生物
外显子
小基因
遗传学
RNA剪接
基因
内含子
选择性拼接
神经发育障碍
外显子剪接增强剂
外显子跳跃
突变
多嘧啶束
拼接因子
移码突变
代谢型谷氨酸受体
HEK 293细胞
作者
Tomoko Satake,Yasuhiro Kawai,Koki Nagai,Takuya Naruto,Yukiko Kuroda
摘要
FRMPD4, a gene on the X-chromosome, encodes a neuronal scaffold protein, and six variants in this gene have been associated with X-linked neurodevelopmental disorder. We identified a novel intronic hemizygous variant (NM_014728.3:c.1198-6C>A) in FRMPD4 in a 2-year-old male patient with moderate developmental delay inherited from his asymptomatic heterozygous mother. Minigene assays in different cell lines demonstrated that this variant led to the consistent skipping of in-frame exon 12, which encodes 30 amino acids within the FERM domain. We speculated that this splicing defect may be due to the impaired recruitment of essential splicing factor U2AF2, as this C>A intronic variant is positioned at the center of the uridine-rich polypyrimidine tract, adjacent to the 3'-splice site. Structural modeling predicted that the loss of this region would disrupt the integrity of the FERM domain. Given that FRMPD4 mediates metabotropic glutamate receptor signaling via its FERM domain, we conclude that this intronic variant is likely pathogenic.
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