The Ty1 retrotransposon harbors a DNA region that performs dual functions as both a gene silencing and chromatin insulator
Hiroshi Masumoto, Hideki Muto, Koichi Yano, Yohei Kurosaki, Hironori Niki

TL;DR
A DNA region in the Ty1 retrotransposon acts as both a gene silencer and chromatin insulator, influencing transcription and chromatin structure.
Contribution
Discovery of a dual-function DNA region in Ty1 that silences genes and acts as a chromatin boundary.
Findings
The GAGsi region in Ty1 causes gene silencing through euchromatin-specific histone modifications.
An inverted repeat sequence in GAGsi forms a chromatin boundary between euchromatin and silent chromatin.
DNA repair proteins Esc2 and Rad57 are essential for GAGsi silencing and Ty1 transcription.
Abstract
In various eukaryotic kingdoms, long terminal repeat (LTR) retrotransposons repress transcription by infiltrating heterochromatin generated within their elements. In contrast, the budding yeast LTR retrotransposon Ty1 does not itself undergo transcriptional repression, although it is capable of repressing the transcription of the inserted genes within it. In this study, we identified a DNA region within Ty1 that exerts its silencing effect via sequence orientation. We identified a DNA region within the Ty1 group-specific antigen (GAG) gene that causes gene silencing, termed GAG silencing (GAGsi), in which the silent chromatin in the GAGsi region is created by euchromatin-specific histone modifications. A characteristic inverted repeat (IR) sequence is present at the 5' end of this region, forming a chromatin boundary between promoter-specific chromatin upstream of the IR sequence and…
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Taxonomy
TopicsChromosomal and Genetic Variations · CRISPR and Genetic Engineering · Plant Virus Research Studies
