Project description:Alphaproteobacteria stand out for their complex cell cycles, which are often regulated by the DivJ/PleC-DivK-DivL-CckA-ChpT-CtrA pathway. DivJ and PleC set up the polarity of the cell, thereby eventually leading to differential activation of the DNA-binding response regulator CtrA in the two nascent daughter cells. CtrA regulates replication and transcription of many genes, thereby ensuring that processes such as motility and cell division take place at the appropriate cell cycle stage. The cell cycle of the stalked budding alphaproteobacterium Hyphomonas neptunium culminates in an asymmetric cell division at the stalk-bud junction. Here, we investigate the role of the pathway from DivJ and PleC down to CtrA in this recently established model organism. Even though DivJ and PleC are localized to opposite poles, suggesting they are involved in polarity establishment inH. neptunium, DivJ, PleC and the other components of the upstream pathway (DivK and PleD) are not essential for cell cycle regulation. In contrast, the downstream part of the pathway starting from DivL is essential and involved in the regulation of important functions such as replication inhibition, cell division and motility, as shown by the identification of the (direct) regulon of CtrA. The overlap between the regulons of DivJ and PleC, DivK and CtrA is only partial, demonstrating that additional factors feeding into the pathway must be present in H. neptunium. Furthermore, unlike in other alphaproteobacteria, the regulation of CtrA throughout the cell cycle does not take place at the level of CtrA abundance in H. neptunium. All in all, the DivL-CckA-ChpT-CtrA pathway plays an essential role in the regulation of the complicated cell cycle ofH. neptunium, but several proteins feeding into CtrA remain undiscovered. The in-depth analysis of CtrA regulation in this stalked budding organism leads to hypotheses that might also hold in well-established model organisms such as Caulobacter crescentus.

Project description:Within the bacterial phylum of the Alphaproteobacteria many species show complex life cycles. Proper regulation of these life cycles requires cell cycle regulation pathways, one of which is the so-called CtrA pathway. Key factors in the CtrA pathway are the histidine kinases PleC and DivJ (located at opposite poles in the cell) and the response regulator DivK. Within the Alphaproteobacteria, stalked budding bacteria are even more asymmetric than most other representatives. How they regulate their cell cycle has not been studied before. Here, we investigated the transcriptional profiles of Hyphomonas neptunium cells lacking either PleC, DivJ or DivK and compared their profiles to that of wildtype cells. We found that the changes upon deletion of DivJ, PleC and especially DivK were smaller than expected from related organisms.

Project description:This SuperSeries is composed of the following subset Series: GSE25996: Expression data from Caulobacter crescentus starved for carbon GSE25997: Expression data from Caulobacter crescentus (syn. C. vibrioides) swarmer and stalked cells starved for carbon GSE25998: Expression data from WT, DSigT and DSigU Caulobacter crescentus (syn. C. vibrioides) starved for carbon Refer to individual Series

Project description:To screen transcripts enriched in pole cells, primordial germ cells of Drosophila, during early embryogenesis, we compared transcriptome between pole cells and whole embryos at stage 4 by a microarray analysis. We used fluorescence-activated cell sorting (FACS) to isolate pole cells from the embryos carrying the transgene, EGFP-vasa, which expresses GFP specifically and continuously in the germline throughout the life cycle. Keywords: cell type comparison

Project description:Epigenome Analysis of Post-Mortem Human Temporal Pole Brain Tissue For more information, please refer to DOI: 10.3233/JAD-141989 Temporal Pole regions from 24 age-matched causcasian males: 8 samples which died of normal causes, 8 samples with Alzheimer's disease (stage 3/4) and 8 samples with dementia with lewy bodies

Project description:Supporting data for Chen et al., "Cytokinesis signals truncation of the PodJ polarity factor by a cell cycle-regulated protease" The microarray component of this work seeks to identify genes whose expression is controlled by the Caulobacter crescentus DivJ-PleC-DivK system. Keywords: time course, mutant/wild-type comparisons

Project description:Epigenome Analysis of Post-Mortem Human Temporal Pole Brain Tissue For more information, please refer to DOI: 10.3233/JAD-141989

Project description:Caulobacter crescentus is an alphaproteobacterium that divides assymetrically. Each cell cycle results in the production of a motile flagellated cell and a sessile cell called the swamer cell and the stalked cell, respectively. The flagellar filament is composed of thousands polymerized flagellins. We showed that glycosylation of flagellins is required for the assembly of the flagellum. This glycosylation is performed by soluble FlmG glycosyltransferases that transfer nonulosonic acids (pseudaminic acid or legionaminic acid) directly to the flagellins. Such glycosylation system is also present in a close relative of Caulobacter crescentus, Brevundimonas subvibrioides. The project is to identify the site of glycosylation and the potential sugar added on this site.

Project description:The POLE mutations represent high somatic mutation loads in patients with colorectal cancer, especially in those with MMR proficient or MSS, therefore, tumors harbouring POLE mutations might be susceptible to immune checkpoint blockade. Based on these reasons, Investigator planned a phase II study of avelumab monotherapy in patients with previously treated, metastatic, MMR deficient (MSI-H) or POLE mutated colorectal cancer.

Project description:The POLE mutations represent high somatic mutation loads in patients with colorectal cancer, especially in those with MMR proficient or MSS, therefore, tumors harbouring POLE mutations might be susceptible to immune checkpoint blockade. Based on these reasons, the investigators planned a phase II study of durvalumab monotherapy in patients with previously treated, metastatic, MMR deficient (MSI-H) or POLE mutated colorectal cancer.