Project description:Several recently emerging ChIP-seq (chromatin immunoprecipitation followed by sequencing) based methods perform chemical steps on bead-bound immunoprecipitated chromatin, posing a challenge for generating similarly treated input controls required for bioinformatics and data quality analyses. Here we present a versatile method for producing technique-specific input controls for ChIP-based methods that utilize additional bead-bound processing steps. Application of this method allowed for discovery of a novel CTCF binding motif from ChIP-exo data.

Project description:Chromatin immunoprecipitation followed by next generation sequencing (ChIP-seq) is widely used to map histone marks and transcription factor binding throughout the genome. Here we present ChIPmentation, a method that combines ChIP with sequencing library preparation by Tn5 transposase (“tagmentation”). ChIPmentation introduces sequencing-compatible adapters in a single-step reaction directly on bead-bound chromatin, which reduces time, cost, and input requirements, making ChIPmentation a convenient and high-throughput alternative to existing ChIP-seq protocols.

Project description:The study aims to investigate the role of PfNOT1.1 in transcription in the malaria parasite, P. falciparum. To achieve this goal, the recruitment of RPB1 was assessed by chromatin immunoprecipitatiion and microarray technology The endogenous PfNot1.1 was disrupted. DNA bound by Ser2/5-P RPB1 (ChIP DNA) was immunoprecipitated by Ser2/5-P RPB1 antibody in the PfNot1.1 knockout line and the wildtype line at six timepoints across one parasite's intraerythrocytic life cycle. ChIP DNA and Input genomic DNA were analyzed by microarray.

Project description:To understand how GTL1 regulates cell growth, we first identified its potential direct targets by the chromatin immunoprecipitation followed by the hybridization on an Affymetrix Arabidopsis Tiling 1.0R array (ChIP-chip). To enrich the genomic region bound by GTL1 in vivo, we harvested whole aerial parts of 12-day-old gtl1-1 plants complemented with the pGTL:GTL1:GFP constructs and immunoprecipitated the chromatin fragments associated with GTL1-GFP proteins using antibodies against GFP. After applying a cut-off P-values of 0.001of MAT (Model-based analysis of tiling array), we identified a total number of 3,900 putative immediate target genes that showed consistent binding by GTL1. Two IP chips compared to two Input chips.

Project description:To study the correlation between sequence motif appearance, transcription factor binding and aberrant hypermethylation in the cell lines, we performed ChIP-on-chip analyses (on CpG island microarrays) for the transcription factors Sp1, NRF1 and YY1 in normal peripheral blood monocytes. Keywords: ChIP-on-Chip; comparative genomic hybridization Transcription factor bound genomic DNA was enriched using ChIP. On each microarray, the enriched material was compared to the genomic input to identify transcription factor bound regions. Two biological replicates were analysed for each factor.

Project description:Cells expressing Tap-Tagged PUF3 were used for selection on IgG beads, then released using TEV protease. Samples were input and bound fraction without rRNA removal, and unbound fraction and input after rRNA removal with oligonucleotides and RNase H.

Project description:A study to define the binding loci of RelA-containing NF-kappaB dimers in a human myometrial smooth muscle cell line after exposure to TNF. Monolayers of PHM1-31 cells were exposed to TNF (10ng/ml) for 1 hour or left unstimulated. The Chromatin immunoprecipitation (ChIP) assay was performed to recover RelA-bound chromatin or non-specifically bound chromatin with IgG. That chromatin was prepared and used to probe Affymetrix GeneChIP 1.0R Human Promoter arrays. Three biological replicates of each experiment were conducted. Datasets were subsequently analysed in Partek Genomics Suite V6.6 where baseline was normalised by subtraction of IgG values from conrresponding RelA-immunoprecipitated samples. Control samples immunoprecipitated with RelA were then compared with TNF-stimulated samples immunoprecipitated with RelA.

Project description:Normal thymic T cell development is enabled by a stromal microenvironment most importantly composed of distinct epithelial cell populations in cortex and medulla. Their differentiation, growth and function require the expression of the transcription factor Foxn1. Direct targets of Foxn1 have, however, remained largely undefined. Utilizing newly created static and inducible genetic model systems, we now provide a genome wide map of Foxn1 target genes and the sequences bound by this master regulator. Foxn1 controls not only essential steps early in intrathymic lymphoid development including T cell lineage commitment but is also indispensable for later stages in T cell maturation such as the selection of CD4 and CD8 T cells. Thus, Foxn1 function critically choreographs both early and late events in thymic lympho-stromal cross-talk. Foxn1 ChIP-seq and RNA-seq in mouse models of hypofunctional or conditional knock-out of Foxn1 Brief sample descriptions are shown below: Foxn1 ChIP-seq (GSM1945905) - chromatin immunoprecipitated using an antibody against FOXN1-FLAG (wt*); 2 samples Input ChIP-seq (GSM1945906) - input chromatin; 2 samples 42cT (GSM1945907) - RNA-seq on wt*/-::nu/nu cTEC; 3 samples 42mT (GSM1945908) - RNA-seq on wt*/-::nu/nu mTEC; 2 samples 96cT (GSM1945909) - RNA-seq on wt*/wt*::nu/nu cTEC; 3 samples 96mT (GSM1945910) - RNA-seq on wt*/wt*::nu/nu mTEC; 2 samples NcT (GSM1945911) - RNA-seq on Dox-treated TetO- iFoxn1(del7,8) cTEC; 5 samples PcT (GSM1945912) - RNA-seq on Dox-treated TetO+ iFoxn1(del7,8) cTEC; 5 samples C57BL/6 mice (GSM1945913) - ATAC-seq on wild-type cTEC; 1 sample Please see each sample for more detailed information.

Project description:FLAG-GFP tagged LIN-41 was immunoprecipitated using FLAG dynabeads (Sigma) from lysates of young adult C.elegans. After washing steps, bound fraction (IP) was eluted from beads and associated RNAs were isolated by using the Pico pure RNA isloation kit (Invitrogen)

Project description:Genome-wide chromatin-immunoprecipitation (ChIP-chip) detects binding of transcriptional regulators to DNA in vivo at low resolution. Motif discovery algorithms can be used to discover sequence patterns in the bound regions that may be recognized by the immunoprecipitated protein. However, the discovered motifs often do not agree with the binding specificity of the protein, when it is known. RESULTS: We present a powerful approach to analyzing ChIP-chip data, called THEME, that tests hypotheses concerning the sequence specificity of a protein. Hypotheses are refined using constrained local optimization. Cross-validation provides a principled standard for selecting the optimal weighting of the hypothesis and the ChIP-chip data and for choosing the best refined hypothesis. We demonstrate how to derive hypotheses for proteins from 36 domain families. Using THEME together with these hypotheses, we analyze ChIP-chip datasets for 14 human and mouse proteins. In all the cases the identified motifs are consistent with the published data with regard to the binding specificity of the proteins.