嗅球
生物
兴奋性突触后电位
转基因小鼠
细胞生物学
突触后电位
小RNA
抑制性突触后电位
神经科学
体内
基因表达谱
转基因
基因表达
基因
哺乳动物大脑
基因剔除小鼠
计算生物学
大脑皮层
受体
神经元
中枢神经系统
HEK 293细胞
分子生物学
基因表达调控
蛋白质组学
体外
基因敲除
作者
Surbhi Kapoor,Andrea Erni,Francesca Vincenzi,Béatrice Tessier,Vasika Venugopal,Gunter Meister,Alexandre Favereaux,Harold Cremer,Christophe Béclin
标识
DOI:10.1016/j.crmeth.2025.101267
摘要
AGO-APP through the expression of the T6B peptide permits the isolation of Ago-bound microRNAs (miRNAs). Here, we present the generation and characterization of two transgenic mouse lines that enable AGO-APP to be performed in vivo. First, we generated mice for CRE-dependent T6B expression throughout the cell. Using this line, we performed AGO affinity purification (AGO-APP) in olfactory bulb (OB) inhibitory interneurons and cerebral cortex excitatory neurons. Bioinformatic analysis validated the high reproducibility of the approach. It also demonstrated that, despite global miRNome conservation between the two cell types, a set of miRNAs, including the miR-200 family and the miR-183/96/182 cluster, is massively enriched in OB interneurons, which aligns with previous observations. In the second mouse line, T6B is fused to the postsynaptic protein PSD95. Isolation of T6B-PSD95 fractions from OB and cortical neurons identified specific sets of postsynapse-enriched miRNAs. Gene ontology analyses confirmed that these miRNAs preferentially target mRNAs related to synaptic functions.
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