表观遗传编辑治疗常染色体显性神经系统疾病

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY Frontiers in genome editing Pub Date : 2024-03-06 DOI:10.3389/fgeed.2024.1304110
J. Waldo, J. Halmai, Kyle D. Fink
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引用次数: 0

摘要

表观遗传学指的是在不改变核苷酸上下文的情况下改变基因表达状态的分子和机制。这些修饰编码了细胞在分化过程中的状态或有丝分裂过程中的表观遗传记忆。表观遗传修饰可通过改变染色质结构来改变基因表达,改变 DNA 与组蛋白八聚体的亲和力,形成核小体。DNA 与组蛋白的亲和力越高,就会缠绕得越紧,从而诱发异染色质状态,使基因表达沉默。一些研究小组已经证明,利用细胞的天然表观遗传修饰途径,可以设计出能够诱导表观遗传学变化的蛋白质,从而调节基因表达。因此,表观遗传修饰可用于通过改变内源性基因表达来靶向治疗疾病。使用表观遗传修饰可能被证明是调节基因表达以纠正或治疗遗传疾病的有效途径。
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Epigenetic editing for autosomal dominant neurological disorders
Epigenetics refers to the molecules and mechanisms that modify gene expression states without changing the nucleotide context. These modifications are what encode the cell state during differentiation or epigenetic memory in mitosis. Epigenetic modifications can alter gene expression by changing the chromatin architecture by altering the affinity for DNA to wrap around histone octamers, forming nucleosomes. The higher affinity the DNA has for the histones, the tighter it will wrap and therefore induce a heterochromatin state, silencing gene expression. Several groups have shown the ability to harness the cell’s natural epigenetic modification pathways to engineer proteins that can induce changes in epigenetics and consequently regulate gene expression. Therefore, epigenetic modification can be used to target and treat disorders through the modification of endogenous gene expression. The use of epigenetic modifications may prove an effective path towards regulating gene expression to potentially correct or cure genetic disorders.
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CiteScore
7.00
自引率
0.00%
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审稿时长
13 weeks
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