【紹介文献】
"Altered chromatin states drive cryptic transcription in aging mammalian stem cells"
McCauley et al., 2021, Nat Aging, 1, 684-697
【発表概要】
今回のサイエンスカフェでは、老化に伴うcryptic転写の上昇について話したいと思います。
cryptic転写は遺伝子内の非プロモーター領域から生じる転写の事で、酵母で特に研究されてきました。
例えば酵母でクロマチンのH3K36me修飾が減少すると、Cryptic転写の上昇と共に寿命が短縮する事が知られています。
H3K36me3修飾を認識するDnmt3BをノックアウトしたES細胞でもCryptic転写の上昇が認められる事などから、近年では哺乳類でもCryptic転写が注目されてきています。
真核生物は老化に伴いH3K36me3が減少するため、演者らは老化とCryptic転写の関係について研究を行いました。その内容について紹介いたします。
【Summary】
In this Science Café, I would like to talk about the relationship between cryptic transcription and aging in mammalian cells. Cryptic transcription refers to transcription that occurs in non-promoter regions of genes and has been particularly studied in yeast. For example, when the H3K36me modification of chromatin is reduced in yeast, the lifespan is shown to be shortened along with an increase in cryptic transcription. Increase in cryptic transcription is also observed in ES cells in which Dnmt3B (DNA methyltransferase that recognizes H3K36me3 modification) is knocked out. As reduction of H3K36me3 with aging is common in eukaryotes, the authors examined a relationship between aging and cryptic transcription in mammals and showed that cryptic transcription increased with age along with altered chromatin states.
(2021.10.28 iPark Science Cafe 94th)
発表資料:
