Project description:Bacterial species from diverse phyla contain multiple replicons, yet how these multipartite genomes are organized and segregated during the cell cycle remains poorly understood. Agrobacterium tumefaciens has a 2.8 Mb circular chromosome (Ch1), a 2.1 Mb linear chromosome (Ch2), and two large plasmids (pAt and pTi). We used this alpha proteobacterium as a model to investigate the global organization and temporal segregation of a multipartite genome. Using Chromosome Conformation Capture (Hi-C) assays, we demonstrate that both the circular and the linear chromosomes but neither of the plasmids have their left and right arms juxtaposed from their origins to their termini, generating inter-arm interactions that require the broadly conserved structural maintenance of chromosomes (SMC) complex. Moreover, our studies revealed two types of inter-replicon interactions: “ori-ori clustering” in which the replication origins of all four replicons interact, and “Ch1-Ch2 alignment” in which the arms of Ch1 and Ch2 interact linearly along their lengths. We show that the centromeric proteins (ParB1 for Ch1 and RepBCh2 for Ch2) are required for both types of inter-replicon contacts. Finally, using fluorescence microscopy, we validated the clustering of the origins and observed their frequent colocalization during segregation. Altogether, our findings provide a high-resolution view of the conformation of a multipartite genome. We hypothesize that inter-centromeric contacts promote the organization and maintenance of diverse replicons.

Project description:Comparative genomic hybridizations obtained with an original Agrobacterium tumefaciens strain C58 genome-based micro-array were used to detect the presence or absence of genes homologous to those of strain C58 in 25 agrobacterial strains. These strains included six other members of genomovar G8, one to three strains for each of the nine other A. tumefaciens genomovars and one for A. larrymoorei, a sister species of the A. tumefaciens complex. An original probabilistic method was used to segment C58 replicon sequences into regions, that are absent or present in tested strains, allowing us to detect the presence of homologues of C58 coding sequences (CDSs) in tested strains.

Project description:This research focuses on the design, manufacturing and validation of a new Agrobacterium tumefaciens C58 whole-genome tiling microarray platform for novel RNA transcript discovery. A whole-genome tiling microarray allows both annotated genes as well as previously unknown RNA transcripts to be detected and quantified at once. The Agrobacterium tumefaciens C58 genome is re-acquired with next-generation sequencing and then used to design the tilinlg microarray with the thermodynamic analysis program Picky. Validations are performed by subjecting Agrobacterium tumefaciens C58 under various growth conditions and then using the tling microarrays to verify expected gene expression patterns.

Project description:rs11-03_agro transcriptomic comparison of tumoric tissues induced by different c58 agrobacterium lines What are the functions and the regulatory pathways of the bacterial quorum-sensing system in the context of Agrobacterium/Arabidopsis interactions? Arabidopsis WT Col0 plants were grown in greenhouse till stage 1.03-1.04 (growth conditions 1). They were then confined in short day conditions and at 22°C (growth conditions 2). At stage 5.10 plants were wounded at the base of the stem and part of them were inoculated with 3 different C58 Agrobacterium strains (WT, accR or traI). Eighteen days post inoculation, wounded but non-infected tissues (control) as well as tumoric tissues were collected and processed for RNA extraction. 21 dye-swap

Project description:In the present study we investigate the role of the LysR-type transcriptional regulators LsrB (Atu2186) and OxyR (Atu4641) in the oxidative stress response of Agrobacterium tumefaciens C58 (alias A. fabrum C58). Therein, we used our existing lsrB-deletion (Kraus et al. 2020*) mutant and constructed two additional mutants: An oxyR and a lsrB/oxyR double deletion mutant. Total RNA was isolated from WT and mutant strains grown in LB medium to mid-exponential phase and withdrawn before or after 15 min, 5 mM H2O2 stress. Residual DNA was removed by RNAse-free Dnase. Sequencing was performed done on the Illumina NovaSeq 6000 platform. Our results reveal a central role for both LysR-type transcriptional regulators in the oxidative stress response of Agrobacterium tumefaciens. Kraus, A., Weskamp, M., Zierles, J., Balzer, M., Busch, R., Eisfeld, J., et al. (2020) Arginine-rich small proteins with a domain of unknown function DUF1127 play a role in phosphate and carbon metabolism of Agrobacterium tumefaciens. J Bacteriol 202: e00309-20.

Project description:Purpose: The goals of this study is to compare the reponse of Agrobacterium tumefaciens C58 in the presence of GHB and GABA to delineated the key-genes associated to the response of these metabolites in A. tumefaciens C58.

Project description:rs11-03_agro transcriptomic comparison of tumoric tissues induced by different c58 agrobacterium lines What are the functions and the regulatory pathways of the bacterial quorum-sensing system in the context of Agrobacterium/Arabidopsis interactions?

Project description:As sessile organisms, plants require dynamic pathways in order to recognize pathogens and coordinate plant defenses by signalling. Agrobacterium tumefaciens C58 is able to avoid triggering plant defenses prior to entering the cell, and therefore is only detected once infection has begun making Agrobacterium a plant pathogen to numerous plant species. Understanding plant responses to Agrobacterium will be useful in improving plant defenses and potentially may also improve plant transformation efficiency. Microarrays were utilized for detailing the global gene expression pattern in A. thaliana Col-0 roots in response to A. tumefaciens C58 for the identification of differentially expressed genes.

Project description:As sessile organisms, plants require dynamic pathways in order to recognize pathogens and coordinate plant defenses by signalling. Agrobacterium tumefaciens C58 is able to avoid triggering plant defenses prior to entering the cell, and therefore is only detected once infection has begun making Agrobacterium a plant pathogen to numerous plant species. Understanding plant responses to Agrobacterium will be useful in improving plant defenses and potentially may also improve plant transformation efficiency. Microarrays were utilized for detailing the global gene expression pattern in A. thaliana Col-0 leafs in response to A. tumefaciens C58 for the identification of differentially expressed genes.

Project description:Purpose: The goals of this study is to compare the reponse of Agrobacterium tumefaciens C58 in the presence and absence of the two opines nopaline and agrocinopine (more precisely agrocinopine A) to delineated the key-genes associated to opines-response in A. tumefaciens C58.