Abstract
In Drosophila, the MSL (Male Specific Lethal) complex up regulates transcription of active genes on the single male X-chromosome to equalize gene expression between sexes. One model argues that the MSL complex acts upon the elongation step of transcription rather than initiation. In an unbiased forward genetic screen for new factors required for dosage compensation, we found that mutations in the universally conserved transcription elongation factor Spt5 lower MSL complex dependent expression from the miniwhite reporter gene in vivo. We show that SPT5 interacts directly with MSL1 in vitro and is required downstream of MSL complex recruitment, providing the first mechanistic data corroborating the elongation model of dosage compensation.
Highlights
Drosophila dosage compensation is widely used as a model system to investigate how transcription is regulated by large scale chromatin modifications [1]
We found that SPT5 is required for dosage compensation in males and extensively colocalizes with the MSL complex on the X-chromosome
We find that the dosage compensation complex genetically and physically interacts with SPT5 on actively transcribed genes providing direct molecular support for the elongation model of dosage compensation
Summary
Drosophila dosage compensation is widely used as a model system to investigate how transcription is regulated by large scale chromatin modifications [1]. To equalize the expression of the X-linked genes between XY males and XX females, the single Xchromosome in males is hypertranscribed a modest, but essential ,1.4–1.8 fold. This is accomplished by the MSL complex, which consists of at least five proteins and two noncoding roX (RNA on X) RNAs [2]. The complex contains the histone modifying enzymes MOF (H4K16ac) and MSL2 (H2BK34ub) [3]. MSL3 is a chromodomain protein implicated in MSL complex distribution to its target site [4]. MSL1 assembles the complex via discrete docking sites for MSL2, MSL3, and MOF. MLE is an ATPase/ helicase with double stranded RNA binding motifs that associates with the complex in an RNA dependent manner
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