Nathalie Petiot scite author profile

Summary Type 4a pili (T4aP) are long, thin and dynamic fibres displayed on the surface of diverse bacteria promoting adherence, motility and transport functions. Genomes of many Enterobacteriaceae contain conserved gene clusters encoding putative T4aP assembly systems. However, their expression has been observed only in few strains including Enterohaemorrhagic Escherichia coli (EHEC) and their inducers remain unknown. Here we used EHEC genomic DNA as a template to amplify and assemble an artificial operon composed of four gene clusters encoding 13 pilus assembly proteins. Controlled expressions of this operon in nonpathogenic E. coli strains led to efficient assembly of T4aP composed of the major pilin PpdD, as shown by shearing assays and immunofluorescence microscopy. When compared with PpdD pili assembled in a heterologous Klebsiella T2SS type 2 secretion system (T2SS) by using cryo‐electron microscopy (cryoEM), these pili showed indistinguishable helical parameters, emphasizing that major pilins are the principal determinants of the fibre structure. Bacterial two‐hybrid analysis identified several interactions of PpdD with T4aP assembly proteins, and with components of the T2SS that allow for heterologous fibre assembly. These studies lay ground for further characterization of the T4aP structure, function and biogenesis in enterobacteria.

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Molecular assessment of kelch13 non-synonymous mutations in Plasmodium falciparum isolates from Central African Republic (2017–2019)

Nzoumbou‐Boko

Panté-Wockama

Ngoagoni

et al. 2020

Malar J

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Background: Over the last decade, artemisinin-based combination therapy (ACT) has contributed substantially to the decrease in malaria-related morbidity and mortality. The emergence of Plasmodium falciparum parasites resistant to artemisinin derivatives in Southeast Asia and the risk of their spread or of local emergence in sub-Saharan Africa are a major threat to public health. This study thus set out to estimate the proportion of P. falciparum isolates, with Pfkelch13 gene mutations associated with artemisinin resistance previously detected in Southeast Asia. Methods: Blood samples were collected in two sites of Bangui, the capital of the Central African Republic (CAR) from 2017 to 2019. DNA was extracted and nested PCR were carried out to detect Plasmodium species and mutations in the propeller domain of the Pfkelch13 gene for P. falciparum samples. Results: A total of 255 P. falciparum samples were analysed. Plasmodium ovale DNA was found in four samples (1.57%, 4/255). Among the 187 samples with interpretable Pfkelch13 sequences, four samples presented a mutation (2.1%, 4/187), including one non-synonymous mutation (Y653N) (0.5%, 1/187). This mutation has never been described as associated with artemisinin resistance in Southeast Asia and its in vitro phenotype is unknown. Conclusion: This preliminary study indicates the absence of Pfkelch13 mutant associated with artemisinin resistance in Bangui. However, this limited study needs to be extended by collecting samples across the whole country along with the evaluation of in vitro and in vivo phenotype profiles of Pfkelch13 mutant parasites to estimate the risk of artemisinin resistance in the CAR.

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Molecular assessment of kelch13 non-synonymous mutations in Plasmodium falciparum isolates from Central African Republic (2017–2019)

Nzoumbou‐Boko

Panté-Wockama

Ngoagoni

et al. 2020

Preprint

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Background: Over the last decade, Artemisinin-based Combination Therapies (ACT) have contributed substantially to the decrease in malaria-related morbidity and mortality. The emergence of Plasmodium falciparum parasites resistant to artemisinin derivatives in Southeast Asia and the risk of their spread or of local emergence in sub-Saharan Africa are a major threat to public health. This study thus set out to estimate the proportion of P. falciparum isolates, with PfKelch13 gene mutations associated with artemisinin resistance previously detected in Southeast Asia. Methods: Blood samples were collected in two sites of Bangui, the capital of the Central African Republic form 2017 to 2019. DNA was extracted and nested PCR were carried out to detect Plasmodium species and mutations in the propeller domain of the PfKelch13 gene. Results: A total of 255 P. falciparum isolates were analyzed. Among them, P. ovale DNA was found in four samples (1.57%, 4/255). Of 187 samples with interpretable PfKelch13 sequences, four isolates presented a mutation in the PfKelch13 gene (2.1%, 4/187), including one non-synonymous mutation (Y653N) (0.5%, 1/187). This mutation has never been described as associated with artemisinin resistance in Southeast Asia and its in vitro phenotype is unknown. Conclusion: This preliminary study indicates the need for a larger study on samples collected across the whole country along with the evaluation of in vitro and in vivo phenotype profiles of PfKelch13 mutant parasites to estimate the risk of artemisinin resistance in the CAR.

show abstract

Molecular assessment of kelch13 non-synonymous mutations in Plasmodium falciparum isolates from Central African Republic (2017–2019)

Nzoumbou‐Boko

Panté-Wockama

Ngoagoni

et al. 2020

Preprint

View full text Add to dashboard Cite

show abstract

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Nathalie Petiot

Functional reconstitution of the type IVa pilus assembly system from enterohaemorrhagic Escherichia coli

Molecular assessment of kelch13 non-synonymous mutations in Plasmodium falciparum isolates from Central African Republic (2017–2019)

Molecular assessment of kelch13 non-synonymous mutations in Plasmodium falciparum isolates from Central African Republic (2017–2019)

Molecular assessment of kelch13 non-synonymous mutations in Plasmodium falciparum isolates from Central African Republic (2017–2019)

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