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本文引用的文献

1
MMP21 is mutated in human heterotaxy and is required for normal left-right asymmetry in vertebrates.基质金属蛋白酶21(MMP21)在人类内脏反位中发生突变,是脊椎动物正常左右不对称所必需的。
Nat Genet. 2015 Nov;47(11):1260-3. doi: 10.1038/ng.3376. Epub 2015 Oct 5.
2
RNA-mediated epigenetic regulation of gene expression.RNA 介导的基因表达表观遗传调控。
Nat Rev Genet. 2015 Feb;16(2):71-84. doi: 10.1038/nrg3863. Epub 2015 Jan 2.
3
Structural stabilization of tissue for embryo phenotyping using micro-CT with iodine staining.使用碘染色的 micro-CT 对胚胎表型进行组织结构稳定。
PLoS One. 2013 Dec 30;8(12):e84321. doi: 10.1371/journal.pone.0084321. eCollection 2013.
4
Comparison of EJC-enhanced and EJC-independent NMD in human cells reveals two partially redundant degradation pathways.在人细胞中比较 EJC 增强和 EJC 非依赖的 NMD 揭示了两种部分冗余的降解途径。
RNA. 2013 Oct;19(10):1432-48. doi: 10.1261/rna.038893.113. Epub 2013 Aug 20.
5
Discovery of rare homozygous mutations from studies of consanguineous pedigrees.通过对近亲家系的研究发现罕见纯合突变。
Curr Protoc Hum Genet. 2012 Oct;Chapter 6:Unit6.12. doi: 10.1002/0471142905.hg0612s75.
6
NMD: a multifaceted response to premature translational termination.NMD:一种针对过早翻译终止的多方面反应。
Nat Rev Mol Cell Biol. 2012 Nov;13(11):700-12. doi: 10.1038/nrm3454. Epub 2012 Oct 17.
7
Genomics. ENCODE project writes eulogy for junk DNA.基因组学。ENCODE计划为垃圾DNA写下悼词。
Science. 2012 Sep 7;337(6099):1159, 1161. doi: 10.1126/science.337.6099.1159.
8
N- and C-terminal Upf1 phosphorylations create binding platforms for SMG-6 and SMG-5:SMG-7 during NMD.N- 和 C-末端 Upf1 的磷酸化在 NMD 过程中为 SMG-6 和 SMG-5:SMG-7 的结合提供了平台。
Nucleic Acids Res. 2012 Feb;40(3):1251-66. doi: 10.1093/nar/gkr791. Epub 2011 Sep 29.
9
Nonsense-mediated mRNA decay (NMD) in animal embryogenesis: to die or not to die, that is the question.无意义介导的 mRNA 降解(NMD)在动物胚胎发生中的作用:死亡还是不死亡,这是个问题。
Curr Opin Genet Dev. 2011 Aug;21(4):422-30. doi: 10.1016/j.gde.2011.03.008.
10
Drosophila Upf1 and Upf2 loss of function inhibits cell growth and causes animal death in a Upf3-independent manner.果蝇 Upf1 和 Upf2 功能丧失会抑制细胞生长,并以 Upf3 不依赖的方式导致动物死亡。
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编码无义介导的mRNA降解机制关键成分的SMG9基因突变,导致人类和小鼠出现多种先天性异常综合征。

Mutations in SMG9, Encoding an Essential Component of Nonsense-Mediated Decay Machinery, Cause a Multiple Congenital Anomaly Syndrome in Humans and Mice.

作者信息

Shaheen Ranad, Anazi Shams, Ben-Omran Tawfeg, Seidahmed Mohammed Zain, Caddle L Brianna, Palmer Kristina, Ali Rehab, Alshidi Tarfa, Hagos Samya, Goodwin Leslie, Hashem Mais, Wakil Salma M, Abouelhoda Mohamed, Colak Dilek, Murray Stephen A, Alkuraya Fowzan S

机构信息

Department of Genetics, King Faisal Specialist Hospital and Research Center, Riyadh 11211, Saudi Arabia.

Department of Genetics, Hamad Medical Corporation, Doha, Qatar.

出版信息

Am J Hum Genet. 2016 Apr 7;98(4):643-52. doi: 10.1016/j.ajhg.2016.02.010. Epub 2016 Mar 24.

DOI:10.1016/j.ajhg.2016.02.010
PMID:27018474
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4833216/
Abstract

Nonsense-mediated decay (NMD) is an important process that is best known for degrading transcripts that contain premature stop codons (PTCs) to mitigate their potentially harmful consequences, although its regulatory role encompasses other classes of transcripts as well. Despite the critical role of NMD at the cellular level, our knowledge about the consequences of deficiency of its components at the organismal level is largely limited to model organisms. In this study, we report two consanguineous families in which a similar pattern of congenital anomalies was found to be most likely caused by homozygous loss-of-function mutations in SMG9, encoding an essential component of the SURF complex that generates phospho-UPF1, the single most important step in NMD. By knocking out Smg9 in mice via CRISPR/Cas9, we were able to recapitulate the major features of the SMG9-related multiple congenital anomaly syndrome we observed in humans. Surprisingly, human cells devoid of SMG9 do not appear to have reduction of PTC-containing transcripts but do display global transcriptional dysregulation. We conclude that SMG9 is required for normal human and murine development, most likely through a transcriptional regulatory role, the precise nature of which remains to be determined.

摘要

无义介导的衰变(NMD)是一个重要过程,它最广为人知的是降解含有提前终止密码子(PTC)的转录本,以减轻其潜在的有害后果,尽管其调节作用也涵盖其他类别的转录本。尽管NMD在细胞水平上起着关键作用,但我们对其组成部分在机体水平上缺乏所产生后果的了解在很大程度上仅限于模式生物。在本研究中,我们报告了两个近亲家庭,其中发现一种相似的先天性异常模式很可能是由SMG9中的纯合功能丧失突变引起的,SMG9编码SURF复合体的一个必需组分,该复合体产生磷酸化的UPF1,这是NMD中最重要的单一步骤。通过CRISPR/Cas9在小鼠中敲除Smg9,我们能够重现我们在人类中观察到的与SMG9相关的多发性先天性异常综合征的主要特征。令人惊讶的是,缺乏SMG9的人类细胞似乎没有减少含PTC的转录本,但确实表现出整体转录失调。我们得出结论,SMG9是正常人类和小鼠发育所必需的,最有可能是通过转录调节作用,其确切性质仍有待确定。