m6A modification of a 3′ UTR site reduces RME1 mRNA levels to promote meiosis

机译：m6A修饰3UTR位点可降低RME1 mRNA水平以促进减数分裂

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Despite the vast number of modification sites mapped within mRNAs, known examples of consequential mRNA modifications remain rare. Here, we provide multiple lines of evidence to show that Ime4p, an N6-methyladenosine (m⁶A) methyltransferase required for meiosis in yeast, acts by methylating a site in the 3′ UTR of the mRNA encoding Rme1p, a transcriptional repressor of meiosis. Consistent with this mechanism, genetic analyses reveal that IME4 functions upstream of RME1. Transcriptome-wide, RME1 is the primary message that displays both increased methylation and reduced expression in an Ime4p-dependent manner. In yeast strains for which IME4 is dispensable for meiosis, a natural polymorphism in the RME1 promoter reduces RME1 transcription, obviating the requirement for methylation. Mutation of a single m⁶A site in the RME1 3′ UTR increases Rme1p repressor production and reduces meiotic efficiency. These results reveal the molecular and physiological consequences of a modification in the 3′ UTR of an mRNA.

机译：尽管在mRNA内定位了大量修饰位点，但已知的相应mRNA修饰实例仍然很少。在这里，我们提供了多条证据来证明Ime4p是一种酵母减数分裂所需的N6-甲基腺苷（m ^{6 A）甲基转移酶，它通过甲基化编码mRNA的3'UTR中的位点来发挥作用Rme1p，减数分裂的转录阻遏物。与这种机制一致，遗传分析显示IME4在RME1的上游起作用。在整个转录组中，RME1是主要消息，它以依赖Ime4p的方式显示甲基化增强和表达降低。在针对IME4减数分裂的酵母菌株中，RME1启动子中的自然多态性会降低RME1转录，从而消除了对甲基化的需求。 RME1 3'UTR中单个m ^{6 A位点的突变会增加Rme1p阻遏物的产生并降低减数分裂效率。这些结果揭示了mRNA 3'UTR修饰的分子和生理后果。}}

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期刊名称 Nature Communications
作者
G. Guy Bushkin; David Pincus; Jeffrey T. Morgan; Kris Richardson; Caroline Lewis; Sze Ham Chan; David P. Bartel; Gerald R. Fink;
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年(卷),期 -1(10),-1
年度 -1
页码 3414
总页数 13
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1. m6A modification of a 3′ UTR site reduces RME1 mRNA levels to promote meiosis [J] . G. Guy Bushkin, David Pincus, Jeffrey T. Morgan, Nature Communications . 2019,第1期

机译：M6A修饰3'UTR部位减少了RME1 mRNA水平以促进减数分裂
2. The m6A demethylase FTO promotes the growth of lung cancer cells by regulating the m6A level of USP7 mRNA [J] . Jie Li, Yi Han, Hongmei Zhang, Biochemical and Biophysical Research Communications . 2019,第3期

机译：M6A脱甲基酶FTO通过调节USP7 mRNA的M6A水平来促进肺癌细胞的生长
3. LINC00460/DHX9/IGF2BP2 complex promotes colorectal cancer proliferation and metastasis by mediating HMGA1 mRNA stability depending on m6A modification [J] . Pingfu Hou, Sen Meng, Minle Li, Journal of experimental & clinical cancer research : . 2021,第1期

机译：LINC00460 / DHX9 / IGF2BP2复合物通过介导HMGA1 mRNA稳定性，根据M6A改性促进结肠直肠癌增殖和转移
4. In Silico Evaluation of miRNA Binding Site in Mutated 3'UTR mRNA of G6PD [C] . Syarifah Anis Wafa Binti Syed Mohd Azmi, Mohd Shihabudin Noorden, Nurul Yuziana Mohd Yusof, UKM FST Postgraduate Colloquium . 2015

机译：在G6PD突变3'UTR mRNA中MiRNA结合位点的硅评估
5. Brain-derived neurotrophic factor promotes retinal ganglion cell survival and reduces tyrosine receptor kinase B protein andmRNA in vivo. [D] . Chen, Hao. 2001

机译：脑源性神经营养因子在体内可促进视网膜神经节细胞存活并减少酪氨酸受体激酶B蛋白和mRNA。
6. An AU-rich sequence in the 3-UTR of plasminogen activator inhibitor type 2 (PAI-2) mRNA promotes PAI-2 mRNA decay and provides a binding site for nuclear HuR. [O] . F Maurer, M Tierney, R L Medcalf 1999

机译：纤溶酶原激活物抑制剂2型（PAI-2）mRNA的3-UTR中富含AU的序列会促进PAI-2 mRNA的衰变并为核HuR提供一个结合位点。
7. m6A modification of a 3′ UTR site reduces RME1 mRNA levels to promote meiosis [O] . G. Guy Bushkin, David Pincus, Jeffrey T. Morgan, 2019

机译：M6A修饰3'UTR部位减少了RME1 mRNA水平以促进减数分裂

m6A modification of a 3′ UTR site reduces RME1 mRNA levels to promote meiosis

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