Armitage determines Piwi−piRISC processing from precursor formation and quality control to inter‐organelle translocation

Yamashiro, Haruna; Negishi, Mayu; Kinoshita, Tatsuki; Ishizu, Hideki; Ohtani, Hitoshi; Siomi, Mikiko C.

doi:10.15252/embr.201948769

Cited by 21 publications

(37 citation statements)

References 46 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…This action does not require Piwi [63]. However, Armi remains localized to Yb bodies in the absence of Piwi, indicating that the departure of Armi from Yb bodies requires Piwi [96]. Armi has the intrinsic ability to bind RNAs promiscuously.…”

Section: Mitochondria: Membranous Organelles That Serve As the Place mentioning

confidence: 97%

“…For the proportion of Zuc that is located far from Yb bodies to function in piRNA processing, RNA substrates would need to travel across the cytosol from Yb bodies to mitochondria. Recent studies show that the intermediates dynamically move from Yb bodies to mitochondria in association with Piwi and Armi [67,96]. In the complex, Piwi interacts with the 5 -phosphate group of the intermediates [96].…”

Section: Mitochondria: Membranous Organelles That Serve As the Place mentioning

confidence: 99%

“…Recent studies show that the intermediates dynamically move from Yb bodies to mitochondria in association with Piwi and Armi [67,96]. In the complex, Piwi interacts with the 5 -phosphate group of the intermediates [96]. Armi also binds the RNAs but this interaction depends on Piwi [67].…”

Section: Mitochondria: Membranous Organelles That Serve As the Place mentioning

confidence: 99%

“…Additional knockdown of Gasz causes Armi to be stuck in Yb bodies [67,96]. Piwi behaves similarly, but to a lesser extent, and cannot stay longer on Gasz through Armi at the surface of mitochondria when Zuc function is abrogated [96]. The functions of Daed and Mino in OSCs remain elusive.…”

Section: Mitochondria: Membranous Organelles That Serve As the Place mentioning

confidence: 99%

“…Upon completion of piRNA processing, Piwi-piRISCs are promptly imported to the nucleus in an Impα/β dependent manner [106]. The nuclear import of Piwi is strictly regulated by Piwi-piRNA association, and apo-Piwi is not imported to the nucleus [61][62][63][65][66][67][68]96,107].…”

Section: Mitochondria: Membranous Organelles That Serve As the Place mentioning

confidence: 99%

See 4 more Smart Citations

Assembly and Function of Gonad-Specific Non-Membranous Organelles in Drosophila piRNA Biogenesis

Hirakata

Siomi

2019

ncRNA

Self Cite

View full text Add to dashboard Cite

PIWI-interacting RNAs (piRNAs) are small non-coding RNAs that repress transposons in animal germlines. This protects the genome from the invasive DNA elements. piRNA pathway failures lead to DNA damage, gonadal development defects, and infertility. Thus, the piRNA pathway is indispensable for the continuation of animal life. piRNA-mediated transposon silencing occurs in both the nucleus and cytoplasm while piRNA biogenesis is a solely cytoplasmic event. piRNA production requires a number of proteins, the majority of which localize to non-membranous organelles that specifically appear in the gonads. Other piRNA factors are localized on outer mitochondrial membranes. In situ RNA hybridization experiments show that piRNA precursors are compartmentalized into other non-membranous organelles. In this review, we summarize recent findings about the function of these organelles in the Drosophila piRNA pathway by focusing on their assembly and function.

show abstract

Section: Mitochondria: Membranous Organelles That Serve As the Place mentioning

confidence: 97%

Section: Mitochondria: Membranous Organelles That Serve As the Place mentioning

confidence: 99%

Section: Mitochondria: Membranous Organelles That Serve As the Place mentioning

confidence: 99%

Section: Mitochondria: Membranous Organelles That Serve As the Place mentioning

confidence: 99%

Section: Mitochondria: Membranous Organelles That Serve As the Place mentioning

confidence: 99%

See 3 more Smart Citations

Assembly and Function of Gonad-Specific Non-Membranous Organelles in Drosophila piRNA Biogenesis

Hirakata

Siomi

2019

ncRNA

Self Cite

View full text Add to dashboard Cite

show abstract

CRISPR‐Cas9 Genome Editing and Rapid Selection of Cell Pools

et al. 2022

View full text Add to dashboard Cite

The harnessing of the CRISPR‐Cas9 system allows for quick and inexpensive genome editing in tissue culture models. Traditional CRISPR‐Cas9 genome editing techniques rely on the ability of single progenitor cells to expand into new pools in a process known as clonal expansion. This is a significant technical challenge that is difficult to overcome for nontransformed cell culture models such as Drosophila ovarian somatic sheath cells (OSCs). OSCs are a unique ex vivo model for epigenetic regulation by PIWI‐interacting RNAs (piRNAs) that establish restriction of mobile genetic elements in germ cells to protect genome integrity. Here, we provide a protocol to generate endogenously tagged proteins and gene knockouts without the need for clonal selection. We combine CRISPR‐Cas genome editing and knockin of antibiotic selection markers to generate edited cell pools. At the example of Drosophila piwi in OSCs, we demonstrate a strategy that relies on the insertion of an artificial intron to accommodate a selection marker with minimal disturbance of the resulting mRNA. In brief, our donor cassette contains a peptide tag and an optimized intron that accommodates a selection marker driven by an independent promoter on the other genomic strand. The selection marker is transcribed as an independent mRNA, and the intron is efficiently removed from the mRNA encoding the endogenously tagged (endo‐tagged) piwi gene. The endo‐tagged Piwi protein is expressed at wild‐type levels and appropriately localizes to the nucleus of OSCs. We also describe strategies for C‐terminal tagging and generation of knockout alleles in OSCs and in human embryonic kidney cells, discuss different design strategies, and provide a plasmid toolkit (available at Addgene). Our protocol enables robust genome editing in OSCs for the first time and provides a simple and time‐saving alternative for other cell culture systems. Published 2022. This article is a U.S. Government work and is in the public domain in the USA. Basic Protocol 1: Design and cloning of single‐guide RNA plasmids Basic Protocol 2: Design and cloning of donor template plasmids for epitope tagging Alternate Protocol: Design and cloning of donor template plasmids for gene knockout Basic Protocol 3: Transfection and selection of edited cell pools

show abstract