2021
DOI: 10.1002/wrna.1674
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Making sense of mRNA landscapes: Translation control in neurodevelopment

Abstract: Like all other parts of the central nervous system, the mammalian neocortex undergoes temporally ordered set of developmental events, including proliferation, differentiation, migration, cellular identity, synaptogenesis, connectivity formation, and plasticity changes. These neurodevelopmental mechanisms have been characterized by studies focused on transcriptional control. Recent findings, however, have shown that the spatiotemporal regulation of posttranscriptional steps like alternative splicing, mRNA traff… Show more

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Cited by 13 publications
(12 citation statements)
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References 185 publications
(286 reference statements)
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“…These mRNA processing events, commonly known as the ribonome ( Mansfield and Keene, 2009 ), include splicing, alternative polyadenylation, editing, stabilization, temporal silencing, targeted localization, and translation. RBPs, together with ribosomal proteins and non-coding RNAs [e.g., microRNA and long non-coding RNA (lncRNA)], are thought to be the key components of the post-transcriptional machinery since they shape the final output of the ribonome ( Kwan et al, 2012 ; DeBoer et al, 2013 ; Doxakis, 2014 ; Mao et al, 2015 ; Pilaz and Silver, 2015 ; Kraushar et al, 2016 , 2021 ; Ceci et al, 2021 ; Park et al, 2021b ). The array of post-transcriptional network activities indicate that dynamic control of the transcriptome is a multifaceted series of events, necessary for the careful orchestration of the cellular behavior during neocortical development ( Figure 3 ).…”
Section: Post-transcriptional Regulation Mrnas Poised For Translation and Rna-binding Proteinsmentioning
confidence: 99%
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“…These mRNA processing events, commonly known as the ribonome ( Mansfield and Keene, 2009 ), include splicing, alternative polyadenylation, editing, stabilization, temporal silencing, targeted localization, and translation. RBPs, together with ribosomal proteins and non-coding RNAs [e.g., microRNA and long non-coding RNA (lncRNA)], are thought to be the key components of the post-transcriptional machinery since they shape the final output of the ribonome ( Kwan et al, 2012 ; DeBoer et al, 2013 ; Doxakis, 2014 ; Mao et al, 2015 ; Pilaz and Silver, 2015 ; Kraushar et al, 2016 , 2021 ; Ceci et al, 2021 ; Park et al, 2021b ). The array of post-transcriptional network activities indicate that dynamic control of the transcriptome is a multifaceted series of events, necessary for the careful orchestration of the cellular behavior during neocortical development ( Figure 3 ).…”
Section: Post-transcriptional Regulation Mrnas Poised For Translation and Rna-binding Proteinsmentioning
confidence: 99%
“…Various RBPs are already recognized as highly important for the protection of progenitors’ neurogenic potentials ( Box 2 ), such as FMRP, Smaug2, Nanos1, Rbfox, and polypyrimidine tract-binding protein 1 (Ptbp1). Since their function during neurogenesis has been previously reviewed in detail ( Pilaz and Silver, 2015 ; Popovitchenko and Rasin, 2017 ; Zahr et al, 2018 , 2019 ; Park et al, 2021b ), we will focus on deciphering the function of RBPs whose fascinating regulatory roles during early neurogenesis have recently become elucidated ( Figure 4 ).…”
Section: Post-transcriptional Regulation Mrnas Poised For Translation and Rna-binding Proteinsmentioning
confidence: 99%
See 1 more Smart Citation
“…RNA-binding proteins (RBPs) are vital regulators of an mRNA life cycle, including their transcription, splicing export, and transport to degradation, deadenylation, storage, silencing, and mRNA translation (protein synthesis) [ 17 , 18 ]. Along with the spliceosome complex, RBPs have a major role in creating cell-type-specific regulation of alternative splicing [ 10 , 19 , 20 ].…”
Section: Introductionmentioning
confidence: 99%
“…The dynamic interplay between RBPs and mRNA cis-acting elements regulates translation using distinct mechanisms of action [ 26 28 ]. The still underestimated functions of cis-acting regulatory elements, in many cases combining sequence and RNA structure, is exemplified by IRES elements, AU-rich elements (AREs), 5’terminal oligopyrimidine tracts (5’TOP), or the metazoan histone stem-loop (hSL) structures, among others.…”
Section: Introductionmentioning
confidence: 99%