Specific genomic cues regulate Cajal body assembly

Sawyer, Iain A.; Hager, Gordon L.; Dundr, Miroslav

doi:10.1080/15476286.2016.1243648

Cited by 29 publications

(28 citation statements)

References 156 publications

(203 reference statements)

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“…Small changes in the valency of the interactions between their primary components transforms these constituents from a solution state to a condensate state. Once these multivalent molecules reach a local concentration above the threshold level, they assemble into complex polymers and undergo LLPS to promote body formation (Sawyer, Hager, & Dundr, ). Recent modeling of plant phytochrome MLO formation suggests this is a two‐step process, consisting of an initial rapid macroparticle formation step and slow macroparticle aggregation into mature droplets (Grima et al, ).…”

Section: Cellular Spatial Organization Depends On Biological Self‐orgmentioning

confidence: 99%

“…For example, the constitutively expressed and highly transcribed spliceosomal RNU1 and RNU2 gene arrays may act as the primary nucleation sites for the formation of the Cajal body (Frey, Bailey, Weiner, & Matera, ; Frey & Matera, ; Wang et al, ), cell cycle‐dependent transcription of replication‐dependent major ( HIST1 ) and minor ( HIST2 ) histone gene arrays triggers histone locus body (HLB) formation and enlargement in S‐phase, and the transcription of the long noncoding RNA (lncRNA) NEAT1 initiates the formation of paraspeckles (Mao et al, ; Shevtsov & Dundr, ). MLO assembly is likely orchestrated by an initial RNA seeding event that provides a structural platform to subsequently trigger recruitment and retention of building blocks, including RBPs, by random self‐organization (Sawyer, Hager, & Dundr, ). In the sections below, we summarize the evidence implicating RNA as a crucial mediator of MLO self‐organization.…”

Section: Various Nuclear Bodies Exhibit Rna‐related Functional Architmentioning

confidence: 99%

“…The Cajal body is an excellent example of how protein posttranslational modifications and RNA expression cooperate to promote self‐organizing droplet formation (Dundr, ; Hebert & Poole, ; Machyna et al, ; Sawyer, Hager, & Dundr, ; Wang et al, ). The Cajal body has long been known to exhibit an interesting ultrastructure, as early transmission electron microscopy studies reported inclusions resembling tangled web of coiled threads, leading to its original name: the coiled body (Monneron & Bernhard, ).…”

Section: Various Nuclear Bodies Exhibit Rna‐related Functional Architmentioning

confidence: 99%

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Membraneless nuclear organelles and the search for phases within phases

2018

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Cells are segregated into two distinct compartment groups to optimize cellular function. The first is characterized by lipid membranes that encapsulate specific regions and regulate macromolecular flux. The second, known collectively as membraneless organelles (MLOs), lacks defining lipid membranes and exhibits self‐organizing properties. MLOs are enriched with specific RNAs and proteins that catalyze essential cellular processes. A prominent sub‐class of MLOs are known as nuclear bodies, which includes nucleoli, paraspeckles, and other droplets. These microenvironments contain specific RNAs, exhibit archetypal liquid–liquid phase separation characteristics, and harbor intrinsically disordered, multivalent hub proteins. We present an analysis of nuclear body protein disorder that suggests MLO proteomes are significantly more disordered than structured cellular features. We also outline common MLO ultrastructural features, exemplified by the three sub‐compartments present inside the nucleolus. A core‐shell configuration, or phase within a phase, is displayed by several nuclear bodies and may be functionally important. Finally, we summarize evidence indicating extensive RNA and protein sharing between distinct nuclear bodies, suggesting functional cooperation and similar nucleation principles. Considering the substantial accumulation of specific coding and noncoding RNA classes inside MLOs, evidence that RNA buffers specific phase transition events, and the absence of a clear correlation between total intrinsic protein disorder and MLO accumulation, we conclude that RNA biogenesis may play a key role in MLO formation, internal organization, and function. This article is categorized under: RNA Export and Localization > RNA Localization RNA Interactions with Proteins and Other Molecules > Protein–RNA Interactions: Functional Implications

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Section: Cellular Spatial Organization Depends On Biological Self‐orgmentioning

confidence: 99%

Section: Various Nuclear Bodies Exhibit Rna‐related Functional Architmentioning

confidence: 99%

Section: Various Nuclear Bodies Exhibit Rna‐related Functional Architmentioning

confidence: 99%

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Membraneless nuclear organelles and the search for phases within phases

2018

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“…Using a combination of advanced multicolor microscopic mapping tools and high-throughput sequencing techniques, we explored the specific clustering network, consisting of distant chromosomal targeting regions proximal to CBs [30]. Chromosomes that associate frequently with CBs display higher CB target gene density than other size-matched chromosomes (human chromosomes 1, 6 and 17 vs. 2, 7 and 18) [64]. Physical associations between specific chromosomes and CBs also correlate with major and minor spliceosomal snRNA gene clusters, such as the U1 and U2 snRNA gene arrays on chromosomes 1 and 17, respectively.…”

Section: Genome Organization Is Influenced By Nuclear Body Functionmentioning

confidence: 99%

“…A clue can be found in the localization of most NBs, as they are predominantly situated in the interchromatin space at the periphery of CTs where multiple chromosomes frequently intermingle [65]. Transcriptional activation of large ubiquitously expressed gene arrays, such as the U1 and U2 snRNA arrays [64], triggers the nucleation and formation of a CB. Subsequently, other highly expressed U snRNA genes, which are positioned at the periphery of their host CT, or even looped out of the domain, associate with the growing CB.…”

Section: Gene Clusters Near Cajal Bodies Are Rna-dependentmentioning

confidence: 99%

Cajal body function in genome organization and transcriptome diversity

et al. 2016

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Nuclear bodies contribute to nonrandom organization of the human genome and nuclear function. Using a major prototypical nuclear body, the Cajal body, as an example, we suggest that these structures assemble at specific gene loci located across the genome as a result of high transcriptional activity. Subsequently, target genes are physically clustered in close proximity in Cajal body-containing cells. However, Cajal bodies are observed in only a limited number of human cell types, including neuronal and cancer cells. Ultimately, Cajal body depletion perturbs splicing kinetics by reducing target small nuclear RNA (snRNA) transcription and limiting the levels of spliceosomal snRNPs, including their modification and turnover following each round of RNA splicing. As such, Cajal bodies are capable of shaping the chromatin interaction landscape and the transcriptome by influencing spliceosome kinetics. Future studies should concentrate on characterizing the direct influence of Cajal bodies upon small nuclear RNA gene transcriptional dynamics.

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MED26‐containing Mediator may orchestrate multiple transcription processes through organization of nuclear bodies

et al. 2023

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Mediator is a coregulatory complex that plays essential roles in multiple processes of transcription regulation. One of the human Mediator subunits, MED26, has a role in recruitment of the super elongation complex (SEC) to polyadenylated genes and little elongation complex (LEC) to non‐polyadenylated genes, including small nuclear RNAs (snRNAs) and replication‐dependent histone (RDH) genes. MED26‐containing Mediator plays a role in 3′ Pol II pausing at the proximal region of transcript end sites in RDH genes through recruitment of Cajal bodies (CBs) to histone locus bodies (HLBs). This finding suggests that Mediator is involved in the association of CBs with HLBs to facilitate 3′ Pol II pausing and subsequent 3′‐end processing by supplying 3′‐end processing factors from CBs. Thus, we argue the possibility that Mediator is involved in the organization of nuclear bodies to orchestrate multiple processes of gene transcription.

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Specific genomic cues regulate Cajal body assembly

Cited by 29 publications

References 156 publications

Membraneless nuclear organelles and the search for phases within phases

Membraneless nuclear organelles and the search for phases within phases

Cajal body function in genome organization and transcriptome diversity

MED26‐containing Mediator may orchestrate multiple transcription processes through organization of nuclear bodies

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