Project description:To identify Sp7’s molecular interactions in vivo, we used gene-targeting strategies to generate an Sp7-Biotin-3xFLAG knock-in mouse (Sp7-BioFL mouse). This approach appends a biotin (Bio) recognition motif and three copies of the FLAG (FL) epitope at the C-terminus of the Sp7 protein. To validate this knockin system, we compared ChIP-seq results in the MC3T3E1 osteoblast cell line, introducing Sp7 forms that were epitope-tagged at either the N- (N-terminal FLAG tag; MC3_FLAG-Sp7) or C-terminus (C-terminal Biotin-FLAG tag, as in the in vivo targeted allele; MC3_Sp7-BioFLAG). These data show an extensive overlap, suggesting that FLAG tagging at different positions gives comparable outcomes. Second, we examined ChIP on wild-type calvarial primary osteoblasts (POB) using an anti-Sp7 antibody (POB_Sp7Ab-ChIP). The majority of Sp7-Ab ChIP-seq peaks (95%) overlapped with the larger set identified by Sp7-BioFL ChIP-seq.

Project description:OsSGS3a-FLAG and its interacting proteins were enriched by immunoprecipitation using Anti-FLAG M2 Magnetic Beads. Then, OsSGS3a-FLAG-interacting proteins were identified by mass spectrum.

Project description:Two strains were analyzed by ChIP-seq to determine the genomic binding sites for the Aspergillus fumigatus transcription factor FfmA. A wild-type strain (AfS35) was subjected to ChIP-seq analysis using an antibody directed against the wild-type version of the FfmA protein. An strain containing an epitope-tagged version (FLAG-ffmA) of the ffmA gene under control of a doxycycline off (dox off) promoter was also analyzed by ChIP-seq. In this latter case, an anti-FLAG antibody was used. The negative controls in both cases consisted of a ChIP-seq reaction with the respective primary antibody omitted.

Project description:Purpose: The goal of this study is to identify genes selectively associated with C. elegans CEBP-1. Methods: We generated transgenic animals expressing FLAG-tagged CEBP-1 in a cebp-1(tm2807) mutant background (cebp-1(0); juIs418 [Pcebp-1::FLAG::CEBP-1::cebp-1 3’UTR]) and then immunoprecipitated FLAG-CEBP-1-associated DNA fragments using anti-FLAG antibodies (M2 anti-FLAG magnetic beads; Sigma). We collected mixed stage worms grown at 20˚C on NGM plates followed by 2% formaldehyde and sonicated the samples as described (Mukhopadhyay et al., 2008). We next generated ChIP-seq DNA libraries. Briefly, both ChIPed DNA and input genomic DNA were ligated to specific adaptors and amplified by barcode primers followed by sequencing on the Illumina HiSeq-2000 platform. We performed two independent ChIP-seq experiments, with parallel genomic DNA controls prepared from the same strain. We conducted peak-calling using CLC genomics workbench 6.0 (CLCbio). To define genes associated with the peaks, we used the annotation of transcription start site (TSS) and transcription end site (TES) from WS220 and annotated the peak if it overlapped the gene or the 3 kb upstream of the TSS. We then manually confirmed the peaks and associated genes using UCSC browser and update to WS252. Results: We found 209 CEBP-1 ChIP-seq peaks in the genome that were associated with 212 coding genes. Through motif discovery tools, we also found that CEBP-1 binds conserved DNA motifs. Conclusions: The conservation of C.elegans CEBP-1 binding motif supports functional parallels between C. elegans CEBP-1 and vertebrate C/EBPs.

Project description:We identified protein-protein interactions and chromatin binding sites for two isforms of BRD1 (BRD1-S and BRD1-L) using Co-IP MS/MS and ChIP-seq. BRD1 isoforms were cloned, epitope-tagged (pcDNA 6 V5-His6, Lifetechnologies) and stably expressed in HEK293T cells. Chromatin immunoprecipitations were performed using anti V5-antibody conjugated agarose beads (Sigma-Aldrich) and anti HA antibody conjugated agarose beads (Sigma-Aldrich) as controls

Project description:Standard anti-FLAG magnetic beads for co-immunoprecipitations, elution in 2x SDS sample buffer, loaded into a stacking gel and then in-gel digested

Project description:Sequence data represent a profile of AR network targets in proliferating and non-proliferating P17 cells without cross linking AR to DNA prior to purification. P17 cells were derived from the mouse epididymal cell line PC1 by genetic modification to express a tagged wild type mouse AR cDNA (N-TAP-mAR). N-TAP-mAR allows purification of multi-protein complexes and their genomic targets with FLAG antibody coupled magnetic beads under native conditions.

Project description:We report the IFN-induced dynamics in murine splenic B cells. Male C57BL/6 mice were injected subcutaneously with 10,000U IFNa and spleens were removed at designated time. B cells were negatively isolated using magnetic beads and profiled for the binding of PolII and Stat2 by ChIP-seq analysis.

Project description:To identify SET1A genome-wide occupancy and further unveil its role in transcriptional regulation in mouse ES cells, we carried out chromatin immunoprecipitation followed by high sequencing (ChIP-seq).We established a stable ES cell line expressing 2X Flag tagged SET1A and performed ChIP with anti-Flag M2 beads, followed by deep sequencing. We found that the SET1A peaks show an outstanding enrichment in promoter region. Importantly, these SET1A binding loci revealed a clear co-localization with OCT4, and high H3K4me3 level, which is consistent with its interaction with OCT4 and intrinsic H3K4 methylase activity.

Project description:Ptch1 is a critical negative feedback regulator of the Hedgehog signaling and is upregulated in response to pathway activation. How tissue specific responses are mediated remains unknown. Here, we performed ChIP-seq analysis for epitope-tagged endogenous Gli3 protein to identify limb-specific binding regions within the 500 kb region surrounding Ptch1. ChIP was carried out using an endogenously FLAG-tagged Gli3 protein.