SRP493253 PRJNA1083575 GSE260819 Epigenetic and transcriptional consequences in the endosperm of chemically induced transposon mobilization in Arabidopsis Genomic imprinting, an epigenetic phenomenon leading to parent-of-origin-specific gene expression, has independently e v olv ed in the en- dosperm of flo w ering plants and the placenta of mammals—tissues crucial f or nurturing embry os. While transposable elements (TEs) frequently colocalize with imprinted genes and are implicated in imprinting establishment, direct in v estigations of the impact of de no v o TE transposition on genomic imprinting remain scarce. In this study, we explored the effects of chemically induced transposition of the Copia element ONSEN on genomic imprinting in Arabidopsis thaliana . Through the combination of chemical TE mobilization and doubled haploid induction, we gener- ated a line with 40 new ONSEN copies. Our findings reveal a preferential targeting of maternally expressed genes (MEGs) for transposition, aligning with the colocalization of H2A.Z and H3K27me3 in MEGs—both previously identified as promoters of ONSEN insertions. Additionally, we demonstrate that chemically-induced DNA hypomethylation induces global transcriptional deregulation in the endosperm, leading to the breakdo wn of MEG imprinting. T his study pro vides insights into the consequences of chemically induced TE remobilization in the endosperm, re v ealing that chemically-induced epigenome changes can ha v e long-term consequences on imprinted gene expression. Overall design: RNAseq, WGBS and CUT&Tag datasets were obtained from INTACT purified endosperm nuclei from Col × Ler (L) reciprocal crosses at 4 days after pollination (DAP). WGBS and CUT&Tag were generated in duplicates using the INTACT line (referred as C) or TEmob (T3, referred as Cm) genetic background in recirpocal crosses with Ler (L). RNAseq libraries were generated in triplicates from TEmob (Cm) x Ler (L) reciprocal crosses. GSE260819 pubmed 38967011 parent_bioproject PRJNA1083570