Your search keyword '"Blokesch, Melanie"' showing total 11 results

1. TransFLP – a method to genetically modify V. cholerae based on natural transformation and FLP-recombination

Author

Blokesch Melanie

Abstract

A quick method to modify the genome of V. cholerae is described. These modifications include the deletion of single genes gene clusters and genomic islands as well as the integration of short sequences (e.g. promoter elements or affinity tag sequences). The method is based on the natural transformation and FLP recombination.

Published

2012

2. Interbacterial competition and anti‐predatory behavior of environmental Vibrio cholerae strains

Author

Drebes Dörr, Natália C. and Blokesch, Melanie

Subjects

hemolysin, amoebae, Vibrio cholerae, type VI secretion

Abstract

Vibrio cholerae isolates responsible for cholera pandemics represent only a small portion of the diverse strains belonging to this species. Indeed, most V. cholerae are encountered in aquatic environments. To better understand the emergence of pandemic lineages, it is crucial to discern what differentiates pandemic strains from their environmental relatives. Here, we studied the interaction of environmental V. cholerae with eukaryotic predators or competing bacteria and tested the contributions of the hemolysin and the type VI secretion system (T6SS) to those interactions. Both of these molecular weapons are constitutively active in environmental isolates but subject to tight regulation in the pandemic clade. We showed that several environmental isolates resist amoebal grazing and that this anti-grazing defense relies on the strains’ T6SS and its actin-cross-linking domain (ACD)-containing tip protein. Strains lacking the ACD were unable to defend themselves against grazing amoebae but maintained high levels of T6SS-dependent interbacterial killing. We explored the latter phenotype through whole-genome sequencing of fourteen isolates, which unveiled a wide array of novel T6SS effector and (orphan) immunity proteins. By combining these in silico predictions with experimental validations, we showed that highly similar but nonidentical immunity proteins were insufficient to provide cross-immunity among those wild strains.

3. Competence-induced type VI secretion might foster intestinal colonization by Vibrio cholerae

Author

Blokesch Melanie

Subjects

cholera transmission, competence, Vibiro cholerae, chitin, animal models, type VI secretion

Abstract

The human pathogen Vibrio cholerae exhibits two distinct lifestyles: one in the aquatic environment where it often associates with chitinous surfaces and the other as the causative agent of the disease cholera. While much of the research on V. cholerae has focused on the host-pathogen interaction, knowledge about the environmental lifestyle of the pathogen remains limited. We recently showed that the polymer chitin, which is extremely abundant in aquatic environments, induces natural competence as a mode of horizontal gene transfer and that this competence regulon also includes the type VI secretion system (T6SS), a molecular killing device. Here, I discuss the putative consequences that chitin-induced T6SS activation could have on intestinal colonization and how the transmission route might influence disease outcome. Moreover, I propose that common infant animal models for cholera might not sufficiently take into account T6SS-mediated interbacterial warfare between V. cholerae and the intestinal microbiota.

4. Cellular Microbiology Interview - Dr. Melanie Blokesch

Author

Blokesch, Melanie

5. Recombinant bacteria resistant to horizontal gene transfer and phage infection

Author

Blokesch, Melanie, Jaskolska, Milena Jadwiga, and Adams, David William

Subjects

TTO:6.2175

Abstract

The invention relates to an expression vector encoding a DNA defence system comprising polypeptides derived from Vibrio cholerae, or equivalent functional variants or homologues, conferring resistance to the maintenance of extra-genomic DNA to a recipient bacterial cell. The invention further relates to methods for obtaining an isolated bacterium, or a bacterial population capable of eliminating extra-genomic DNA, or of protecting against phage infection, and an isolated bacterium, or a product comprising an expression vector according to the invention.

6. TransFLP - A Method to Genetically Modify Vibrio cholerae Based on Natural Transformation and FLP-recombination

Author

Blokesch, Melanie

Abstract

Several methods are available to manipulate bacterial chromosomes(1-3). Most of these protocols rely on the insertion of conditionally replicative plasmids (e.g. harboring pir-dependent or temperature-sensitive replicons(1,2)). These plasmids are integrated into bacterial chromosomes based on homology-mediated recombination. Such insertional mutants are often directly used in experimental settings. Alternatively, selection for plasmid excision followed by its loss can be performed, which for Gram-negative bacteria often relies on the counter-selectable levan sucrase enzyme encoded by the sacB gene(4). The excision can either restore the pre-insertion genotype or result in an exchange between the chromosome and the plasmid-encoded copy of the modified gene. A disadvantage of this technique is that it is time-consuming. The plasmid has to be cloned first; it requires horizontal transfer into V. cholerae (most notably by mating with an E. coli donor strain) or artificial transformation of the latter; and the excision of the plasmid is random and can either restore the initial genotype or create the desired modification if no positive selection is exerted. Here, we present a method for rapid manipulation of the V. cholerae chromosome(s)(5) (Figure 1). This TransFLP method is based on the recently discovered chitin-mediated induction of natural competence in this organism(6) and other representative of the genus Vibrio such as V. fischeri(7). Natural competence allows the uptake of free DNA including PCR-generated DNA fragments. Once taken up, the DNA recombines with the chromosome given the presence of a minimum of 250-500 bp of flanking homologous region(8). Including a selection marker in-between these flanking regions allows easy detection of frequently occurring transformants. This method can be used for different genetic manipulations of V. cholerae and potentially also other naturally competent bacteria. We provide three novel examples on what can be accomplished by this method in addition to our previously published study on single gene deletions and the addition of affinity-tag sequences(5). Several optimization steps concerning the initial protocol of chitin-induced natural transformation(6) are incorporated in this TransFLP protocol. These include among others the replacement of crab shell fragments by commercially available chitin flakes(8), the donation of PCR-derived DNA as transforming material(9), and the addition of FLP-recombination target sites (FRT)(5). FRT sites allow site-directed excision of the selection marker mediated by the Flp recombinase(10).

7. Analysis of the transcarbamoylation-dehydration reaction catalyzed by the hydrogenase maturation proteins HypF and HypE

Author

Blokesch, Melanie, Paschos, Athanasios, Bauer, Anette, Reissmann, Stefanie, Drapal, Nikola, and Böck, August

Abstract

The hydrogenase maturation proteins HypF and HypE catalyze the synthesis of the CN ligands of the active site iron of the NiFe-hydrogenases using carbamoylphosphate as a substrate. HypE protein from Escherichia coli was purified from a transformant overexpressing the hypE gene from a plasmid. Purified HypE in gel filtration experiments behaves predominantly as a monomer. It does not contain statistically significant amounts of metals or of cofactors absorbing in the UV and visible light range. The protein displays low intrinsic ATPase activity with ADP and phosphate as the products, the apparent K(m) being 25 micro m and the k(cat) 1.7 x 10(-3) s(-1). Removal of the C-terminal cysteine residue of HypE which accepts the carbamoyl moiety from HypF affected the K(m) (47 micro m) but not significantly the k(cat) (2.1 x 10(-3) s(-1)). During the carbamoyltransfer reaction, HypE and HypF enter a complex which is rather tight at stoichiometric ratios of the two proteins. A mutant HypE variant was generated by amino acid replacements in the nucleoside triphosphate binding region, which showed no intrinsic ATPase activity. The variant was active as an acceptor in the transcarbamoylation reaction but did not dehydrate the thiocarboxamide to the thiocyanate. The results obtained with the HypE variants and also with mutant HypF forms are integrated to explain the complex reaction pattern of protein HypF.

8. Chitin induces natural competence in Vibrio cholerae

Author

Meibom, Karin L., Blokesch, Melanie, Dolganov, Nadia A., Wu, Cheng-Yen, and Schoolnik, Gary K.

Subjects

fungi, Bacterial, Transformation

Abstract

The mosaic-structured Vibrio cholerae genome points to the importance of horizontal gene transfer (HGT) in the evolution of this human pathogen. We showed that V. cholerae can acquire new genetic material by natural transformation during growth on chitin, a biopolymer that is abundant in aquatic habitats (e.g., from crustacean exoskeletons), where it lives as an autochthonous microbe. Transformation competence was found to require a type IV pilus assembly complex, a putative DNA binding protein, and three convergent regulatory cascades, which are activated by chitin, increasing cell density, and nutrient limitation, a decline in growth rate, or stress.

9. Chitin colonization, chitin degradation and chitin-induced natural competence of Vibrio cholerae are subject to catabolite repression

Author

Blokesch Melanie

Subjects

Catabolite Repression, Cyclic AMP Receptor Protein, transformation, fungi, Chitin, Gene Expression Regulation, Bacterial, macromolecular substances, carbon catabolite repression, Zooplankton, carbohydrates (lipids), Cyclic AMP, Animals, natural competence, Transformation, Bacterial, Phosphoenolpyruvate Sugar Phosphotransferase System, Vibrio cholerae, Adenylyl Cyclases

Abstract

Although Vibrio cholerae is a human pathogen its primary habitat are aquatic environments. In this environment, V. cholerae takes advantage of the abundance of zooplankton, whose chitinous exoskeletons provide a nutritious surface. Chitin also induces the developmental programme of natural competence in several species of the genus Vibrio. Because the chitin surface can serve as the sole carbon source for V. cholerae, the link between carbon catabolite repression and chitin-induced natural competence for transformation was investigated in this study. Provision of competing phosphoenolpyruvate: carbohydrate phosphotransferase system (PTS)-dependent carbon sources in addition to chitin significantly lowered natural transformability. These sugars are known to interfere with the accumulation of 3,5- cyclic AMP (cAMP); therefore, the contributions of the cAMP-producing enzyme, adenylate cyclase and the cAMP receptor protein (CRP) to chitin surface colonization, chitin degradation and natural transformation were also analysed. The results provided here indicate that cAMP and CRP are important in at least three interlinked areas of the chitin-induced natural competence programme. First, cAMP and CRP are required for the efficient colonization of the chitin surface; second both contribute to chitin degradation and utilization, and third, cAMP plus CRP play a role in increasing competence gene expression. These findings highlight the complex regulatory circuit of chitininduced natural competence in V. cholerae.

10. Solving the mystery of the missing plasmids in seventh pandemic Vibrio cholerae strains

Author

Blokesch, Melanie

Abstract

The pathogen responsible for the continuing seventh cholera pandemic typically lacks self-replicating plasmids. Genetics, cell biology and bioinformatics analyses have identified two DNA-defence systems that protect bacterial populations from plasmids and bacteriophages, and that might have shaped the evolution of modern Vibrio cholerae.

11. Environmentally Endemic Pseudomonas aeruginosa Strains with Mutations in lasR Are Associated with Increased Disease Severity in Corneal Ulcers

Author

John H. Hammond, Wesley P. Hebert, Amanda Naimie, Kathryn Ray, Rachel D. Van Gelder, Antonio DiGiandomenico, Prajna Lalitha, Muthiah Srinivasan, Nisha R. Acharya, Thomas Lietman, Deborah A. Hogan, Michael E. Zegans, Melanie Blokesch, and Blokesch, Melanie

Subjects

0301 basic medicine, SCUT, Fimbria, lcsh:QR1-502, Virulence, Biology, medicine.disease_cause, Microbiology, lcsh:Microbiology, Keratitis, Clinical Science and Epidemiology, 03 medical and health sciences, 0302 clinical medicine, Rare Diseases, medicine, Genetics, 2.2 Factors relating to the physical environment, 2.1 Biological and endogenous factors, eye infection, Allele, Aetiology, Molecular Biology, Gene, Eye Disease and Disorders of Vision, CupA, Pseudomonas aeruginosa, bacterial keratitis, quorum sensing, Eye infection, respiratory system, biochemical phenomena, metabolism, and nutrition, LasR, medicine.disease, bacterial infections and mycoses, QR1-502, 3. Good health, corneal ulcer, Quorum sensing, 030104 developmental biology, Infectious Diseases, 030221 ophthalmology & optometry, Anr, Infection, Research Article

Abstract

The LasR transcription factor is an important regulator of quorum sensing in P. aeruginosa and positively controls multiple virulence-associated pathways. The emergence of strains with lasR loss-of-function alleles in chronic disease is well described and is thought to represent a specific adaptation to the host environment. However, the prevalence and virulence of these strains in acute infections remain unclear. This report describes observations revealing that lasR mutants were common among isolates from a large, multicenter clinical study of keratitis and were associated with worse clinical outcomes than LasR-intact strains despite reduced production of LasR-regulated factors. Additionally, these lasR mutants were closely related strains or clones, as determined by molecular analysis. Because bacterial keratitis is community acquired, these data indicate infection by endemic, LasR-deficient strains in the environment. These results suggest that the conventional paradigm regarding the role for LasR-mediated regulation of virulence is more complex than previously appreciated., The Steroids for Corneal Ulcers Trial (SCUT) was a multicenter, international study of bacterial keratitis in which 101 Pseudomonas aeruginosa infections were treated. Twenty-two of 101 P. aeruginosa isolates collected had a colony morphology characteristic of a loss-of-function mutation in lasR, the gene encoding a quorum-sensing master regulator. Ulcers caused by these 22 strains were associated with larger areas of corneal opacification, worse vision, and a lower rate of vision recovery in response to treatment than ulcers caused by the other isolates. The lasR sequences from these isolates each contained one of three nonsynonymous substitutions, and these strains were deficient in production of LasR-regulated protease and rhamnolipids. Replacement of lasR with either of the two most common lasR alleles from the SCUT isolates was sufficient to decrease protease and rhamnolipid production in PA14. Loss of LasR function is associated with increased production of CupA fimbriae, and the LasR-defective isolates exhibited higher production of CupA fimbriae than LasR-intact isolates. Strains with the same lasR mutation were of the same multilocus sequence type, suggesting that LasR-deficient, environmental P. aeruginosa strains were endemic to the area, and infections caused by these strains were associated with worse patient outcomes in the SCUT study. (This study has been registered at ClinicalTrials.gov under registration no. NCT00324168.) IMPORTANCE The LasR transcription factor is an important regulator of quorum sensing in P. aeruginosa and positively controls multiple virulence-associated pathways. The emergence of strains with lasR loss-of-function alleles in chronic disease is well described and is thought to represent a specific adaptation to the host environment. However, the prevalence and virulence of these strains in acute infections remain unclear. This report describes observations revealing that lasR mutants were common among isolates from a large, multicenter clinical study of keratitis and were associated with worse clinical outcomes than LasR-intact strains despite reduced production of LasR-regulated factors. Additionally, these lasR mutants were closely related strains or clones, as determined by molecular analysis. Because bacterial keratitis is community acquired, these data indicate infection by endemic, LasR-deficient strains in the environment. These results suggest that the conventional paradigm regarding the role for LasR-mediated regulation of virulence is more complex than previously appreciated.

Published

2016