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Transitioning from Soil to Host: Comparative Transcriptome Analysis Reveals the Burkholderia pseudomallei Response to Different Niches

Ahmad-Kamal Ghazali, Mohd Firdaus‐Raih, Asqwin Uthaya Kumar, Wei-Kang Lee, Chee-Choong Hoh, Sheila Nathan

2023Microbiology Spectrum10 citationsDOIOpen Access PDF

Abstract

, a soil-dwelling bacterium, is the causative agent of melioidosis, a fatal infectious disease of humans and animals. The bacterium has a large genome consisting of two chromosomes carrying genes that encode proteins with important roles for survival in diverse environments as well as in the infected host. While a general mechanism of pathogenesis has been proposed, it is not clear which proteins have major roles when the bacteria are in the soil and whether the same proteins are key to successful infection and spread. To address this question, we grew the bacteria in soil medium and then in infected mice. At 5 days postinfection, bacteria were recovered from infected mouse organs and their gene expression was compared against that of bacteria grown in soil medium. The analysis revealed a list of genes expressed under soil growth conditions and a different set of genes encoding proteins which may be important for survival, replication, and dissemination in an infected host. These proteins are a potential resource for understanding the full adaptation mechanism of this pathogen. In the absence of a vaccine for melioidosis and with treatment being reliant on combinatorial antibiotic therapy, these proteins may be ideal targets for designing antimicrobials to treat melioidosis.

Topics & Concepts

Burkholderia pseudomalleiHost (biology)TranscriptomeBiologyHost responseEcological nicheBurkholderiaNicheEcologyGeneticsGeneBacteriaImmune systemGene expressionHabitatBurkholderia infections and melioidosisChemical Looping and Thermochemical Processes