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1
Channelopathies in fragile X syndrome.脆性 X 综合征中的通道病。
Nat Rev Neurosci. 2021 May;22(5):275-289. doi: 10.1038/s41583-021-00445-9. Epub 2021 Apr 7.
2
Cell-Type Specific Channelopathies in the Prefrontal Cortex of the fmr1-/y Mouse Model of Fragile X Syndrome.脆性 X 综合征模型的 fmr1-/y 小鼠前额叶皮层的细胞类型特异性通道病。
eNeuro. 2015 Nov 17;2(6). doi: 10.1523/ENEURO.0114-15.2015. eCollection 2015 Nov-Dec.
3
Fragile X Mental Retardation Protein Bidirectionally Controls Dendritic I in a Cell Type-Specific Manner between Mouse Hippocampus and Prefrontal Cortex.脆性 X 智力迟钝蛋白以细胞类型特异性的方式双向控制小鼠海马体和前额叶皮层中的树突 I。
J Neurosci. 2020 Jul 1;40(27):5327-5340. doi: 10.1523/JNEUROSCI.1670-19.2020. Epub 2020 May 28.
4
Fragile X mental retardation protein controls ion channel expression and activity.脆性X智力低下蛋白控制离子通道的表达和活性。
J Physiol. 2016 Oct 15;594(20):5861-5867. doi: 10.1113/JP270675. Epub 2016 May 5.
5
Dysregulation and restoration of translational homeostasis in fragile X syndrome.脆性X综合征中翻译稳态的失调与恢复
Nat Rev Neurosci. 2015 Oct;16(10):595-605. doi: 10.1038/nrn4001. Epub 2015 Sep 9.
6
Voltage-Independent SK-Channel Dysfunction Causes Neuronal Hyperexcitability in the Hippocampus of Knock-Out Mice.电压非依赖性 SK 通道功能障碍导致敲除小鼠海马神经元过度兴奋。
J Neurosci. 2019 Jan 2;39(1):28-43. doi: 10.1523/JNEUROSCI.1593-18.2018. Epub 2018 Nov 2.
7
Increasing our understanding of human cognition through the study of Fragile X Syndrome.通过研究脆性 X 综合征来增进我们对人类认知的理解。
Dev Neurobiol. 2014 Feb;74(2):147-77. doi: 10.1002/dneu.22096. Epub 2013 Jul 30.
8
The state of synapses in fragile X syndrome.脆性 X 综合征中的突触状态。
Neuroscientist. 2009 Oct;15(5):549-67. doi: 10.1177/1073858409333075. Epub 2009 Mar 26.
9
Synaptic vesicle dynamic changes in a model of fragile X.脆性X模型中突触小泡的动态变化
Mol Autism. 2016 Mar 1;7:17. doi: 10.1186/s13229-016-0080-1. eCollection 2016.
10
Genetic upregulation of BK channel activity normalizes multiple synaptic and circuit defects in a mouse model of fragile X syndrome.BK通道活性的基因上调可使脆性X综合征小鼠模型中的多种突触和回路缺陷恢复正常。
J Physiol. 2016 Jan 1;594(1):83-97. doi: 10.1113/JP271031. Epub 2015 Nov 18.
引用本文的文献
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Atypical retinal ganglion cell function in a mouse model of Fragile X syndrome.脆性X综合征小鼠模型中的非典型视网膜神经节细胞功能
J Neurosci. 2025 Jun 4. doi: 10.1523/JNEUROSCI.0013-25.2025.
2
Neuronal potassium channel activity triggers initiation of mRNA translation through binding of translation regulators.神经元钾通道活性通过翻译调节因子的结合触发mRNA翻译的起始。
Sci Adv. 2025 May 30;11(22):eadv3140. doi: 10.1126/sciadv.adv3140. Epub 2025 May 28.
3
Higher hyperpolarization-activated current in a subpopulation of interneurons in stratum oriens of area CA1 in the hippocampus of fragile X mice.脆性X小鼠海马CA1区海马下托中间神经元亚群中更高的超极化激活电流。
J Neurophysiol. 2025 May 1;133(5):1558-1571. doi: 10.1152/jn.00510.2024. Epub 2025 Apr 17.
4
FMRP Controls Neuronal Architecture and Synaptic Content of NMDA Receptors in Cultured Hippocampal Neurons.脆性X智力低下蛋白调控培养海马神经元中NMDA受体的神经元结构和突触含量。
J Mol Neurosci. 2025 Apr 2;75(2):44. doi: 10.1007/s12031-025-02325-8.
5
Disorders: Basics of Biology and Therapeutics in Development.疾病:生物学基础与正在研发的疗法
Cells. 2024 Dec 18;13(24):2100. doi: 10.3390/cells13242100.
6
Molecular Profiling of Mouse Models of Loss or Gain of Function of the KCNT1 (Slack) Potassium Channel and Antisense Oligonucleotide Treatment.KCNT1(松弛)钾通道功能丧失或获得的小鼠模型的分子谱分析及反义寡核苷酸治疗。
Biomolecules. 2024 Nov 2;14(11):1397. doi: 10.3390/biom14111397.
7
ErbB inhibition rescues nigral dopamine neuron hyperactivity and repetitive behaviors in a mouse model of fragile X syndrome.在脆性X综合征小鼠模型中,抑制ErbB可挽救黑质多巴胺能神经元的活动亢进及重复行为。
Mol Psychiatry. 2025 May;30(5):2183-2196. doi: 10.1038/s41380-024-02831-y. Epub 2024 Nov 15.
8
Deep functional measurements of Fragile X syndrome human neurons reveal multiparametric electrophysiological disease phenotype.脆性 X 综合征人类神经元的深度功能测量揭示了多参数电生理疾病表型。
Commun Biol. 2024 Nov 6;7(1):1447. doi: 10.1038/s42003-024-07120-6.
9
Psychiatric Manifestations in Early to Middle Stages of Fragile X-Associated Tremor-Ataxia Syndrome (FXTAS).脆性X相关震颤共济失调综合征(FXTAS)早中期的精神症状
J Neuropsychiatry Clin Neurosci. 2025 Winter;37(1):20-28. doi: 10.1176/appi.neuropsych.20230215. Epub 2024 Aug 8.
10
Synaptic cell adhesion molecules contribute to the pathogenesis and progression of fragile X syndrome.突触细胞粘附分子促成脆性X综合征的发病机制和进展。
Front Cell Neurosci. 2024 Jul 3;18:1393536. doi: 10.3389/fncel.2024.1393536. eCollection 2024.
本文引用的文献
1
Missense mutation of Fmr1 results in impaired AMPAR-mediated plasticity and socio-cognitive deficits in mice.Fmr1 错义突变导致小鼠 AMPAR 介导电生理可塑性和社会认知缺陷。
Nat Commun. 2021 Mar 10;12(1):1557. doi: 10.1038/s41467-021-21820-1.
2
FMRP(1-297)-tat restores ion channel and synaptic function in a model of Fragile X syndrome.FMRP(1-297)-tat 恢复脆性 X 综合征模型中的离子通道和突触功能。
Nat Commun. 2020 Jun 2;11(1):2755. doi: 10.1038/s41467-020-16250-4.
3
Fragile X Mental Retardation Protein Bidirectionally Controls Dendritic I in a Cell Type-Specific Manner between Mouse Hippocampus and Prefrontal Cortex.脆性 X 智力迟钝蛋白以细胞类型特异性的方式双向控制小鼠海马体和前额叶皮层中的树突 I。
J Neurosci. 2020 Jul 1;40(27):5327-5340. doi: 10.1523/JNEUROSCI.1670-19.2020. Epub 2020 May 28.
4
FMRP differentially regulates BK channels.FMRP 差异化调节 BK 通道。
J Gen Physiol. 2020 Jun 1;152(6). doi: 10.1085/jgp.202012634.
5
Differential regulation of BK channels by fragile X mental retardation protein.脆性 X 智力低下蛋白对 BK 通道的差异调节。
J Gen Physiol. 2020 Jun 1;152(6). doi: 10.1085/jgp.201912502.
6
SCN2A channelopathies in the autism spectrum of neuropsychiatric disorders: a role for pluripotent stem cells?SCN2A 通道病在神经精神障碍自闭症谱系中的作用:多能干细胞的作用?
Mol Autism. 2020 Apr 7;11(1):23. doi: 10.1186/s13229-020-00330-9.
7
A half century of γ-aminobutyric acid.γ-氨基丁酸的半个世纪
Brain Neurosci Adv. 2019 Nov 27;3:2398212819858249. doi: 10.1177/2398212819858249. eCollection 2019 Jan-Dec.
8
Fragile X syndrome: clinical presentation, pathology and treatment.脆性X综合征:临床表现、病理学及治疗
Gac Med Mex. 2020;156(1):60-66. doi: 10.24875/GMM.19005275.
9
Role of NKCC1 and KCC2 in Epilepsy: From Expression to Function.NKCC1和KCC2在癫痫中的作用:从表达到功能
Front Neurol. 2020 Jan 17;10:1407. doi: 10.3389/fneur.2019.01407. eCollection 2019.
10
FMRP regulates presynaptic localization of neuronal voltage gated calcium channels.FMRP 调节神经元电压门控钙通道的突触前定位。
Neurobiol Dis. 2020 May;138:104779. doi: 10.1016/j.nbd.2020.104779. Epub 2020 Jan 25.
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