TY - JOUR T1 - Histone gene replacement reveals a post-transcriptional role for H3K36 in maintaining metazoan transcriptome fidelity JF - bioRxiv DO - 10.1101/114926 SP - 114926 AU - Michael P. Meers AU - Telmo Henriques AU - Christopher A. Lavender AU - Daniel J. McKay AU - Brian D. Strahl AU - Robert J. Duronio AU - Karen Adelman AU - A. Gregory Matera Y1 - 2017/01/01 UR - http://biorxiv.org/content/early/2017/03/08/114926.abstract N2 - Histone H3 lysine 36 methylation (H3K36me) is thought to participate in a host of co-transcriptional regulatory events. To study the function of this residue independent from the enzymes that modify it, we used a “histone replacement” system in Drosophila to generate a non-modifiable H3K36 lysine-to-arginine (H3K36R) mutant. We observed global dysregulation of mRNA levels in H3K36R animals that correlates with the incidence of H3K36me3. Similar to previous studies, we found that mutation of H3K36 also resulted in H4 hyperacetylation. However, neither cryptic transcription initiation, nor alternative pre-mRNA splicing, contributed to the observed changes in expression, in contrast with previously reported roles for H3K36me. Interestingly, knockdown of the RNA surveillance nuclease, Xrn1, and members of the CCR4-Not deadenylase complex, restored mRNA levels for a class of downregulated, H3K36me3-rich genes. We propose a posttranscriptional role for modification of replication-dependent H3K36 in the control of metazoan gene expression.Impact Statement Post-translational modification of histone H3K36 is neither required to suppress cryptic transcription initiation nor to include alternative exons in Drosophila; instead it promotes expression of active genes by stimulating polyadenylation. ER -