新的TTN突变引起严重的先天性肌病和与婴儿脑积水的不确定关联。

Case Reports in Genetics Pub Date : 2023-01-01 DOI:10.1155/2023/5535083

Palanikumar Balasundaram, Indirapriya Darshini Avulakunta, Leslie Delfiner, Paul Levy, Katie R Forman

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引用次数: 2

摘要

多发性先天性关节挛缩(AMC)的特征是多关节不进行性对称挛缩，但智力正常，全身检查正常。AMC通常是由于胎儿运动障碍，它有神经、肌肉和结缔组织病因。我们提出一个病例AMC由于在titin (TTN)基因变异在一个足月新生儿。该婴儿是该变异c.38442dup的纯合子，预计会产生一个截断的蛋白(p.Pro12815Thr fs∗37,NM_001267550.2)。文献检索(PubMed)没有找到这种TTN变体的报告。该变异被归类为致病性并提交给ClinVar。Titin是人体最大的蛋白质，在骨骼肌和心肌中表达，由TTN基因编码。由于其大尺寸(364外显子)，TTN基因一直难以测序;TTN基因的变异数量和titinopathies的谱可能被低估了。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Novel TTN Mutation Causing Severe Congenital Myopathy and Uncertain Association with Infantile Hydrocephalus.

Arthrogryposis multiplex congenita (AMC) is characterized by nonprogressive symmetric contractures of multiple joints with normal intellect and normal systemic examination. AMC is often due to fetal akinesia, which has neurologic, muscular, and connective tissue etiologies. We present a case of AMC due to a variant in the titin (TTN) gene in a term neonate. The infant is homozygous for this variant, c.38442dup, which is predicted to result in a truncated protein (p.Pro12815Thr fs∗37, NM_001267550.2). A literature search (PubMed) failed to find reports of this TTN variant. The variant was classified as pathogenic and submitted to ClinVar. Titin is the body's largest protein, expressed in skeletal and cardiac muscles and encoded by the TTN gene. Due to its large size (364 exons), the TTN gene has been difficult to sequence; the number of variants in the TTN gene and the spectrum of titinopathies are probably underestimated.

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Case Reports in Genetics

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