Novel functions of the ubiquitin-independent proteasome system in regulatingXenopusgermline development

Abstract: In most species, early germline development occurs in the absence of transcription with germline determinants subject to complex translational and post-translational regulations. Here, we report for the first time that early germline development is influenced by dynamic regulation of the proteasome system, previously thought to be ubiquitously expressed and to serve 'housekeeping' roles in controlling protein homeostasis. We show that proteasomes are present in a gradient with the highest levels in the animal … Show more

“…Immunofluorescence (IF) clearly indicates enrichment of the 20S CP in the animal hemisphere of 8-cell stage embryos, consistent with recent IF findings in fertilized eggs (Hwang et al). 32 Asymmetric distribution of the proteasome during the oocyte to embryo transition in Xenopus may allow stabilization of vegetally localized proteins that are critical for germ cell development (Hwang et al). 32 Furthermore, the protein DDX4/Vasa (also known as Xenopus vasa-like gene 1) was localized to the vegetal hemisphere of the embryo (indicated in yellow in Figure 4A), in line with previous findings by Sindelka et.al.…”

“…32 Asymmetric distribution of the proteasome during the oocyte to embryo transition in Xenopus may allow stabilization of vegetally localized proteins that are critical for germ cell development (Hwang et al). 32 Furthermore, the protein DDX4/Vasa (also known as Xenopus vasa-like gene 1) was localized to the vegetal hemisphere of the embryo (indicated in yellow in Figure 4A), in line with previous findings by Sindelka et.al. 50 DDX4/Vasa belongs to the family of DEAD-box RNA helicases and is a marker for germ cell specification in diverse animal species.…”

“…Some of the interesting hits were validated by immunofluorescence imaging of sectioned embryos to confirm differential expression of 20S CP subunits and DDX4/VASA across animal-vegetal axis. Proteasome subunits were found to be enriched in the animal hemisphere 32 whereas VASA/DDX4 was found to be vegetally localized in Xenopus . This forms the first report showing vegetal enrichment of Vasa enabled by localized sampling and LC-MS/MS.…”

Single Cell Proteomics by Data-Independent Acquisition To Study Embryonic Asymmetry in Xenopus laevis

“…Immunofluorescence (IF) clearly indicates enrichment of the 20S CP in the animal hemisphere of 8-cell stage embryos, consistent with recent IF findings in fertilized eggs (Hwang et al). 32 Asymmetric distribution of the proteasome during the oocyte to embryo transition in Xenopus may allow stabilization of vegetally localized proteins that are critical for germ cell development (Hwang et al). 32 Furthermore, the protein DDX4/Vasa (also known as Xenopus vasa-like gene 1) was localized to the vegetal hemisphere of the embryo (indicated in yellow in Figure 4A), in line with previous findings by Sindelka et.al.…”

“…32 Asymmetric distribution of the proteasome during the oocyte to embryo transition in Xenopus may allow stabilization of vegetally localized proteins that are critical for germ cell development (Hwang et al). 32 Furthermore, the protein DDX4/Vasa (also known as Xenopus vasa-like gene 1) was localized to the vegetal hemisphere of the embryo (indicated in yellow in Figure 4A), in line with previous findings by Sindelka et.al. 50 DDX4/Vasa belongs to the family of DEAD-box RNA helicases and is a marker for germ cell specification in diverse animal species.…”

“…Some of the interesting hits were validated by immunofluorescence imaging of sectioned embryos to confirm differential expression of 20S CP subunits and DDX4/VASA across animal-vegetal axis. Proteasome subunits were found to be enriched in the animal hemisphere 32 whereas VASA/DDX4 was found to be vegetally localized in Xenopus . This forms the first report showing vegetal enrichment of Vasa enabled by localized sampling and LC-MS/MS.…”

Single Cell Proteomics by Data-Independent Acquisition To Study Embryonic Asymmetry in Xenopus laevis

“…[29][30][31][32][33][34] We have recently discovered a potent 21 amino-acid degradation sequence within Xenopus laevis Dnd protein that promotes rapid ubiquitin-independent proteasomal degradation of Dnd in Xenopus oocytes and mammalian cell lines such as HEK293T and GC-2spd. 35 To determine whether this degradation sequence (here referred to as degron or deg) can be used as a general moiety to mediate degradation of intracellular proteins, we fused tandem arrays of degrons to the C-terminus of firefly luciferase (FLuc) protein (FLuc-tevS-Ndeg, N = 1, 2, and 3). A tobacco etch virus (TEV) protease recognition site (tevS) was sandwiched between FLuc and degron to render TEV-mediated rescue of protein degradation (Figure 1a).…”

“…[42][43][44][45] We previously reported that degradation mediated by the Dnd degron was blocked only when all three types of the ubiquitin-independent proteasome were inhibited simultaneously. 35 Ubiquitin-independent proteasomes are widely present in the majority of cell types. Thus, different from the majority of degrons, which are often recognized by tissue-specific E3 ubiquitin ligases, the Dnd degron can keep the protein of interest at a very low expression level in a wide variety of cells.…”

Repurposing Protein Degradation for Optogenetic Modulation of Protein Activities

Regulation of RNA localization during oocyte maturation by dynamic RNA-ER association and remodeling of the ER