Transcriptomics

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Beyond the spore: the exosporium sugar anthrose impacts vegetative Bacillus anthracis gene regulation in cis and trans


ABSTRACT: In preliminary experiments, the absence of anthrose in our genetic Sterne knockout was found to decrease pagA expression in BHI broth containing glucose (Fig 5A and B). This contrasted with the large spike in pagA expression when the Sterne antC mutant is grown in protein rich HIB media which does not contain sugars. When exogenous anthrose was added during growth in BHI broth, expression from PpagA increased in both WT (purple line in Fig 5A) and antC Sterne (purple line in Fig 5B). Many bacteria respond to levels of metabolic intermediates and modulate gene expression accordingly. We hypothesized intracellular or extracellular anthrose levels could impact the vegetative cells through modification of gene expression during vegetative growth. Wildtype B. anthracis Sterne was grown in the presence and absence of exogenously added pure anthrose to avoid any possibility of confounding data in a deletion mutant. Bacteria were harvested at two timepoints post-addition of anthrose, 30 min and 2 h, and compared to diluent only treated cultures (Fig 5C). After 30 min treatment, there were 6 genes significantly upregulated more than two-fold while 17 genes were downregulated (Fig 5D). These genes were mainly involved in generating metabolic intermediates such as pyruvate and trehalose. The most upregulated gene was a putative membrane protein (log2FC=10.98) followed by a gene encoding a GerPF homologue at a log2FC of 10.98. Mutation of GerPF family proteins have been linked to a super-dormant spore phenotype[10]. The gene experiencing the highest downregulation was a putative lipoprotein (log2FC = -20.02). No genes located on pXO1 were detected at 30 min. A subset of differentially transcribed genes from the 30 min timepoint are listed in Fig 5F. After 2 h of anthrose treatment, 52 genes experienced significant up regulation, 18 of which were hypothetical proteins (Fig 5E). Forty-five genes experienced significant down regulation across replicates, 13 of which were hypothetical proteins.

ORGANISM(S): Bacillus anthracis

PROVIDER: GSE220794 | GEO | 2023/04/04

REPOSITORIES: GEO

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