<HashMap><database>GEO</database><file_versions><headers><Content-Type>application/xml</Content-Type></headers><body><files><Other>ftp://ftp.ncbi.nlm.nih.gov/geo/series/GSE143nnn/GSE143918/</Other></files><type>primary</type></body><statusCode>OK</statusCode><statusCodeValue>200</statusCodeValue></file_versions><scores/><additional><omics_type>Other</omics_type><species>Homo sapiens</species><gds_type>Other</gds_type><full_dataset_link>https://www.ncbi.nlm.nih.gov/geo/query/acc.cgi?acc=GSE143918</full_dataset_link><repository>GEO</repository><entry_type>GSE</entry_type></additional><is_claimable>false</is_claimable><name>DNA-RNA three-stranded hybrids: from the telomere to the genome (human dataset)</name><description>The origin and possible functions of local three-stranded DNA-RNA hybrid regions in the mammalian genome is still a matter of discussion. R-loops have been so far essentially detected by immunodetection of the DNA-RNA hybrid regions (DRIP assay). This powerful and easy to implement method relies on recognition by a unique monoclonal antibody and may not detect all the hybrid regions. Starting from simple logical steps, we developed a preparative method that allows detection and physical isolation of stable DNA-RNA triplexes in a complex genome. A modification of the popular TRIzol extraction procedure first identifies RNAs stably bound to DNA in RNaseH-sensitive complexes, which can be isolated and further characterized by RNA-seq. We first tested the efficiency of the approach by a search for a generalized three-stranded state of the human and mouse telomeres. While such a structure is suggested by the complementarity of the long chromosomal CCCTAA repeats and the noncoding RNA TERRA, it was only in one class of cancer cells that telomeric R-loops were so far evidenced by DRIP assay. The proposed method allowed us to generalize to the mouse and human genomes the notion of terminal R-loop complexes with TERRA molecules synthesized from local promoters. When further applied to murine sperm genome, it evidenced a reproducible genome-wide profile of RNA complexes.</description><dates><publication>2021/06/30</publication></dates><accession>GSE143918</accession><cross_references><GSM>GSM4276639</GSM><GSM>GSM4276642</GSM><GSM>GSM4276641</GSM><GSM>GSM4276640</GSM><GPL>15520</GPL><SRA>SRP243002</SRA><GSE>143918</GSE><taxon>Homo sapiens</taxon></cross_references></HashMap>