Daseuli Yu scite author profile

Intellectual disability (ID) is a heterogeneous clinical entity and includes an excess of males who harbor variants on the X-chromosome (XLID). We report rare FAM50A missense variants in the original Armfield XLID syndrome family localized in Xq28 and four additional unrelated males with overlapping features. Our fam50a knockout (KO) zebrafish model exhibits abnormal neurogenesis and craniofacial patterning, and in vivo complementation assays indicate that the patient-derived variants are hypomorphic. RNA sequencing analysis from fam50a KO zebrafish show dysregulation of the transcriptome, with augmented spliceosome mRNAs and depletion of transcripts involved in neurodevelopment. Zebrafish RNA-seq datasets show a preponderance of 3′ alternative splicing events in fam50a KO, suggesting a role in the spliceosome C complex. These data are supported with transcriptomic signatures from cell lines derived from affected individuals and FAM50A protein-protein interaction data. In sum, Armfield XLID syndrome is a spliceosomopathy associated with aberrant mRNA processing during development.

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Noninvasive optical activation of Flp recombinase for genetic manipulation in deep mouse brain regions

Jung

Kim

et al. 2019

Nat Commun

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Spatiotemporal control of gene expression or labeling is a valuable strategy for identifying functions of genes within complex neural circuits. Here, we develop a highly light-sensitive and efficient photoactivatable Flp recombinase (PA-Flp) that is suitable for genetic manipulation in vivo. The highly light-sensitive property of PA-Flp is ideal for activation in deep mouse brain regions by illumination with a noninvasive light-emitting diode. In addition, PA-Flp can be extended to the Cre-lox system through a viral vector as Flp-dependent Cre expression platform, thereby activating both Flp and Cre. Finally, we demonstrate that PA-Flp–dependent, Cre-mediated Cav3.1 silencing in the medial septum increases object-exploration behavior in mice. Thus, PA-Flp is a noninvasive, highly efficient, and easy-to-use optogenetic module that offers a side-effect-free and expandable genetic manipulation tool for neuroscience research.

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Pseudoknot-targeting Cas13b combats SARS-CoV-2 infection by suppressing viral replication

Han

et al. 2023

Molecular Therapy

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Correction to: Optogenetic Activation of Intracellular Nanobodies

Won

2022

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Optogenetic Activation of Intracellular Nanobodies

Heo

2022

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Daseuli Yu

Optogenetic activation of intracellular antibodies for direct modulation of endogenous proteins

Mutations in FAM50A suggest that Armfield XLID syndrome is a spliceosomopathy

Noninvasive optical activation of Flp recombinase for genetic manipulation in deep mouse brain regions

Pseudoknot-targeting Cas13b combats SARS-CoV-2 infection by suppressing viral replication

Correction to: Optogenetic Activation of Intracellular Nanobodies

Optogenetic Activation of Intracellular Nanobodies

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