Thursday, March 3, 2011

X chromosome dosage compensation via enhanced transcriptional elongation in Drosophila

X chromosome dosage compensation via enhanced transcriptional elongation in Drosophila: "


X chromosome dosage compensation via enhanced transcriptional elongation in Drosophila


Nature 471, 7336 (2011). doi:10.1038/nature09757


Authors: Erica Larschan, Eric P. Bishop, Peter V. Kharchenko, Leighton J. Core, John T. Lis, Peter J. Park & Mitzi I. Kuroda


The evolution of sex chromosomes has resulted in numerous species in which females inherit two X chromosomes but males have a single X, thus requiring dosage compensation. MSL (Male-specific lethal) complex increases transcription on the single X chromosome of Drosophila males to equalize expression of X-linked genes between the sexes. The biochemical mechanisms used for dosage compensation must function over a wide dynamic range of transcription levels and differential expression patterns. It has been proposed that the MSL complex regulates transcriptional elongation to control dosage compensation, a model subsequently supported by mapping of the MSL complex and MSL-dependent histone 4 lysine 16 acetylation to the bodies of X-linked genes in males, with a bias towards 3′ ends. However, experimental analysis of MSL function at the mechanistic level has been challenging owing to the small magnitude of the chromosome-wide effect and the lack of an in vitro system for biochemical analysis. Here we use global run-on sequencing (GRO-seq) to examine the specific effect of the MSL complex on RNA Polymerase II (RNAP II) on a genome-wide level. Results indicate that the MSL complex enhances transcription by facilitating the progression of RNAP II across the bodies of active X-linked genes. Improving transcriptional output downstream of typical gene-specific controls may explain how dosage compensation can be imposed on the diverse set of genes along an entire chromosome.


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