Project description:To investigate the DNA binding specificity of the CLAMP protein, we have designed a custom PBM to interrogate the binding of CLAMP to DNA sequences extracted from the Drosophila melanogaster genome. Specific regions were extracted based on ChIP-seq data, motif occurence and proximity to gene transcription start sites. N-terminal GST-tagged protein samples were made for the C-terminal four and six zinc finger portions of the protein CLAMP; samples were made by in vitro transcription translation (IVT). IVT reaction mixtures for the two CLAMP constructs were applied directly to the PBM microarray and incubated for 1hour. Microarray-bound protein was fluorescently labeled using Alexa488-conjugated antibodies targeting GST, and the microarray was scanned in using a standard microarray scanner. Median fluorescence intensity over eight replicate probes was reported for each unique DNA sequence on the microarray.

Project description:To investigate the DNA binding specificity of the CLAMP protein, we have designed a custom PBM to interrogate the binding of CLAMP to DNA sequences extracted from the Drosophila melanogaster genome. Specific regions were extracted based on ChIP-seq data, motif occurence and proximity to gene transcription start sites.

Project description:Histone locus regulation by the Drosophila dosage compensation adaptor protein CLAMP

Project description:The Drosophila male-specific lethal (MSL) complex binds to the male X chromosome to activate transcription, and consists of five proteins, MSL1, MSL2, MSL3, MOF, MLE, and two roX RNAs. The MLE helicase remodels the roX lncRNAs, enabling the lncRNA-mediated assembly of the Drosophila dosage compensation complex. MSL2 is expressed only in males and interacts with the N-terminal zinc-finger of the transcription factor CLAMP that is important for specific recruitment of the MSL complex on the male X chromosome. Here we found that the unstructured C-terminal region of MLE interacts with 6-7 zinc-finger domains of CLAMP. In vitro 4-5 zinc fingers are critical for specific DNA-binding of CLAMP with GA-repeats, which constitute the core motif at the high affinity binding sites for MSL proteins. Deletion of the Clamp Binding Domain (CBD) in MLE results in decreasing of MSL proteins association with male X chromosome and increasing of male lethality. These results suggest that interactions of unstructured regions in MSL2 and MLE with CLAMP zinc finger domains are important for the specific recruitment of the MSL complex on the male X chromosome.

Project description:The zinc-finger protein CLAMP promotes gypsy chromatin insulator function in Drosophila: ChIP-seq of CP190, Su(Hw), Mod(mdg4) for genome-wide overlap with CLAMP

Project description:Transcription factor CLAMP associates with RNA helicase, Maleless MLE as part of Male-specific MSL complex in males, which regulates dosage compensation in males. Both CLAMP and MLE are maternally deposited proteins (protein expression detectd in 0- Hr embryo, before zygotic genome activation) and MLE is also a conserved component of spliceosome. Moreover, CLAMP too associates with many other RNA binding protein compoments of spliceosomes. Both these proteins are well expressed in females, but apart from that might influence splicing in females, not much is known if they have any female-specific function. Furthermore, whether they regulate each other's function in females is not known as well, especially before zygotic genome activation starts, in a pre-MZT embryo (0-2 Hr Embryo). Therefore, we performed CutnRun assay to detrmine MLE binding sites on chromatin in female embryos before (0-2 Hr) and after MZT (2-4 Hr). And then identify, in absence of maternal CLAMP, whether there is change is distribution of control MLE female peaks. We identified regions on chromatin where MLE binds during 0-2 Hr pre-MZT and 2-4 Hr post-MZT embryonic stages in females. CLAMP unlike to males do not affect MLE distribution on chromatin in females.

Project description:Enhanced chromatin accessibility of the dosage compensated Drosophila male X chromosome requires the CLAMP zinc finger protein [MNase-SEQ]

Project description:Enhanced chromatin accessibility of the dosage compensated Drosophila male X chromosome requires the CLAMP zinc finger protein [START-SEQ]

Project description:ChIP-seq and mRNA-seq experiments were performed to understand the role of the CLAMP protein in dosage compensation ChIP-seq experiments compared the binding profiles of CLAMP in male and female cells and mRNA-seq data to define the role of CLAMP in regulating genes on the X-chromosome

Project description:Concentration dependent binding states of the Bicoid Homeodomain Protein