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1.
PLoS Genet ; 19(6): e1010773, 2023 Jun.
Artículo en Inglés | MEDLINE | ID: mdl-37347771

RESUMEN

Plasmids are major drivers of increasing antibiotic resistance, necessitating an urgent need to understand their biology. Here we describe a detailed dissection of the molecular components controlling the genetics of I-complex plasmids, a group of antibiotic resistance plasmids found frequently in pathogenic Escherichia coli and other Enterobacteriaceae that cause significant human disease. We show these plasmids cluster into four distinct subgroups, with the prototype IncI1 plasmid R64 subgroup displaying low nucleotide sequence conservation to other I-complex plasmids. Using pMS7163B, an I-complex plasmid distantly related to R64, we performed a high-resolution transposon-based genetic screen and defined genes involved in replication, stability, and conjugative transfer. We identified the replicon and a partitioning system as essential for replication/stability. Genes required for conjugation included the type IV secretion system, relaxosome, and several uncharacterised genes located in the pMS7163B leading transfer region that exhibited an upstream strand-specific transposon insertion bias. The overexpression of these genes severely impacted host cell growth or reduced fitness during mixed competitive growth, demonstrating that their expression must be controlled to avoid deleterious impacts. These genes were present in >80% of all I-complex plasmids and broadly conserved across multiple plasmid incompatibility groups, implicating an important role in plasmid dissemination.


Asunto(s)
Proteínas de Escherichia coli , Escherichia coli , Humanos , Plásmidos/genética , Escherichia coli/genética , Proteínas de Escherichia coli/genética , Enterobacteriaceae/genética , Secuencia de Bases , Conjugación Genética
2.
Elife ; 122024 Aug 27.
Artículo en Inglés | MEDLINE | ID: mdl-39189918

RESUMEN

Klebsiella pneumoniae is a global public health concern due to the rising myriad of hypervirulent and multidrug-resistant clones both alarmingly associated with high mortality. The molecular mechanisms underpinning these recalcitrant K. pneumoniae infection, and how virulence is coupled with the emergence of lineages resistant to nearly all present-day clinically important antimicrobials, are unclear. In this study, we performed a genome-wide screen in K. pneumoniae ECL8, a member of the endemic K2-ST375 pathotype most often reported in Asia, to define genes essential for growth in a nutrient-rich laboratory medium (Luria-Bertani [LB] medium), human urine, and serum. Through transposon directed insertion-site sequencing (TraDIS), a total of 427 genes were identified as essential for growth on LB agar, whereas transposon insertions in 11 and 144 genes decreased fitness for growth in either urine or serum, respectively. These studies not only provide further knowledge on the genetics of this pathogen but also provide a strong impetus for discovering new antimicrobial targets to improve current therapeutic options for K. pneumoniae infections.


Asunto(s)
Elementos Transponibles de ADN , Klebsiella pneumoniae , Orina , Klebsiella pneumoniae/genética , Klebsiella pneumoniae/crecimiento & desarrollo , Humanos , Elementos Transponibles de ADN/genética , Orina/microbiología , Infecciones por Klebsiella/microbiología , Infecciones por Klebsiella/orina , Mutagénesis Insercional , Suero/microbiología , Mutagénesis
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