Research

Discrete genomic units can recombine into composite transposons that transcribe and transpose as single units, but their regulation and function are not fully understood. We report that composite transposons harbor bivalent histone marks, with activating and repressive marks in distinct regions. Genome-wide CRISPR-Cas9 screening, using a reporter driven by the hominid-specific composite transposon SVA (SINE [short interspersed nuclear element]-VNTR [variable number of tandem repeats]-Alu) in human cells, identified diverse genes that modify bivalent histone marks to regulate SVA transcription. SVA transcripts are critical for SVA’s cis-regulatory function in selectively contacting and activating long-range gene expression. Remarkably, a subset of bivalent SVAs is activated during erythropoiesis to boost multiple erythroid gene expression, and knocking down these SVAs leads to deficient erythropoiesis. The RNA-dependent cis-regulatory function of SVA activates genes for myelopoiesis and can contribute to aging-associated myeloid-biased hematopoiesis. These results reveal that the cis-regulatory functions of composite transposons are bivalently regulated to control cell fate transitions in development and aging.

Original link: https://doi.org/10.1016/j.cell.2025.07.014