Germline maintenance through the multifaceted activities of GLH/Vasa in<i>Caenorhabditis elegans</i>P granules

Marnik, Elisabeth A.; Fuqua, J. Heath; Sharp, Catherine S.; Rochester, Jesse D.; Xu, Emily; Holbrook, Sarah E.; Updike, Dustin L.

doi:10.1101/663641

Cited by 6 publications

(10 citation statements)

References 56 publications

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“…Vasa helicases are essential for both mRNA regulation and small RNA processing in the germ line of many species (Lasko, 2013;Voronina et al, 2011). In both worms and flies, Vasa homologs associate with Argonautes and play a role in piRNA biogenesis and siRNA amplification (Marnik et al, 2019;Xiol et al, 2014). In C. elegans, GLH-1 also interacts with miRISC complexes within P granules to regulate translation and storage of target transcripts (Dallaire et al, 2018).…”

Section: Embryonic Lethality and Sterilitymentioning

confidence: 99%

“…In C. elegans, GLH-1 also interacts with miRISC complexes within P granules to regulate translation and storage of target transcripts (Dallaire et al, 2018). Regulation of RNA helicase activity can either lock RNP complexes or remodel them by promoting RNA transfer between complexes, release, and turnover -all of which influence the composition, organization, and biophysical properties of condensates (Marnik et al, 2019). Thus the dissolution of P granules upon loss of MIPs function is expected to have broad-ranging consequences on RNA metabolism.…”

Section: Embryonic Lethality and Sterilitymentioning

confidence: 99%

“…Since MIP-1 typically appears closer to the base of perinuclear P granules than MIP-2 and is required for perinuclear localization of P granules, it is An obvious candidate for tethering granules to NPCs. The MIPs may work together with GLH-1 to maintain perinuclear association, since the FG repeats of GLH-1 are also necessary (but not sufficient) for its perinuclear localization in the embryo or when expressed ectopically (Marnik et al, 2019;Updike et al, 2011). The FG repeats are thought to help tether GLH-1 to nuclear pores through hydrophobic interactions with FG repeat proteins in the NPC matrix.…”

Section: P Granule Dynamicsmentioning

confidence: 99%

“…RNA helicases also play active roles in remodeling biomolecular condensates by regulating RNP dynamics (Linder and Jankowsky, 2011). ATP binding promotes condensation, and ATPase-coupled RNA duplex unwinding and release of ssRNA promote fluidity and RNA flux through phase-separated compartments (Hondele et al, 2019;Hubstenberger et al, 2013;Marnik et al, 2019;Nott et al, 2015). ATP-dependent Vasa helicases have long been associated with essential functions in the germ line, where they engage a variety of RNP complexes involved in translational regulation and small RNA biogenesis (Dallaire et al, 2018;Lasko, 2013).…”

Section: Regulation Of Membraneless Compartmentsmentioning

confidence: 99%

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Novel LOTUS-domain proteins are organizational hubs that recruit C. elegans Vasa to germ granules

Cipriani

Bay

Zinno

et al. 2021

eLife

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We describe MIP-1 and MIP-2, novel paralogous C. elegans germ granule components that interact with the intrinsically disordered MEG-3 protein. These proteins promote P granule condensation, form granules independently of MEG-3 in the postembryonic germ line, and balance each other in regulating P granule growth and localization. MIP-1 and MIP-2 each contain two LOTUS domains and intrinsically disordered regions and form homo- and heterodimers. They bind and anchor the Vasa homolog GLH-1 within P granules and are jointly required for coalescence of MEG-3, GLH-1, and PGL proteins. Animals lacking MIP-1 and MIP-2 show temperature-sensitive embryonic lethality, sterility, and mortal germ lines. Germline phenotypes include defects in stem cell self-renewal, meiotic progression, and gamete differentiation. We propose that these proteins serve as scaffolds and organizing centers for ribonucleoprotein networks within P granules that help recruit and balance essential RNA processing machinery to regulate key developmental transitions in the germ line.

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Section: Embryonic Lethality and Sterilitymentioning

confidence: 99%

Section: Embryonic Lethality and Sterilitymentioning

confidence: 99%

Section: P Granule Dynamicsmentioning

confidence: 99%

Section: Regulation Of Membraneless Compartmentsmentioning

confidence: 99%

See 2 more Smart Citations

Novel LOTUS-domain proteins are organizational hubs that recruit C. elegans Vasa to germ granules

Cipriani

Bay

Zinno

et al. 2021

eLife

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“…Certain transient P granule proteins (like CGH‐1 and GLD‐1) function to stabilize maternal mRNAs, protecting them against degradation (Boag et al, 2008; Noble et al, 2008; Scheckel et al, 2012). GLH‐1, an ATP‐dependent RNA helicase, might function similar to Vasa, its homolog in Drosophila , thus regulating mRNA translation, behaving as an RNA solvent to facilitate mRNA nuclear export and small RNA surveillance, and so forth (Kuznicki et al, 2000; Marnik et al, 2019). Proteins involved in translational regulation of the Drosophila nanos homolog, nos‐2 maternal mRNA include translational repressors SPN‐4, OMA‐1,2, and MEX‐3 and translational activators POS‐1 and PIE‐1, all transient P granule components (Draper et al, 1996; Jadhav et al, 2008; Ogura et al, 2003; Tabara et al, 1999; Tenenhaus et al, 1998).…”

Section: Gcgs In C Elegansmentioning

confidence: 99%

Germ cell ribonucleoprotein granules in different clades of life: From insects to mammals

Mukherjee

2021

WIREs RNA

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Ribonucleoprotein (RNP) granules are no newcomers in biology. Found in all life forms, ranging across taxa, these membrane‐less “organelles” have been classified into different categories based on their composition, structure, behavior, function, and localization. Broadly, they can be listed as stress granules (SGs), processing bodies (PBs), neuronal granules (NGs), and germ cell granules (GCGs). Keeping in line with the topic of this review, RNP granules present in the germ cells have been implicated in a wide range of cellular functions including cellular specification, differentiation, proliferation, and so forth. The mechanisms used by them can be diverse and many of them remain partly obscure and active areas of research. GCGs can be of different types in different organisms and at different stages of development, with multiple types coexisting in the same cell. In this review, the different known subcategories of GCGs have been studied with respect to five distinct model organisms, namely, Drosophila, Caenorhabditis elegans, Xenopus, Zebrafish, and mammals. Of them, the cytoplasmic polar granules in Drosophila, P granules in C. elegans, balbiani body in Xenopus and Zebrafish, and chromatoid bodies in mammals have been specifically emphasized upon. A descriptive account of the same has been provided along with insights into our current understanding of their functional significance with respect to cellular events relating to different developmental and reproductive processes. This article is categorized under: RNA Interactions with Proteins and Other Molecules > RNA‐Protein Complexes RNA Export and Localization > RNA Localization RNA in Disease and Development > RNA in Disease

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Proximity labeling identifies LOTUS domain proteins that promote the formation of perinuclear germ granules in C. elegans

Tang

Price²,

Hertz

et al. 2021

Preprint

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The germline produces gametes that transmit genetic and epigenetic information to the next generation. Maintenance of germ cells and development of gametes require germ granules—well-conserved membraneless and RNA-rich organelles. The composition of germ granules is elusive owing to their dynamic nature and their exclusive expression in the germline. Using C. elegans germ granule, called P granule, as a model system, we employed a proximity-based labeling method in combination with mass spectrometry to comprehensively define its protein components. This set of experiments identified over 200 proteins, many of which contain intrinsically disordered regions. An RNAi-based screen identified factors that are essential for P granule assembly, notably EGGD-1 and EGGD-2, two previously uncharacterized LOTUS-domain proteins. Loss of eggd-1 and eggd-2 results in separation of P granules from nuclear envelope, germline atrophy and reduced fertility. We show that intrinsically disordered regions of EGGD-1 are required to anchor EGGD-1 to the nuclear periphery while its LOTUS domains are required to promote perinuclear localization of P granules. Together, our work expands the repertoire of P granule constituents and provides new insights into the role of LOTUS-domain proteins in germ granule organization.

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Germline maintenance through the multifaceted activities of GLH/Vasa inCaenorhabditis elegansP granules

Cited by 6 publications

References 56 publications

Novel LOTUS-domain proteins are organizational hubs that recruit C. elegans Vasa to germ granules

Novel LOTUS-domain proteins are organizational hubs that recruit C. elegans Vasa to germ granules

Germ cell ribonucleoprotein granules in different clades of life: From insects to mammals

Proximity labeling identifies LOTUS domain proteins that promote the formation of perinuclear germ granules in C. elegans

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