Project description:Methods: Autonomously replicating vectors represent a simple and versatile model system for genetic modifications, but their localisation in the nucleus is largely unknown. Using circular chromosome conformation capture we mapped genomic contact sites of S/MAR-based replicons in HeLa cells. The influence of cis-active sequences on genomic localisation was assessed using replicons containing either an insulator sequence or an intron Results: While the original and the insulator-containing replicons displayed distinct contact sites, the intron-containing replicon showed a rather broad genomic contact pattern. Our results indicate a preference for certain chromatin structures and a rather non-dynamic behaviour during mitosis. Independent of inserted cis-active elements established vector molecules reside preferentially within actively transcribed regions, especially within promoter sequences and transcription start sites. Conclusions: S/MAR-based episomal replicons have a limited number of preferential contact sites and seem to be fairly non-dynamic during mitosis. We show that cis-acting elements do have an impact on the chormosomal localisation of episomal replicons, even though the epigenetic signatue of these contact sites are similar. Independently of the inserted cis-acting element, these contact sites are preferentially located within actively transcribed regions, especially promoter sites. Knowledge of preferred contact sites of exogenous DNA, e.g. viral or non-viral episomes, contribute to our understanding of episome behaviour in the nucleus and can be used for vector improvement and guiding of DNA sequences to specific subnuclear sites.

Project description:Episomal S/MAR-based replicons do not alter expression profile of host genome

Project description:Episomal S/MAR-based replicons do not alter expression profile of host genome

Project description:HeLa cells were stably transfected using the Tet-OnM-BM-. Advanced Cell Line system with Wildtype, G392E and Delta Neuroserpin with neuroserpin expression induced with doxycycline. Gene expression was examined in the absence or presence of 2 ug/ml doxycycline. Four cell lines were analysed: Untransfected Parental Cells; and cells transfected with wild type, G392E and Delta Neuroserpin Mutants. Each cell line had three replicate samples.

Project description:Many pathogens and symbionts contain multipartite genomes, but how they are stably maintained is poorly understood. The plant pathogen, Agrobacterium tumefaciens, contains four replicons. Recent work indicates that their replication origins cluster at cell poles in a manner that depends on their ParB-family centromeric proteins. Here, we provide evidence that centromeric clustering is mediated by interactions between these centromeric proteins. We further show that the disruption of centromere clustering results in the loss of replicons. Our data establish the role of centromeric clustering in multipartite genome maintenance.

Project description:The truncated d133-ORF10-FLAG from KSHV was expressed and immunoprecipitated from WT and TorsinKO HeLa cells. The datasets were compared to an untransfected control. As d133-ORF10 localizes to blebs in TorsinKO cells, this approach allows probing of bleb protein contents.

Project description:Transcriptional profiling of mouse mesenchymal stem cell (MSC), C3H10T1/2 cultured cells comparing control parental cells with stably-transfected cells carrying both Flag-E8 and neomysin-resistant transgenes. The latter cell population was selected by treating with G418 to remove untransfected cells.

Project description:Dengue virus (DENV) is a major human pathogen that belongs to the flavivirus genus. Among non-structural viral proteins, NS1 is an enigmatic factor that is exclusively encoded by members of the flavivirus genus within the Flaviviridae family and accomplishes different functions during DENV infection. To gain insight into the molecular and cellular function of NS1 in viral replication, we generated a tagged NS1 DENV replicon and identified the associated host proteins during active viral replication. Replicons are self-replicating flavivirus RNAs containing large in-frame deletions in the structural genes and are useful tools to study translation and RNA amplification of several flaviviruses. To establish a global map of NS1-host protein interactions occurring during DENV replication, we stably expressed a DENV2 replicon encoding NS1 tagged with N-terminal FLAG and HA epitopes (FH-NS1) or the untagged version (WT) in three different human cell lines (Raji, HeLa and HAP1). Interactors of NS1 were identified by AP-MS/MS from these three different cell lines.

Project description:Analysis of HeLa cells overexpressing NDRG3 or exposed to hypoxic condition. Gene expression profiles of HeLa cells stably expressing NDRG3 were compared to gene expression profiles of HeLa stable cells expressing mock or hypoxia-mediated gene expression profiles.

Project description:HeLa cells were un-transfected or transfected with specific siRNAs (20µM) targeting IKAP/hELP1 or non-specific siRNAs against GFP. Same experiment was done by stimulating the cells for 1 hour with TNF-a (200U/ml). conditions: 1/untransfected 2/siRNAs IKAP 3/untransfected + TNF-a 200U/ml 1h 4/siRNAs IKAP + TNF-a 200U/ml 1h 5/siRNAs GFP + TNF-a 200U/ml 1h