Project description:The great tit is a widely studied passerine bird species in ecology that, in the past decades, has provided important insights into speciation, phenology, behavior and microevolution. After completion of the great tit genome sequence, a customized high density 650k SNP array was developed enabling more detailed genomic studies in this species.
Project description:The Myc-Max heterodimer has been thought of as a sequence specific DNA binding protein that regulates transcription of a large number of genes. We demonstrate here that the positions of the human genome occupied by Myc-Max correlate with the RNA polymerase II (Pol II) transcription complex rather than to the canonical DNA binding sequence element CACGTG. The heterodimer is positioned slightly upstream of essentially all promoter proximal paused polymerases and is found throughout the transcribed regions of genes. Using a multi-genome analysis of promoter regions we show that the heterodimers are oriented with respect to the direction of transcription with Myc downstream of Max. In strong support of a model in which the Myc is recruited by transcription complexes rather than specific DNA sequences, we found that the difference in affinities of Myc-Max heterodimers for CACGTG versus non-specific DNA is not great enough to drive the pattern of genome occupancy exhibited. A total of 2 ChIP-Seq data for Myc and Max in human HeLa cell.
