Ian F. Price scite author profile

SUMMARY The Piwi-interacting RNA (piRNA) pathway suppresses transposable elements and promotes fertility in diverse organisms. Maturation of piRNAs involves pre-piRNA trimming followed by 2′-O-methylation at their 3′ termini. Here, we report that the 3′ termini of Caenorhabditis elegans piRNAs are subject to nontemplated nucleotide addition, and piRNAs with 3′ addition exhibit extensive base-pairing interaction with their target RNAs. Animals deficient for PARN-1 (pre-piRNA trimmer) and HENN-1 (2′-O-methyltransferase) accumulate piRNAs with 3′ nontemplated nucleotides. In henn-1 mutants, piRNAs are shortened prior to 3′ addition, whereas long isoforms of untrimmed piRNAs are preferentially modified in parn-1 mutant animals. Loss of either PARN-1 or HENN-1 results in modest reduction in steady-state levels of piRNAs. Deletion of both enzymes leads to depletion of piRNAs, desilenced piRNA targets, and impaired fecundity. Together, our findings suggest that pre-piRNA trimming and 2′-O-methylation act collaboratively to protect piRNAs from tailing and degradation.

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

Price

Hertz²,

Pastore

et al. 2021

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The germ line 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 germ line. Using Caenorhabditis 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 (IDRs). An RNA interference-based screen identified factors that are essential for P granule assembly, notably EGGD-1 and EGGD-2, two putative LOTUS-domain proteins. Loss of eggd-1 and eggd-2 results in separation of P granules from the nuclear envelope, germline atrophy, and reduced fertility. We show that IDRs of EGGD-1 are required to anchor EGGD-1 to the nuclear periphery while its LOTUS domains are required to promote the perinuclear localization of P granules. Taken 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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Visualization and Purification of Caenorhabditis elegans Germ Granule Proteins Using Proximity Labeling

Hertz¹,

Price²,

Tang³

2022

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

Price¹,

Hertz²,

Pastore³

et al. 2021

View full text Add to dashboard Cite

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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Ian F. Price

pre-piRNA trimming and 2′-O-methylation protect piRNAs from 3′ tailing and degradation in C. elegans

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

Visualization and Purification of Caenorhabditis elegans Germ Granule Proteins Using Proximity Labeling

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

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

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