Project description:Transcriptional profiling of gene expression between parental strain B31 and rrp1 mutant. Cyclic-di-GMP is a bacterial second messenger that modulates many biological processes. Although its role in bacterial pathogenesis during mammalian infection has been widely recognized, the role of c-di-GMP in pathogen's life cycle in vector hosts is less understood. The enzootic cycle of the Lyme disease pathogen Borrelia burgdorferi involves both a mammalian host and an Ixodes tick vector. The B. burgdorferi genome encodes a single copy of the diguanylate cyclase gene (rrp1), which is responsible for the production of c-di-GMP. To determine the role of c-di-GMP in the life cycle of B. burgdorferi, an Rrp1-deficient B. burgdorferi strain was generated. The rrp1 mutant remains infectious in the mammalian host, but could not survive in the tick vector. To identify the mechanisms of Rrp1 contributing to B. burgdorferi pathogenesis and gene regulation, microarray was employed to compare gene expression profiles between the parental strain B31 and the rrp1 mutant. Two-condition experiment, B31 vs. rrp1 mutant. Biological replicates: 3 B31, 3 rrp1 mutant, independently grown and harvested. One replicate (dye-swap) per array.

Project description:Borrelia burgdorferi, the etiological agent of Lyme disease, persists in nature through an enzootic cycle consisting of a vertebrate host and an Ixodes tick vector. The sequence motifs modified by two well-characterized restriction/modification loci of B. burgdorferi type strain B31 were recently described, but the methylation profiles of other Lyme disease Borrelia have not been characterized. Herein, the methylomes of B. burgdorferi type strain B31 and 7 clonal derivatives, along with B. burgdorferi N40, B. burgdorferi 297, B. burgdorferi CA-11, B. afzelii PKo, B. afzelii BO23, and B. garinii PBr, were defined through PacBio SMRT sequencing. This analysis revealed 9 novel sequence motifs methylated by the plasmid-encoded restriction/modification enzymes of these Borrelia strains. Furthermore, while a previous analysis of B. burgdorferi B31 revealed an epigenetic impact of methylation on the global transcriptome, the current data contradict those findings; our analyses of wild-type B. burgdorferi B31 revealed no consistent differences in gene expression among isogenic derivatives lacking one or more restriction/modification enzyme(s).

Project description:Borrelia burgdorferi B31 derivative strain ML23 and SR0736 sRNA mutant grown in vitro in mammalian-like conditions 37C, 5%CO2, pH 6.8

Project description:Lyme disease is a result from an infection by the spirochete Borrelia burgdorferi, and is the leading vector-borne disease in North America. Due to the genomic and proteomic variability of different B. burgdorferi isolates, the study and further comparison of their proteome is key to understand the biology and infectivity of these spirochetes. Mass spectrometry-based proteomics was used to assemble peptide datasets of laboratory isolates B31, MM1, B31-ML23, and the infective isolates B31-5A4, B31-A3, and 297, as well as other public datasets, and is publicly available as the Borrelia PeptideAtlas (http://www.peptideatlas.org/builds/borrelia/). These datasets include information on total proteome, secretome, and membrane proteome of the B. burgdorferi.

Project description:Borelia burgdorferi, the causative agent of the Lyme disease, cycles between a vector (tick) and the mammalian host. Our principal goal is to study how B. burgdorferi adapts its metabolism to colonize and survive in the tick. We established the first growth-phase related acetylome and demonstrated the role of acetylation on central metabolism regulation. We also demonstrated that acetyl phosphate is the primary acetyl donor in B. burgdorferi.

Project description:Our study is the first to demonstrate BadR as a repressor of rpoS and thus facilitates spirochete’s transition back into ticks. BadR binds upstream and represses rpoS in unfed ticks. GLcNA-6P, an abundant nutrient of blood and released by subsequent remodeling of the tick peritrophic membrane, relieves repression of BadR on rpoS facilitating vertebrate host adaptation. BadR regulates chitobiose utilization genes and activates genes critical for spirochetes residence of ticks (lp28-4 genes) badR-deficient strain (Gene BB0693) compared to B31-A3 parental wild-type B. burgdorferi strains

Project description:Cyclic di-GMP (c-di-GMP) is a ubiquitous second messenger that regulates many biological processes in bacteria. The genome in Mycobacterium tuberculosis encodes a single copy of the diguanylate cyclase gene (dgc) responsible for c-di-GMP synthesis. To determine the role of c-di-GMP signaling in M. tuberculosis, the mutant strain of Δdgc was generated in the virulent H37Rv strain. We used whole genome microarray expression profiling as a discovery platform to identify the genes controlled by c-di-GMP in M. tuberculosis, providing molecular proof for the phenotypes modulated by the signaling.

Project description:Adiponectin-mediated pathways contribute to mammalian homeostasis; however, little is known about adiponectin and adiponectin receptor signaling in arthropods. In this study, we demonstrate that Ixodes scapularis ticks have an adiponectin receptor-like protein (ISARL) but lack adiponectin, suggesting activation by alternative pathways. ISARL expression is significantly upregulated in the tick gut after Borrelia burgdorferi infection, suggesting that ISARL signaling may be co-opted by the Lyme disease agent. Consistent with this, RNA interference (RNAi)-mediated silencing of ISARL significantly reduced the B. burgdorferi burden in the tick. RNA-seq-based transcriptomics and RNAi assays demonstrate that ISARL-mediated phospholipid metabolism by phosphatidylserine synthase I is associated with B. burgdorferi survival. Furthermore, the tick complement C1q-like protein 3 interacts with ISARL, and B. burgdorferi facilitates this process. This study identifies a new tick metabolic pathway that is connected to the life cycle of the Lyme disease spirochete.

Project description:To analyze the impact of elevated c-di-GMP concentrations in P. aeruginosa, we expressed pleD* on an inducible vector (pHERD20T) in the PAO1 wild-type strain. PleD is a DGC from Caulobacter cresentusand the pleD* construct variant encodes for a constitutively active enzyme due to four amino acid exchanges (T120N, T214A, P234H, N357Y).We aimed to analyze the cellular consequences of increased c-di-GMP levels in the opportunistic pathogen P. aeruginosa on a global scale. We therefore grew the pleD* harboring PAO1 as well as the empty vector control PAO1 in LB medium, added arabinose (0.2%) to the medium to induce pleD* expression and harvested the cells in exponential growth phase, when the cells exhibited elevated c-di-GMP levels of about two-fold (see manuscript). We are discribing the characteristics of elevated c-di-GMP with a Multi-Omics-Dataset.

Project description:c-di-GMP and c-di-AMP are important conserved second messenger in bacteria, they play a critical role in a wide range of cellular processes, such as motility, virulence, biofilm formation, cell-cycle progression and cell development, but there are only two c-di-GMP receptors and one c-di-AMP receptors were identified in mycobacteria so far, to identify more c-di-GMP and c-di-AMP receptors we compare the protein expression level of c-di-GMP or c-di-AMP synthesis enzyme overexpression strain with the wild type Mycobacterium smegmatis.