@article {SANCHEZ-QUINTEROP3.329作者={玛丽亚j . SANCHEZ-QUINTERO和卡洛斯·洛佩兹·戈麦斯和卡塔琳娜州m . Quinzii}, title ={小说RMND1敲入小鼠概括临床和生化异常患者中观察到(P3.329)},体积={90}={15}补充数量,elocation-id = {P3.329} ={2018},出版商= {Wolters Kluwer健康,公司代表美国神经病学学会},文摘={目的:阐明RMND1线粒体蛋白质翻译的功能和特征的影响RMND1突变体内生成和描述RMND1 -突变小鼠窝藏共同N239S RMND1突变。首页背景:RMND1属于sif2蛋白质家族分享DUF155未知函数的域。尽管RMND1函数是未知的,它内部的线粒体膜和线粒体参与翻译,可能在mitoribosome的组装和维护。RMND1突变患者(~ 30报道到目前为止)存在广泛的症状;先天性感音神经性耳聋,肌张力减退、发育迟缓和乳酸酸血症是最常见的临床表现与出生时的预期寿命2年。不太严重的表型与发病后4年,包括肾参与和温和的神经表型。病人肌肉和/或成纤维细胞显示严重缺陷的线粒体呼吸活动相结合,特别复杂的我和四世与损伤有关的线粒体蛋白质合成。目前,没有RMND1障碍存在的体内模型。设计/方法:我们评估寿命增长,从肌肉运动技能和线粒体功能,肾脏和大脑~ 1个月Rmnd1 k.i.老鼠。结果:纯合子RMND1敲入小鼠显示未能茁壮成长、肌肉无力、运动功能受损,而死在前两个月的生活。生化分析线粒体呼吸链酶(远端控制设备)在肌肉活动和肾脏显示复杂IV (COX)缺乏症。 In muscle, activity of citrate synthase (CS), an index of mitochondrial mass, was significantly increased, probably as a result of a compensatory mechanism.Conclusions: This murine model partially recapitulates clinical and biochemical features of the human disease. The generation and characterization of an in vivo model of RMND1 dysfunction is a critical first step towards an understanding of RMND1 function in mitochondrial translation and will be important to elucidate the pathomechanism of RMND1-dependent mitochondrial disease, and develop therapeutic approaches.Study Supported by: MDA295105 (Quinzii)Disclosure: Dr. SANCHEZ-QUINTERO has nothing to disclose. Dr. Lopez Gomez has nothing to disclose. Dr. Quinzii Hirano has nothing to disclose.}, issn = {0028-3878}, URL = {//www.ez-admanager.com/content/90/15_Supplement/P3.329}, eprint = {//www.ez-admanager.com/content}, journal = {Neurology} }