Project description:Rickettsiales bacterium overview

Project description:Marine Rickettsiales genomes

Project description:Rickettsiales bacterium strain:JGI CrystG Aug08-2-H10 Genome sequencing

Project description:Rickettsiales genera incertae sedis Genome sequencing

Project description:We measured abundances of tRNAs by means of hydro-tRNA-seq (Gogakos et al., 2017), a method based on partial alkaline RNA hydrolysis that generates fragments suitable for sequencing, in the genome-reduced bacterium Mycoplasma pneumoniae.

Project description:Given the facilities for whole genome sequencing with next-generation sequencers, structural and functional gene annotation is now only based on automated prediction. However, errors in terms of gene structure are still frequently reported especially for the correct determination of initiation start codons. Here, we propose a strategy to enrich and detect protein N-termini by mass spectrometry in order to refine genome annotation. After selective protein N-termini derivatization using (N-Succinimidyloxycarbonylmethyl)tris(2,4,6-trimethoxyphenyl)phosphonium bromide (TMPPAc-OSu) as labeling reagent, protein digestion was performed with three proteases in parallel. TMPP-labeled N-terminal-most peptides were further resolved from internal peptides by the COmbined FRActional DIagonal Chromatography (COFRADIC) sorting methodology before analysis with tandem mass spectrometry. We refined the annotation of the genome of a model marine bacterium, Roseobacter denitrificans.

Project description:The Placozoa are an enigmatic group of simple marine metazoans where all taxa harbor intracellular bacteria. Despite four decades of research, the bacterial identities, their location and their roles remain elusive. Here we show that the placozoan Trichoplax H2 is associated with two intracellular bacteria. We detected the symbionts and reconstructed their physiology using metagenomic and metatranscriptomic evidence from the same single-animal specimens. One symbiont forms a new genus in the Midichloriaceae (Rickettsiales) and correlative fluorescent labelling and 3-D electron microscopic tomography showed that it inhabits the rough ER in the fiber-cells. It has mutualistic traits and occurs worldwide as we could detect it in 10% of all aquatic tag sequencing datasets. The second symbiont is an intracellular bacterium from the Margulisbacteria, a phylum-level clade previously only identified from DNA sequencing and not known to form intracellular associations. It resides in the digestive ventral epithelial cells, uses lipids digested by the host and has the physiological capacity to supplement the placozoan nutrition. Our single-individual approach revealed that this cultivable placozoan host forms a tripartite symbiosis and provides experimental access to microbial dark matter – a rickettsiales that inhabits a novel niche within eukaryote cells and an intracellular margulisbacterial symbiont.

Project description:The Rickettsiales Ehrlichia ruminantium (ER), the causal agent of the fatal tick-borne disease Heartwater, induces severe damage to the vascular endothelium in ruminants. Nevertheless, E. ruminantium-induced pathobiology remains largely unknown. Our work paves the way for understanding this phenomenon by using quantitative proteomic analyses (2D-DIGE-MS/MS, 1DE-nanoLC-MS/MS and biotin-nanoUPLC-MS/MS) of host bovine aorta endothelial cells (BAE) during the in vitro bacterium intracellular replication cycle. We detect 265 bacterial proteins (including virulence factors), at all time-points of the E. ruminantium replication cycle, highlighting a dynamic bacterium–host interaction. We show that E. ruminantium infection modulates the expression of 433 host proteins: 98 being over-expressed, 161 under-expressed, 140 detected only in infected BAE cells and 34 exclusively detected in non-infected cells. Cystoscape integrated data analysis shows that these proteins lead to major changes in host cell immune responses, host cell metabolism and vesicle trafficking, with a clear involvement of inflammation-related proteins in this process. Our findings led to the first model of E. ruminantium infection in host cells in vitro, and we highlight potential biomarkers of E. ruminantium infection in endothelial cells (such as ROCK1, TMEM16K, Albumin and PTPN1), which may be important to further combat Heartwater, namely by developing non-antibiotic-based strategies.

Project description:Differences in genome size and gene content are among the most important signatures of microbial adaptation and genome evolution. Here, we investigated the patterns of genome variation among strains of the symbiotic nitrogen-fixing bacterium Sinorhizobium meliloti. Using the sequenced strain Rm1021 as a reference, the genome size and gene content variations were analyzed among ten diverse natural strains, through pulse field gel electrophoresis (PFGE) and whole-genome microarray hybridizations. Our PFGE analysis showed a genome size range of 6.45-7.01Mbp, with the greatest variation arising from the pSymA replicon, followed by that of pSymB. No observable size difference was evident among the chromosomes. Consistent with this pattern of size differences, 41.2% of ORFs on pSymA were variably absent/present, followed by 12.7% on pSymB, and 3.7% on the chromosome. However, the percentages of ORFs that were variably duplicated were more evenly distributed among the three replicons, 11.0%, 16.5% and 15.3% respectively for ORFs on pSymA, pSymB and the chromosome. Among the 10 strains, the percentages of absent ORFs ranged from 1.51% to 6.35% and those of duplicated ORFs ranged from 0.27% to 8.56%. Our analyses showed that host plants, geographic origins, multilocus enzyme electrophoretic types, and replicon sizes had little influence on the distribution patterns of absent or duplicated ORFs. The proportions of ORFs that were either variably absent/present or variably duplicated differed greatly among the functional categories, for each of the three replicons as well as for the whole genome. Interestingly, we observed positive correlations among the three replicons in their numbers of absent ORFs as well as the numbers of duplicated ORFs, consistent with coordinated gene gains/losses in this important bacterium in nature. microarray:Sm6kOligo

Project description:Investigation of whole genome gene expression level changes in anaerobic, nitrate-dependent Fe(II) oxidation in the chemolithoautotrophic bacterium Thiobacillus denitrificans