Project description:Cancer biomarker discovery constitutes a frontier in cancer research. In recent years, cell-binding aptamers have become useful molecular probes for biomarker discovery. However, there are few successful examples, and the critical barrier resides in the identification of the cell-surface protein targets for the aptamers, where only a limited number of aptamer targets have been identified so far. Herein, we developed a universal SILAC-based quantitative proteomic method for target discovery of cell-binding aptamers. The method allowed for distinguishing specific aptamer-binding proteins from non-specific proteins based on abundance ratios of proteins bound to aptamer-carrying bait and control bait. In addition, we employed fluorescently labeled aptamers for monitoring and optimizing the binding conditions. We were able to identify and validate selectin L and integrin 4 as the protein targets for two previously reported aptamers, Sgc-3b and Sgc-4e, respectively. This strategy should be generally applicable for the discovery of protein targets for other cell-binding aptamers, which will promote the applications of these aptamers.

Project description:This SuperSeries is composed of the following subset Series: GSE31889: ChIP-chip from Drosophila egg chambers using MCM2-7 antibody GSE31890: ChIP-chip from Drosophila egg chambers using ORC2 antibody Refer to individual Series

Project description:Chromatin immunoprecipitation of the Origin Recognition Complex (ORC) followed by hybridization to genome-wide tiling microarrays demonstrated that ORC does not localize to DAFC-34B after stage 10, despite a second round of replication initiation Comparison of ORC2 ChIP sample compared to input DNA for Drosophila egg chambers

Project description:Apicomplexa are obligate intracellular parasites. While most species are restricted to specific hosts and cell types, Toxoplasma gondii can invade every nucleated cell derived from warm-blooded animals. This broad host range suggests that this parasite can recognize multiple host cell ligands or structures, leading to the activation of a central protein complex, which should be conserved in all apicomplexans. Cysteine Repeat Modular Proteins (CRMPs) are a family of apicomplexan specific proteins. In Toxoplasma gondii, two CRMPs are present in the genome. We performed pulldown of 3xHA tagged CRMPA and CRMPB. In a second dataset we performed biotinylation of TurboID tagged CRMPB on extracellular parasites to identify transient interaction partners. In a third dataset, we performed biotinylation of TurboID tagged CRMPA or B during invasion or in an invasion blocking buffer.

Project description:Ribosome biogenesis is an essential process within cells that requires integration of extracellular cues such as metabolic states through signaling with transcriptional regulation and maintenance of accessible chromatin at the ribosomal DNA. Here, we demonstrate that the recently identified histone modification, methylation of H2AQ105 is an integral part of a dynamic chromatin network at the rDNA locus. Its deposition depends on a functional mTor signaling pathway and acetylation of histone H3 at position K56, thus integrating signals from cell cycle and proliferative states. Furthermore, we identify a first epigenetic reader of this modification. The ribonucleoprotein Nhp2 specifically recognizes methylation H2AQ105me. Based on functional and proteomic data we suggest that Nhp2 functions as an adapter to bridge chromatin and components of the small subunit processome and might help to efficiently coordinate transcription of rRNA with its post-transcriptional processing.

Project description:Chromatin immunoprecipitation of the MCM2-7 replicative helicase followed by hybridization to genome-wide tiling microarrays demonstrated that MCMs localize to the follicle cell amplicons at stages of replication initiation Comparison of MCM2-7 ChIP sample compared to input DNA for Drosophila egg chambers

Project description:Chromatin immunoprecipitation of tetra-acetylated histone H4 followed by hybridization to genome-wide tiling microarrays demonstrated that tetra-acetylated H4 is enriched at the two chorion Drosophila amplicons in follicle cells (DAFC) as well as other non-amplified loci Comparison of tetra-acetylated H4 ChIP sample compared to input DNA for two different Drosophila strains

Project description:Chromatin immunoprecipitation of RNAPII followed by hybridization to genome-wide tiling microarrays demonstrated that RNAPII localizes to all six Drosophila amplicons in follicle cells (DAFC) as well as other non-amplified genomic loci Localization of RNAPII in stage 10 egg chambers with the nurse cells manually removed

Project description:ChIP was performed to identify regions of gDNA bound by RNA polymerase II in third instar salivary glands of Drosophila WT and SuUR mutants. This demonstrated that RNAPolII does not localize to regions that are under-replicated in SuUR mutant third instar salivary glands. Comparison of RNAPolII ChIP from third instar salivary glands relative to control IgG pulldown for two different Drosophila strains

Project description:ChIP was performed to identify regions of gDNA bound by orc2 in third instar salivary glands of Drosophila WT and SuUR mutants. This demonstrated that ORC does not localize to regions that are under-replicated in SuUR mutant third instar salivary glands. Comparison of ORC2 ChIP sample relative to input DNA or control IgG pulldown for two different Drosophila strains