Identification of Chromatin-Associated Regulators of MSL Complex Targeting in Drosophila Dosage Compensation

Erica Larschan,Mitzi I Kuroda,Shouyong Peng,Jessica Feng,Eric Bishop,Jessica Chery,Karen Goebel,Peter J Park,Ok-Kyung Lee,Marcela M L Soruco,Alexander Brehm

doi:10.1371/journal.pgen.1002830

Erica Larschan, Mitzi I Kuroda + Show 9 more

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https://doi.org/10.1371/journal.pgen.1002830

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Journal: PLoS Genetics	Publication Date: Jul 26, 2012
Citations: 98	License type: CC BY 4.0

Affiliation: Brown University

Abstract

Sex chromosome dosage compensation in Drosophila provides a model for understanding how chromatin organization can modulate coordinate gene regulation. Male Drosophila increase the transcript levels of genes on the single male X approximately two-fold to equal the gene expression in females, which have two X-chromosomes. Dosage compensation is mediated by the Male-Specific Lethal (MSL) histone acetyltransferase complex. Five core components of the MSL complex were identified by genetic screens for genes that are specifically required for male viability and are dispensable for females. However, because dosage compensation must interface with the general transcriptional machinery, it is likely that identifying additional regulators that are not strictly male-specific will be key to understanding the process at a mechanistic level. Such regulators would not have been recovered from previous male-specific lethal screening strategies. Therefore, we have performed a cell culture-based, genome-wide RNAi screen to search for factors required for MSL targeting or function. Here we focus on the discovery of proteins that function to promote MSL complex recruitment to “chromatin entry sites,” which are proposed to be the initial sites of MSL targeting. We find that components of the NSL (Non-specific lethal) complex, and a previously unstudied zinc-finger protein, facilitate MSL targeting and display a striking enrichment at MSL entry sites. Identification of these factors provides new insight into how MSL complex establishes the specialized hyperactive chromatin required for dosage compensation in Drosophila.

Highlights

X-chromosome dosage compensation in male Drosophila provides a model for understanding how a large number of diversely regulated genes along the length of a single chromosome can be targeted for coordinate regulation
We identified the NSL [13][14] and PAF [15][16] general transcriptional regulators, as well as a previously unstudied zinc finger protein, CG1832, that emerges as a strong candidate to function as the previously unknown link between Male-Specific Lethal (MSL) complex and MRE sequences within chromatin entry sites
A genomewide RNAi library generated by the Drosophila RNAi Screening Center (DRSC) that contains approximately 21,000 dsRNAs was screened in duplicate

Summary

Introduction

X-chromosome dosage compensation in male Drosophila provides a model for understanding how a large number of diversely regulated genes along the length of a single chromosome can be targeted for coordinate regulation. In Drosophila, the transcript levels of genes along the length of the single male X-chromosome are upregulated approximately two-fold, a process mediated by the MSL (Male-specific lethal) histone acetyltransferase complex [1]. A model, initially based on genetic observations [2], posits that the MSL complex binds the X-chromosome in a two-step process. MSL complex increases transcript levels of its target genes by increasing the density of RNA Polymerase II (RNAP II) over transcription units, likely via MSL-dependent H4K16 acetylation [6] A sequenceindependent spreading occurs in which the MSL complex associates with the bodies of active X-linked genes via general features associated with transcription, including H3K36me3 [5].

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