ALKBH5和FTO双敲除的HEK293T人细胞的RNA测序数据。

RNA-Seq data of ALKBH5 and FTO double knockout HEK293T human cells.

作者信息

Smolin Egor A, Buyan Andrey I, Lyabin Dmitry N, Kulakovskiy Ivan V, Eliseeva Irina A

机构信息

Russian Academy of Sciences, Institute of Protein Research, Pushchino 142290, Russia.

出版信息

Data Brief. 2022 Apr 20;42:108187. doi: 10.1016/j.dib.2022.108187. eCollection 2022 Jun.

DOI:10.1016/j.dib.2022.108187

PMID:35516002

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9062317/

Abstract

N6-methyladenosine (m6A) is the most abundant, highly dynamic mRNA modification that regulates mRNA splicing, stability, and translation. The m6A epigenetic mark is erased by RNA demethylases ALKBH5 (AlkB Homolog 5) and FTO (Fat mass and obesity-associated protein). The ALKBH5 and FTO RNA demethylases recognize m6A in similar nucleotide contexts. Therefore, these proteins can partially substitute for each other. To assess the impact of total m6A demethylation failure we performed high-throughput sequencing of cytoplasmic RNA from ALKBH5 and FTO double knockout and wild type HEK293T cells. The RNA-Seq libraries were sequenced on Illumina NextSeq 500, trimmed, and mapped to the human genome. The consequent read counting and differential expression analysis in the R environment detected 5871 differentially expressed and 166 alternatively spliced genes comparing double knockout against wild type HEK293T cells. Raw data are deposited in NCBI Gene Expression Omnibus (GEO) repository under GEO accession GSE198050.

摘要

N6-甲基腺苷（m6A）是最丰富、高度动态的mRNA修饰，可调节mRNA剪接、稳定性和翻译。m6A表观遗传标记可被RNA去甲基化酶ALKBH5（AlkB同源物5）和FTO（肥胖相关蛋白）消除。ALKBH5和FTO RNA去甲基化酶在相似的核苷酸环境中识别m6A。因此，这些蛋白可以部分相互替代。为了评估总m6A去甲基化失败的影响，我们对来自ALKBH5和FTO双敲除及野生型HEK293T细胞的细胞质RNA进行了高通量测序。RNA-Seq文库在Illumina NextSeq 500上测序、修剪并映射到人类基因组。随后在R环境中进行的读数计数和差异表达分析检测到，与野生型HEK293T细胞相比，双敲除细胞中有5871个差异表达基因和166个可变剪接基因。原始数据存于NCBI基因表达综合数据库（GEO）中，登录号为GSE198050。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2301/9062317/fbac5b6628ef/gr1.jpg

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ALKBH5和FTO双敲除的HEK293T人细胞的RNA测序数据。

RNA-Seq data of ALKBH5 and FTO double knockout HEK293T human cells.

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