Distinct functions for the paralogous RBM41 and U11/U12-65K proteins in the minor spliceosome

Norppa, Antto J; Chowdhury, Iftekhar; van Rooijen, Laura E; Ravantti, Janne J; Snel, Berend; Varjosalo, Markku; Frilander, Mikko J

doi:10.1093/nar/gkae070

Cited by 2 publications

References 80 publications

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Role of U11/U12 minor spliceosome geneZCRB1in Ciliogenesis and WNT Signaling

Powell-Rodgers,

Pirzada,

Richee

et al. 2024

Preprint

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Despite the fact that 0.5% of human introns are processed by the U11/U12 minor spliceosome, the latter influences gene expression across multiple cellular processes. The ZCRB1 protein is a recently described core component of the U12 mono-snRNP minor spliceosome, but its functional significance to minor splicing, gene regulation, and biological signaling cascades is poorly understood. Using CRISPR-Cas9 and siRNA targeted knockout and knockdown strategies, we show that human cell lines with a partial reduction in ZCRB1 expression exhibit significant dysregulation of the splicing and expression of U12-type genes, primarily due to dysregulation of U12 mono-snRNA. RNA-Seq and targeted analyses of minor intron-containing genes indicate a downregulation in the expression of genes involved in ciliogenesis, and consequentially an upregulation in WNT signaling. Additionally,zcrb1CRISPR-Cas12a knockdown in zebrafish embryos led to gross developmental and body axis abnormalities, disrupted ciliogenesis, and upregulated WNT signaling, complementing our human cell studies. This work highlights a conserved and essential biological role of the minor spliceosome in general, and the ZCRB1 protein specifically in cellular and developmental processes across species, shedding light on the multifaceted relationship between splicing regulation, ciliogenesis, and WNT signaling.

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Role of U11/U12 minor spliceosome geneZCRB1in Ciliogenesis and WNT Signaling

Powell-Rodgers,

Pirzada,

Richee

et al. 2024

Preprint

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Branch site recognition by the spliceosome

Tholen

2024

RNA

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The spliceosome is a eukaryotic multimegadalton RNA–protein complex that removes introns from transcripts. The spliceosome ensures the selection of each exon-intron boundary through multiple recognition events. Initially, the 5′ splice site (5′ SS) and branch site (BS) are bound by the U1 small nuclear ribonucleoprotein (snRNP) and the U2 snRNP, respectively, while the 3′ SS is mostly determined by proximity to the branch site. A large number of splicing factors recognize the splice sites and recruit the snRNPs before the stable binding of the snRNPs occurs by base-pairing the snRNA to the transcript. Fidelity of this process is crucial, as mutations in splicing factors and U2 snRNP components are associated with many diseases. In recent years, major advances have been made in understanding how splice sites are selected inSaccharomyces cerevisiaeand humans. Here, I review and discuss the current understanding of the recognition of splice sites by the spliceosome with a focus on recognition and binding of the branch site by the U2 snRNP in humans.

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Distinct functions for the paralogous RBM41 and U11/U12-65K proteins in the minor spliceosome

Cited by 2 publications

References 80 publications

Role of U11/U12 minor spliceosome geneZCRB1in Ciliogenesis and WNT Signaling

Role of U11/U12 minor spliceosome geneZCRB1in Ciliogenesis and WNT Signaling

Branch site recognition by the spliceosome

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