variação Genética , Ilhas Genômicas/genética , Humanos , Imipenem/farmacologia , Índia , Sequências Repetitivas Dispersas/genética , Fenótipo , Plasmídeos/genética , Prófagos/genética , Proteoma , Vibrio cholerae/efeitos dos fármacos , Vibrio cholerae/isolamento & purificação , Vibrio cholerae/patogenicidade , Vibrio cholerae O1/genética , Vibrio cholerae O1/isolamento & purificação , Vibrio cholerae O1/patogenicidade , Sequenciamento Completo do Genoma
7.
Microb Ecol ; 77(2): 546-557, 2019 Feb.
Artigo em Inglês | MEDLINE | ID: mdl-30009332

RESUMO

Antimicrobial resistance (AMR) among bacterial species that resides in complex ecosystems is a natural phenomenon. Indiscriminate use of antimicrobials in healthcare, livestock, and agriculture provides an evolutionary advantage to the resistant variants to dominate the ecosystem. Ascendency of resistant variants threatens the efficacy of most, if not all, of the antimicrobial drugs commonly used to prevent and/or cure microbial infections. Resistant phenotype is very common in enteric bacteria. The most common mechanisms of AMR are enzymatic modifications to the antimicrobials or their target molecules. In enteric bacteria, most of the resistance traits are acquired by horizontal gene transfer from closely or distantly related bacterial population. AMR traits are generally linked with mobile genetic elements (MGEs) and could rapidly disseminate to the bacterial species through horizontal gene transfer (HGT) from a pool of resistance genes. Although prevalence of AMR genes among pathogenic bacteria is widely studied in the interest of infectious disease management, the resistance profile and the genetic traits that encode resistance to the commensal microbiota residing in the gut of healthy humans are not well-studied. In the present study, we have characterized AMR phenotypes and genotypes of five dominant commensal enteric bacteria isolated from the gut of healthy Indians. Our study revealed that like pathogenic bacteria, enteric commensals are also multidrug-resistant. The genes encoding antibiotic resistance are physically linked with MGEs and could disseminate vertically to the progeny and laterally to the distantly related microbial species. Consequently, the AMR genes present in the chromosome of commensal gut bacteria could be a potential source of resistance functions for other enteric pathogens.


Assuntos
Farmacorresistência Bacteriana/genética , Microbioma Gastrointestinal/genética , Genes Bacterianos/genética , Fenótipo , Simbiose , Antibacterianos/farmacologia , Bactérias/efeitos dos fármacos , Bactérias/genética , Bactérias/isolamento & purificação , Elementos de DNA Transponíveis/genética , Fezes/microbiologia , Microbioma Gastrointestinal/efeitos dos fármacos , Transferência Genética Horizontal/genética , Genoma Bacteriano , Genótipo , Humanos , Sequências Repetitivas Dispersas/genética , Metagenoma/genética , Testes de Sensibilidade Microbiana , Transformação Genética/genética , Vibrio cholerae/genética , Sequenciamento Completo do Genoma
8.
Sci Rep ; 8(1): 10104, 2018 07 04.
Artigo em Inglês | MEDLINE | ID: mdl-29973712

RESUMO

The diversity and basic functional attributes of the gut microbiome of healthy Indians is not well understood. This study investigated the gut microbiome of three Indian communities: individuals residing in rural and urban (n = 49) sea level Ballabhgarh areas and in rural high altitude areas of Leh, Ladakh in North India (n = 35). Our study revealed that the gut microbiome of Indian communities is dominated by Firmicutes followed by Bacteroidetes, Actinobateria and Proteobacteria. Although, 54 core bacterial genera were detected across the three distinct communities, the gut bacterial composition displayed specific signatures and was observed to be influenced by the topographical location and dietary intake of the individuals. The gut microbiome of individuals living in Leh was observed to be significantly similar with a high representation of Bacteroidetes and low abundance of Proteobacteria. In contrast, the gut microbiome of individuals living in Ballabhgarh areas harbored higher number of Firmicutes and Proteobacteria and is enriched with microbial xenobiotic degradation pathways. The rural community residing in sea level Ballabhgarh areas has unique microbiome characterized not only by a higher diversity, but also a higher degree of interindividual homogeneity.


Assuntos
Altitude , Microbioma Gastrointestinal , Actinobacteria/isolamento & purificação , Adolescente , Adulto , Bacteroidetes/isolamento & purificação , Dieta , Feminino , Firmicutes/isolamento & purificação , Humanos , Índia , Masculino , Pessoa de Meia-Idade , Proteobactérias/isolamento & purificação , População Rural , População Urbana
9.
Recent Pat Biotechnol ; 12(3): 200-207, 2018.
Artigo em Inglês | MEDLINE | ID: mdl-29473528

RESUMO

BACKGROUND: Genomic islands (GIs) are discrete segments of mobile DNA with defined boundaries according to recent patents, acquired in the bacterial genome from another organism by horizontal gene transfer during the course of evolution. GIs contribute significantly to virulence, disease development, antimicrobial resistance and metabolic process. OBJECTIVE: The present study focuses on the development of a vector based genetic tool carrying selectable and counter-selectable markers, in order to flag the GIs in the bacterial chromosome and monitor their stability under in vitro and in vivo conditions. METHOD: We engineered suicide vectors, pSB40 and pSB41, carrying single or tandem copies of chloramphenicol acetyltransferase (cat) and levansucrase (sacB) alleles, respectively. The sacB-cat allele in both the vectors is flanked by several restriction sites. To test the suitability of sacB-cat allele for monitoring GI loss, we introduced the allele in the Vibrio Pathogenicity Island-1 (VPI-1) in Vibrio cholerae genome. RESULTS: The V. cholerae strain carrying sacB-cat allele in VPI-1 element showed resistance to chloramphenicol and sensitivity to sucrose at optimal growth conditions. Loss of VPI-1 element from the V. cholerae genome was simply monitored by growing the cells on selection agar plates supplemented with sucrose. Our results showed that the genetic tool we developed is suitable for monitoring GI stability in the bacterial genome. CONCLUSION: The present study indicates that pSB40 and pSB41are efficient and sensitive genetic tool that can be used for reverse genetics experiments and monitoring stability of mobile genetic elements in the bacterial genome.


Assuntos
Marcação de Genes/métodos , Vetores Genéticos , Instabilidade Genômica , Ilhas Genômicas/genética , Cloranfenicol O-Acetiltransferase/genética , Hexosiltransferases/genética , Patentes como Assunto , Vibrio cholerae/genética , Virulência/genética
10.
Genome Announc ; 5(47)2017 Nov 22.
Artigo em Inglês | MEDLINE | ID: mdl-29167267

RESUMO

Collinsella aerofaciens, a rod-shaped nonmotile obligate anaerobe, is the most abundant actinobacterium in the gastrointestinal tract of healthy humans. An altered abundance of C. aerofaciens may be linked with several health disorders, including irritable bowel syndrome. In the present study, we report the complete genome sequence of C. aerofaciens strain indica.

11.
Sci Rep ; 7(1): 14468, 2017 10 31.
Artigo em Inglês | MEDLINE | ID: mdl-29089611

RESUMO

Emergence of antimicrobial resistant Gram-negative bacteria has created a serious global health crisis and threatens the effectiveness of most, if not all, antibiotics commonly used to prevent and treat bacterial infections. There is a dearth of detailed studies on the prevalence of antimicrobial resistance (AMR) patterns in India. Here, we have isolated and examined AMR patterns of 654 enteric pathogens and investigated complete genome sequences of isolates from six representative genera, which in aggregate encode resistance against 22 antibiotics representing nine distinct drug classes. This study revealed that ~97% isolates are resistant against ≥2 antibiotics, ~24% isolates are resistant against ≥10 antibiotics and ~3% isolates are resistant against ≥15 antibiotics. Analyses of whole genome sequences of six extensive drug resistant enteric pathogens revealed presence of multiple mobile genetic elements, which are physically linked with resistance traits. These elements are therefore appearing to be responsible for disseminating drug resistance among bacteria through horizontal gene transfer. The present study provides insights into the linkages between the resistance patterns to certain antibiotics and their usage in India. The findings would be useful to understand the genetics of resistance traits and severity of and difficulty in tackling AMR enteric pathogens.


Assuntos
Farmacorresistência Bacteriana/efeitos dos fármacos , Resistência a Múltiplos Medicamentos/genética , Microbioma Gastrointestinal/genética , Antibacterianos/farmacologia , Bactérias/genética , Infecções Bacterianas/tratamento farmacológico , Farmacorresistência Bacteriana Múltipla/genética , Microbioma Gastrointestinal/efeitos dos fármacos , Bactérias Gram-Negativas/efeitos dos fármacos , Humanos , Índia , Testes de Sensibilidade Microbiana , Fenótipo , Sequenciamento Completo do Genoma
12.
Genome Announc ; 5(46)2017 Nov 16.
Artigo em Inglês | MEDLINE | ID: mdl-29146862

RESUMO

Faecalibacterium prausnitzii is the most abundant (~4%) member of the phylum Firmicutes found in the colon of healthy humans. It is a strict anaerobe and plays an important role in intestinal homeostasis. Here, we report the complete genome sequence of F. prausnitzii strain Indica.

13.
Sci Rep ; 7(1): 15438, 2017 11 13.
Artigo em Inglês | MEDLINE | ID: mdl-29133866

RESUMO

The gastric microbiome is suspected to have a role in the causation of diseases by Helicobacter pylori. Reports on their relative abundance vis-à-vis H. pylori are available from various ethnic and geographic groups, but little is known about their interaction patterns. Endoscopic mucosal biopsy samples from the gastric antrum and corpus of 39 patients with suspected H. pylori infection were collected and microbiomes were analyzed by 16S rDNA profiling. Four groups of samples were identified, which harbored Helicobacter as well as a diverse group of bacteria including Lactobacillus, Halomonas and Prevotella. There was a negative association between the microbiome diversity and Helicobacter abundance. Network analyses showed that Helicobacter had negative interactions with members of the gastric microbiome, while other microbes interacted positively with each other, showing a higher tendency towards intra-cluster co-occurrence/co-operation. Cross-geographic comparisons suggested the presence of region-specific microbial abundance profiles. We report the microbial diversity, abundance variation and interaction patterns of the gastric microbiota of Indian patients with H. pylori infection and present a comparison of the same with the gastric microbial ecology in samples from different geographic regions. Such microbial abundance profiles and microbial interactions can help in understanding the pathophysiology of gastric ailments and can thus help in development of new strategies to curb it.


Assuntos
Mucosa Gástrica/microbiologia , Microbioma Gastrointestinal/fisiologia , Infecções por Helicobacter/microbiologia , Interações Microbianas , Adulto , Idoso , Idoso de 80 Anos ou mais , DNA Bacteriano/isolamento & purificação , Feminino , Halomonas/isolamento & purificação , Halomonas/fisiologia , Helicobacter pylori/isolamento & purificação , Helicobacter pylori/fisiologia , Humanos , Índia , Lactobacillus/isolamento & purificação , Lactobacillus/fisiologia , Masculino , Pessoa de Meia-Idade , Prevotella/isolamento & purificação , Prevotella/fisiologia , RNA Ribossômico 16S/genética , Adulto Jovem
14.
Genome Announc ; 5(42)2017 Oct 19.
Artigo em Inglês | MEDLINE | ID: mdl-29051237

RESUMO

Megasphaera elsdenii has been previously reported in the gut of ruminating animals. Its role as an animal probiotic is being investigated, specifically from the perspective of enhancing animal productivity. Herein, we report the draft genome sequence of M. elsdenii strain indica isolated from the stool sample of a healthy Indian subject.

15.
Genome Announc ; 5(41)2017 Oct 12.
Artigo em Inglês | MEDLINE | ID: mdl-29025929

RESUMO

Bifidobacterium longum, a Gram-positive rod-shaped anaerobic bacterium, inhabits the human gastrointestinal tract and contributes significantly to oligosaccharide production, amino acid metabolism, and protection against intestinal inflammation. Here, we report the whole-genome sequence of B. longum, which was isolated from the gastrointestinal tract of a healthy Indian adult.

16.
Genome Announc ; 5(37)2017 Sep 14.
Artigo em Inglês | MEDLINE | ID: mdl-28912310

RESUMO

Prevotella copri, a Gram-negative anaerobic rod-shaped bacterium, is frequently associated with the human gastrointestinal tract and influences host physiology, immunity, and metabolic pathways. In the present study, we report the draft genome sequence of P. copri isolated from the gut of a healthy Indian adult.

17.
J Med Microbiol ; 65(10): 1130-1136, 2016 Oct.
Artigo em Inglês | MEDLINE | ID: mdl-27561681

RESUMO

Vibrio cholerae causes cholera outbreaks in endemic regions where the water quality and sanitation facilities remain poor. Apart from biotype and serotype changes, V. cholerae undergoes phase variation, which results in the generation of two morphologically different variants termed smooth and rugose. In this study, 12 rugose (R-VC) and 6 smooth (S-VC) V. cholerae O1 Ogawa isolates were identified in a cholera outbreak that occurred in Hyderabad, India. Antimicrobial susceptibility results showed that all the isolates were resistant to ampicillin, furazolidone and nalidixic acid. In addition, R-VC isolates were resistant to ciprofloxacin (92 %), streptomycin (92 %), erythromycin (83 %), trimethoprim-sulfamethoxazole (75 %) and tetracycline (75 %). Based on the ctxB gene analysis, all the isolates were identified as El Tor variant with mutation in two positions of ctxB, similar to the classical biotype. The R-VC isolates specifically showed excessive biofilm formation and were comparatively less motile. In addition, the majority of these isolates (~83 %) displayed random mutations in the hapR gene, which encodes haemagglutinin protease regulatory protein. In the PFGE analysis, R-VC and S-VC were placed in distinct clusters but remained clonally related. In the ribotyping analysis, all the R-VC isolates exhibited R-III pattern, which is a prevailing type among the current El Tor isolates. A hapR deletion mutant generated using an S-VC isolate expressed rugose phenotype. To our knowledge, this is the first report on the association of rugose V. cholerae O1 in a large cholera outbreak with extended antimicrobial resistance and random mutations in the haemagglutinin protease regulatory protein encoding gene (hapR).


Assuntos
Cólera/microbiologia , Vibrio cholerae O1/isolamento & purificação , Antibacterianos/farmacologia , Proteínas de Bactérias/genética , Proteínas de Bactérias/metabolismo , Biofilmes , Cólera/epidemiologia , Surtos de Doenças , Genótipo , Humanos , Índia/epidemiologia , Testes de Sensibilidade Microbiana , Vibrio cholerae O1/classificação , Vibrio cholerae O1/genética , Vibrio cholerae O1/fisiologia
18.
Sci Rep ; 6: 26775, 2016 05 31.
Artigo em Inglês | MEDLINE | ID: mdl-27240745

RESUMO

To explore the natural microbial community of any ecosystems by high-resolution molecular approaches including next generation sequencing, it is extremely important to develop a sensitive and reproducible DNA extraction method that facilitate isolation of microbial DNA of sufficient purity and quantity from culturable and uncultured microbial species living in that environment. Proper lysis of heterogeneous community microbial cells without damaging their genomes is a major challenge. In this study, we have developed an improved method for extraction of community DNA from different environmental and human origin samples. We introduced a combination of physical, chemical and mechanical lysis methods for proper lysis of microbial inhabitants. The community microbial DNA was precipitated by using salt and organic solvent. Both the quality and quantity of isolated DNA was compared with the existing methodologies and the supremacy of our method was confirmed. Maximum recovery of genomic DNA in the absence of substantial amount of impurities made the method convenient for nucleic acid extraction. The nucleic acids obtained using this method are suitable for different downstream applications. This improved method has been named as the THSTI method to depict the Institute where the method was developed.


Assuntos
DNA/isolamento & purificação , Metagenômica/métodos , DNA Bacteriano/isolamento & purificação , Genoma Microbiano , Sequenciamento de Nucleotídeos em Larga Escala , Humanos , Microbiologia do Solo
19.
J Bacteriol ; 198(2): 268-75, 2016 01 15.
Artigo em Inglês | MEDLINE | ID: mdl-26503849

RESUMO

UNLABELLED: The genesis of toxigenic Vibrio cholerae involves acquisition of CTXϕ, a single-stranded DNA (ssDNA) filamentous phage that encodes cholera toxin (CT). The phage exploits host-encoded tyrosine recombinases (XerC and XerD) for chromosomal integration and lysogenic conversion. The replicative genome of CTXϕ produces ssDNA by rolling-circle replication, which may be used either for virion production or for integration into host chromosome. Fine-tuning of different ssDNA binding protein (Ssb) levels in the host cell is crucial for cellular functioning and important for CTXϕ integration. In this study, we mutated the master regulator gene of SOS induction, lexA, of V. cholerae because of its known role in controlling levels of Ssb proteins in other bacteria. CTXϕ integration decreased in cells with a ΔlexA mutation and increased in cells with an SOS-noninducing mutation, lexA (Ind(-)). We also observed that overexpression of host-encoded Ssb (VC0397) decreased integration of CTXϕ. We propose that LexA helps CTXϕ integration, possibly by fine-tuning levels of host- and phage-encoded Ssbs. IMPORTANCE: Cholera toxin is the principal virulence factor responsible for the acute diarrheal disease cholera. CT is encoded in the genome of a lysogenic filamentous phage, CTXϕ. Vibrio cholerae has a bipartite genome and harbors single or multiple copies of CTXϕ prophage in one or both chromosomes. Two host-encoded tyrosine recombinases (XerC and XerD) recognize the folded ssDNA genome of CTXϕ and catalyze its integration at the dimer resolution site of either one or both chromosomes. Fine-tuning of ssDNA binding proteins in host cells is crucial for CTXϕ integration. We engineered the V. cholerae genome and created several reporter strains carrying ΔlexA or lexA (Ind(-)) alleles. Using the reporter strains, the importance of LexA control of Ssb expression in the integration efficiency of CTXϕ was demonstrated.


Assuntos
Proteínas de Bactérias/metabolismo , Genoma Bacteriano , Genoma Viral , Serina Endopeptidases/metabolismo , Integração Viral/genética , Proteínas de Bactérias/genética , Bacteriófagos , Cromossomos Bacterianos/genética , DNA de Cadeia Simples/genética , Serina Endopeptidases/genética , Vibrio cholerae
20.
Microbiology (Reading) ; 160(Pt 9): 1855-1866, 2014 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-24987103

RESUMO

In Vibrio cholerae, the causative agent of cholera, products of three genes, relA, spoT and relV, govern nutritional stress related stringent response (SR). SR in bacteria is critically regulated by two intracellular small molecules, guanosine 3'-diphosphate 5'-triphosphate (pppGpp) and guanosine 3',5'-bis(diphosphate) (ppGpp), collectively called (p)ppGpp or alarmone. Evolution of relV is unique in V. cholerae because other Gram-negative bacteria carry only relA and spoT genes. Recent reports suggest that RelV is needed for pathogenesis. RelV carries a single (p)ppGpp synthetase or RelA-SpoT domain (SYNTH/RSD) and belongs to the small alarmone synthetase (SAS) family of proteins. Here, we report extensive functional characterizations of the relV gene by constructing several deletion and site-directed mutants followed by their controlled expression in (p)ppGpp(0) cells of Escherichia coli or V. cholerae. Substitution analysis indicated that the amino acid residues K107, D129, R132, L150 and E188 of the RSD region of RelV are essential for its activity. While K107, D129 and E188 are highly conserved in RelA and SAS proteins, L150 appears to be conserved in the latter group of enzymes, and the R132 residue was found to be unique in RelV. Extensive progressive deletion analysis indicated that the amino acid residues at positions 59 and 248 of the RelV protein are the functional N- and C-terminal boundaries, respectively. Since the minimal functional length of RelV was found to be 189 aa, which includes the 94 aa long RSD region, it seems that the flanking residues of the RSD are also important for maintaining the (p)ppGpp synthetase activity.


Assuntos
Guanosina Pentafosfato/metabolismo , Guanosina Tetrafosfato/metabolismo , Ligases/genética , Ligases/metabolismo , Vibrio cholerae/enzimologia , Vibrio cholerae/genética , Substituição de Aminoácidos , Análise Mutacional de DNA , Escherichia coli/genética , Escherichia coli/metabolismo , Expressão Gênica , Proteínas Mutantes/genética , Proteínas Mutantes/metabolismo , Deleção de Sequência
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