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1. Homozygous mutation of foxh1 arrests oogenesis causing infertility in female Nile tilapia

   https://doi.org/10.1093/biolre/ioz225  

   Tao, Wenjing; Shi, Hongjuan; Yang, Jing; Diakite, Hamidou; Kocher, Thomas D; Wang, Deshou (December 2019, Biology of Reproduction)

   Abstract Foxh1, a member of fox gene family, was first characterized as a transcriptional partner in the formation of the Smad protein complex. Recent studies have shown foxh1 is highly expressed in the cytoplasm of oocytes in both tilapia and mouse. However, its function in oogenesis remains unexplored. In the present study, foxh1−/− tilapia was created by CRISPR/Cas9. At 180 dah (days after hatching), the foxh1−/− XX fish showed oogenesis arrest and a significantly lower GSI. The transition of oocytes from phase II to phase III and follicle cells from one to two layers was blocked, resulting in infertility of the mutant. Transcriptomic analysis revealed that expression of genes involved in estrogen synthesis and oocyte growth were altered in the foxh1−/− ovaries. Loss of foxh1 resulted in significantly decreased Cyp19a1a and increased Cyp11b2 expression, consistent with significantly lower concentrations of serum estradiol-17β (E2) and higher concentrations of 11-Ketotestosterone (11-KT). Moreover, administration of E2 rescued the phenotypes of foxh1−/− XX fish, as indicated by the appearance of phase III and IV oocytes and absence of Cyp11b2 expression. Taken together, these results suggest that foxh1 functions in the oocytes to regulate oogenesis by promoting cyp19a1a expression, and therefore estrogen production. Disruption of foxh1 may block the estrogen synthesis and oocyte growth, leading to the arrest of oogenesis and thus infertility in tilapia. 

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2. Disruption of Zar1 leads to arrested oogenesis by regulating polyadenylation via Cpeb1 in tilapia (Oreochromis niloticus)

   https://doi.org/10.1016/j.ijbiomac.2024.129632  

   Yu, Miao; Zhang, Shiyi; Ma, Zhisheng; Qiang, Jun; Wei, Jing; Sun, Lina; Kocher, Thomas D.; Wang, Deshou; Tao, Wenjing (March 2024, International Journal of Biological Macromolecules)

   Oogenesis is a complex process regulated by precise coordination of multiple factors, including maternal genes. Zygote arrest 1 (zar1) has been identified as an ovary-specific maternal gene that is vital for oocyte-to-embryo transition and oogenesis in mouse and zebrafish. However, its function in other species remains to be elucidated. In the present study, zar1 was identified with conserved C-terminal zinc finger domains in Nile tilapia. zar1 was highly expressed in the ovary and specifically expressed in phase I and II oocytes. Disruption of zar1 led to the failed transition from oogonia to phase I oocytes, with somatic cell apoptosis. Down-regulation and failed polyadenylation of figla, gdf9, bmp15 and wee2 mRNAs were observed in the ovaries of zar1􀀀 /􀀀 fish. Cpeb1, a gene essential for polyadenylation that interacts with Zar1, was down-regulated in zar1􀀀 /􀀀 fish. Moreover, decreased levels of serum estrogen and increased levels of androgen were observed in zar1􀀀 /􀀀 fish. Taken together, zar1 seems to be essential for tilapia oogenesis by regulating polyadenylation and estrogen synthesis. Our study shows that Zar1 has different molecular functions during gonadal development by the similar signaling pathway in different species. 

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3. Regulation of dynamic pigment cell states at single-cell resolution

   https://doi.org/10.7554/eLife.60388  

   Perillo, Margherita; Oulhen, Nathalie; Foster, Stephany; Spurrell, Maxwell; Calestani, Cristina; Wessel, Gary (August 2020, eLife)

   Cells bearing pigment have diverse roles and are often under strict evolutionary selection. Here, we explore the regulation of pigmented cells in the purple sea urchinStrongylocentrotus purpuratus,an emerging model for diverse pigment function. We took advantage of single cell RNA-seq (scRNAseq) technology and discovered that pigment cells in the embryo segregated into two distinct populations, a mitotic cluster and a post-mitotic cluster.Gcmis essential for expression of several genes important for pigment function, but is only transiently expressed in these cells. We discovered unique genes expressed by pigment cells and test their expression with double fluorescence in situ hybridization. These genes include new members of thefmofamily that are expressed selectively in pigment cells of the embryonic and in the coelomic cells of the adult - both cell-types having immune functions. Overall, this study identifies nodes of molecular intersection ripe for change by selective evolutionary pressures. 

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4. Disruption of a ∼23–24 nucleotide small RNA pathway elevates DNA damage responses in Tetrahymena thermophila

   https://doi.org/10.1091/mbc.E20-10-0631  

   Lee, Suzanne R.; Pollard, Daniel A.; Galati, Domenico F.; Kelly, Megan L.; Miller, Brian; Mong, Christina; Morris, Megan N.; Roberts-Nygren, Kerry; Kapler, Geoffrey M.; Zinkgraf, Matthew; et al (July 2021, Molecular Biology of the Cell)

   Misteli, Tom (Ed.)

   Endogenous RNA interference (RNAi) pathways regulate a wide range of cellular processes in diverse eukaryotes, yet in the ciliated eukaryote, Tetrahymena thermophila, the cellular purpose of RNAi pathways that generate ∼23–24 nucleotide (nt) small (s)RNAs has remained unknown. Here, we investigated the phenotypic and gene expression impacts on vegetatively growing cells when genes involved in ∼23–24 nt sRNA biogenesis are disrupted. We observed slower proliferation and increased expression of genes involved in DNA metabolism and chromosome organization and maintenance in sRNA biogenesis mutants RSP1Δ, RDN2Δ, and RDF2Δ. In addition, RSP1Δ and RDN2Δ cells frequently exhibited enlarged chromatin extrusion bodies, which are nonnuclear, DNA-containing structures that may be akin to mammalian micronuclei. Expression of homologous recombination factor Rad51 was specifically elevated in RSP1Δ and RDN2Δ strains, with Rad51 and double-stranded DNA break marker γ-H2A.X localized to discrete macronuclear foci. In addition, an increase in Rad51 and γ-H2A.X foci was also found in knockouts of TWI8, a macronucleus-localized PIWI protein. Together, our findings suggest that an evolutionarily conserved role for RNAi pathways in maintaining genome integrity may be extended even to the early branching eukaryotic lineage that gave rise to Tetrahymena thermophila. 

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5. ATP signaling in the integrative neural center of Aplysia californica

   https://doi.org/10.1038/s41598-021-84981-5  

   Györi, János; Kohn, Andrea B.; Romanova, Daria Y.; Moroz, Leonid L. (December 2021, Scientific Reports)

   null (Ed.)

   Abstract ATP and its ionotropic P2X receptors are components of the most ancient signaling system. However, little is known about the distribution and function of purinergic transmission in invertebrates. Here, we cloned, expressed, and pharmacologically characterized the P2X receptors in the sea slug Aplysia californica —a prominent neuroscience model. Ac P2X receptors were successfully expressed in Xenopus oocytes and displayed activation by ATP with two-phased kinetics and Na + -dependence. Pharmacologically, they were different from other P2X receptors. The ATP analog, Bz-ATP, was a less effective agonist than ATP, and PPADS was a more potent inhibitor of the Ac P2X receptors than the suramin. Ac P2X were uniquely expressed within the cerebral F-cluster, the multifunctional integrative neurosecretory center. Ac P2X receptors were also detected in the chemosensory structures and the early cleavage stages. Therefore, in molluscs, rapid ATP-dependent signaling can be implicated both in development and diverse homeostatic functions. Furthermore, this study illuminates novel cellular and systemic features of P2X-type ligand-gated ion channels for deciphering the evolution of neurotransmitters. 

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