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Literature DB >> 32221814

Evidence of constraint in the 3D genome for trans-splicing in human cells.

Cong Liu^1,2, Yiqun Zhang^1,2, Xiaoli Li^1,2, Yan Jia¹, Feifei Li³, Jing Li⁴, Zhihua Zhang^5,6.

Abstract

Fusion transcripts are commonly found in eukaryotes, and many aberrant fusions are associated with severe diseases, including cancer. One class of fusion transcripts is generated by joining separate transcripts through trans-splicing. However, the mechanism of trans-splicing in mammals remains largely elusive. Here we showed evidence to support an intuitive hypothesis that attributes trans-sphcing to the spatial proximity between premature transcripts. A novel trans-splicing detection tool (TSD) was developed to reliably identify intra-chromosomal trans-splicing events (iTSEs) from RNA-seq data. TSD can maintain a remarkable balance between sensitivity and accuracy, thus distinguishing it from most state-of-the-art tools. The accuracy of TSD was experimentally demonstrated by excluding potential false discovery from mosaic genome or template switching during PCR. We showed that iTSEs identified by TSD were frequently found between genomic regulatory elements, which are known to be more prone to interact with each other. Moreover, iTSE sites may be more physically adjacent to each other than random control in the tested human lymphoblastoid cell line according to Hi-C data. Our results suggest that trans-splicing and 3D genome architecture may be coupled in mammals and that our pipeline, TSD, may facilitate investigations of trans-splicing on a systematic and accurate level previously thought impossible.

Entities: Disease Species

Keywords: 3D genome; chromatin interaction; spatial clustering; trans-splicing

Mesh：

Year: 2020 PMID： 32221814 DOI： 10.1007/s11427-019-1609-6

Source DB: PubMed Journal: Sci China Life Sci ISSN： 1674-7305 Impact factor: 6.038

64 in total

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