Alternative splicing and nonsense-mediated mRNA decay regulate mammalian ribosomal gene expression

Cuccurese, Monica; Russo, Giulia; Russo, Annapina; Pietropaolo, C

doi:10.1093/nar/gki905

Cited by 103 publications

(106 citation statements)

References 36 publications

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“…These results correlate with previous observations, referred to as feedback regulation 32 or autoregulation. 33 Finally, RNA-seq tags were piled up on the last exon of the RPL12 transcript variant 2, a known NMD target, 50 in response to UPF1 knockdown, indicating that the splicing variant recognized by NMD had escaped from degradation in response to UPF1 depletion (Fig. 2).…”

Section: Resultsmentioning

confidence: 99%

Identification of hundreds of novel UPF1 target transcripts by direct determination of whole transcriptome stability

et al. 2012

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Section: Resultsmentioning

confidence: 99%

Identification of hundreds of novel UPF1 target transcripts by direct determination of whole transcriptome stability

et al. 2012

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“…64 More recently, NMD-target isoforms of the human ribosomal protein genes rpL3 and rpL12 were identified and the unproductive splicing of rpL3 was shown to be autoregulated by rpL3 protein in a negative feedback loop. 99 RUST thus seems to play a similar role in the regulation of ribosomal proteins in species from yeast to human.…”

Section: Autoregulatory Unproductive Splicingmentioning

confidence: 93%

The Coupling of Alternative Splicing and Nonsense-Mediated mRNA Decay

Lareau¹,

Brooks²,

Soergel³

et al. 2007

Advances in Experimental Medicine and Biology

207

192

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M ost human genes exhibit alternative splicing, but not all alternatively spliced transcripts produce functional proteins. Computational and experimental results indicate that a substantial fraction of alternative splicing events in humans result in mRNA isoforms that harbor a premature termination codon (PTC). These transcripts are predicted to be degraded by the nonsense-mediated mRNA decay (NMD) pathway. One explanation for the abundance of PTC-containing isoforms is that they represent splicing errors that are identified and degraded by the NMD pathway. Another potential explanation for this startling observation is that cells may link alternative splicing and NMD to regulate the abundance of mRNA transcripts. This mechanism, which we call "Regulated Unproductive Splicing and Translation" (RUST), has been experimentally shown to regulate expression of a wide variety of genes in many organisms from yeast to human. It is frequently employed for autoregulation of proteins that affect the splicing process itself. Thus, alternative splicing and NMD act together to play an important role in regulating gene expression.

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“…That is, as an RNA binding protein increases in abundance, it increasingly binds its own pre-mRNA and facilitates production of a 3UI-containing form subject to NMD, thereby maintaining protein homeostasis [44,67,68]. Proteins undergoing this type of regulation include ribosomal proteins [42,[69][70][71], core spliceosomal proteins [66,72] and alternative splicing regulators such as hnRNP and SR proteins [45,67]. In fact, every one of the 11 human SR proteins has a 3UI isoform and regulates its own production by AS-NMD [67].…”

Section: Nmd Inhibition Points To Functional 3ui-containing Transcriptsmentioning

confidence: 99%

Introns in UTRs: Why we should stop ignoring them

et al. 2012

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Although introns in 5 0 -and 3 0 -untranslated regions (UTRs) are found in many protein coding genes, rarely are they considered distinctive entities with specific functions. Indeed, mammalian transcripts with 3 0 -UTR introns are often assumed nonfunctional because they are subject to elimination by nonsense-mediated decay (NMD). Nonetheless, recent findings indicate that 5 0 -and 3 0 -UTR intron status is of significant functional consequence for the regulation of mammalian genes. Therefore these features should be ignored no longer.

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Alternative splicing and nonsense-mediated mRNA decay regulate mammalian ribosomal gene expression

Cited by 103 publications

References 36 publications

Identification of hundreds of novel UPF1 target transcripts by direct determination of whole transcriptome stability

Identification of hundreds of novel UPF1 target transcripts by direct determination of whole transcriptome stability

The Coupling of Alternative Splicing and Nonsense-Mediated mRNA Decay

Introns in UTRs: Why we should stop ignoring them

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