Louise Hock scite author profile

Bacteriophage Deep-Purple, isolated from an agricultural soil in Belgium, lyses the emetic Bacillus weihenstephanensis strain LH002 and exhibits a lytic activity against 55% of emetic Bacillus cereus and B. weihenstephanensis strains. Deep-Purple is able to complete its lytic cycle within 45 min and is stable to a large range of pHs and temperatures below 60 °C. It possesses an icosahedral head of about 63 nm in diameter and a non-contractile tail of approximately 165 nm in length. The genome of this newly classifiable Siphoviridae family member is 36,278 bp long, with a G+C content of 38.36% and 40 putative CDSs. Most CDSs do not display similarity with other B. cereus group phages supporting the idea that Deep-Purple belongs to a new and currently uncharacterised Siphoviridae subfamily.

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Environmental dynamics of Campylobacter jejuni genotypes circulating in Luxembourg: what is the role of wild birds?

Hock

Herold

Walczak

et al. 2023

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Campylobacter jejuni is the leading cause of bacterial gastroenteritis worldwide, but, unlike other foodborne pathogens, is not commonly reported as causing outbreaks. The population structure of the species is characterized by a high degree of genetic diversity, but the presence of stable clonally derived genotypes persisting in space and time, and potentially leading to diffuse outbreaks, has recently been identified. The spread of these recurring genotypes could be enhanced by wild birds, suspected to act as vectors for a wide range of microorganisms that can be transmissible to other animals or humans. This study assessed the genetic diversity of C. jejuni carriage in wild birds and surface waters to explore a potential link between these environments and the persistence over years of recurring lineages infecting humans in Luxembourg. These lineages corresponded to over 40 % of clinical isolates over a 4 year period from 2018 to 2021. While mainly exotic genotypes were recovered from environmental samples, 4 % of C. jejuni from wild birds corresponded to human recurring genotypes. Among them, a human clinical endemic lineage, occurring for over a decade in Luxembourg, was detected in one bird species, suggesting a possible contribution to the persistence of this clone and its multi-host feature. Whereas 27 % of wild birds were carriers of C. jejuni, confirming their role as spreader or reservoir, only three out of 59 genotypes overlapped with recurring human strains. While direct transmission of C. jejuni infection through wild birds remains questionable, they may play a key role in the environmental spreading of stable clones to livestock, and this issue merits further investigation.

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Biocontrol potential of phage Deep-Blue against psychrotolerant Bacillus weihenstephanensis

et al. 2019

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Complete Genome Sequence of Bacteriophage Deep-Blue Infecting Emetic Bacillus cereus

2016

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Comparative Genomics of Prophages Sato and Sole Expands the Genetic Diversity Found in the Genus Betatectivirus

2021

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Tectiviruses infecting the Bacillus cereus group represent part of the bacterial “plasmid repertoire” as they behave as linear plasmids during their lysogenic cycle. Several novel tectiviruses have been recently found infecting diverse strains belonging the B. cereus lineage. Here, we report and analyze the complete genome sequences of phages Sato and Sole. The linear dsDNA genome of Sato spans 14,852 bp with 32 coding DNA sequences (CDSs), whereas the one of Sole has 14,444 bp comprising 30 CDSs. Both phage genomes contain inverted terminal repeats and no tRNAs. Genomic comparisons and phylogenetic analyses placed these two phages within the genus Betatectivirus in the family Tectiviridae. Additional comparative genomic analyses indicated that the “gene regulation-genome replication” module of phages Sato and Sole is more diverse than previously observed among other fully sequenced betatectiviruses, displaying very low sequence similarities and containing some ORFans. Interestingly, the ssDNA binding protein encoded in this genomic module in phages Sato and Sole has very little amino acid similarity with those of reference betatectiviruses. Phylogenetic analyses showed that both Sato and Sole represent novel tectivirus species, thus we propose to include them as two novel species in the genus Betatectivirus.

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Louise Hock

Complete genome sequence of bacteriophage Deep-Purple, a novel member of the family Siphoviridae infecting Bacillus cereus

Environmental dynamics of Campylobacter jejuni genotypes circulating in Luxembourg: what is the role of wild birds?

Biocontrol potential of phage Deep-Blue against psychrotolerant Bacillus weihenstephanensis

Complete Genome Sequence of Bacteriophage Deep-Blue Infecting Emetic Bacillus cereus

Comparative Genomics of Prophages Sato and Sole Expands the Genetic Diversity Found in the Genus Betatectivirus

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