Rita Gelin-Licht scite author profile

Polarized growth in the budding yeast Saccharomyces cerevisiae depends upon the asymmetric localization and enrichment of polarity and secretion factors at the membrane prior to budding. We examined how these factors (i.e., Cdc42, Sec4, and Sro7) reach the bud site and found that their respective mRNAs localize to the tip of the incipient bud prior to nuclear division. Asymmetric mRNA localization depends upon factors that facilitate ASH1 mRNA localization (e.g., the 3 untranslated region, She proteins 1 to 5, Puf6, actin cytoskeleton, and a physical association with She2). mRNA placement precedes protein enrichment and subsequent bud emergence, implying that mRNA localization contributes to polarization. Correspondingly, mRNAs encoding proteins which are not asymmetrically distributed (i.e., Snc1, Mso1, Tub1, Pex3, and Oxa1) are not polarized. Finally, mutations which affect cortical endoplasmic reticulum (ER) entry and anchoring in the bud (myo4⌬, sec3⌬, and srp101) also affect asymmetric mRNA localization. Bud-localized mRNAs, including ASH1, were found to cofractionate with ER microsomes in a She2-and Sec3-dependent manner; thus, asymmetric mRNA transport and cortical ER inheritance are connected processes in yeast.

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Different Domains of the UBL-UBA Ubiquitin Receptor, Ddi1/Vsm1, Are Involved in Its Multiple Cellular Roles

Gabriely

Kama

Gelin-Licht

et al. 2008

MBoC

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Ddi1/Vsm1 is an ubiquitin receptor involved in regulation of the cell cycle and late secretory pathway in Saccharomyces cerevisiae. Ddi1 possesses three domains: an NH 2 -terminal ubiquitin-like domain (UBL), a COOH-terminal ubiquitinassociated domain (UBA), and a retroviral aspartyl-protease domain (RVP). Here, we demonstrate the domains involved in homodimerization, checkpoint regulation, localization, and t-SNARE binding. The RVP domain is required for protein homodimerization, whereas the UBL and UBA domains are required for rescue of the pds1-128 checkpoint mutant and enrichment of GFP-Ddi1 in the nucleus. A mutation in aspartate-220, which is necessary for putative aspartyl-protease function, abolished the rescue of pds1-128 cells but not homodimerization. Thus, Ddi1 catalytic activity may be required for checkpoint regulation. The Sso1 t-SNARE-interacting domain maps to residues 344 -395 and undergoes phosphorylation on threonines T346 and T348. T348 is necessary for Sso binding, and phosphorylation is important for function, because mutations that lessen phosphorylation (e.g., Ddi1T346A , Ddi1 T348A ) are unable to facilitate growth of the sec9-4 t-SNARE mutant. In contrast, the overproduction of phosphorylatable forms of Ddi1 (e.g., Ddi1, Ddi1 S341A ) rescue the growth of sec9-4 cells similar to Sso1 overproduction. Thus, Ddi1 participates in multiple cellular processes via its different domains and phosphorylation may regulate exocytic functions.

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Localization of mRNAs coding for peroxisomal proteins in the yeast, Saccharomyces cerevisiae

Zipor

Haim-Vilmovsky

Gelin-Licht

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

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Single-cell dynamics and variability of MAPK activity in a yeast differentiation pathway

Conlon

Gelin-Licht

Ganesan

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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In response to pheromones, yeast cells activate a MAPK pathway to direct processes important for mating, including gene induction, cellcycle arrest, and polarized cell growth. Although a variety of assays have been able to elucidate signaling activities at multiple steps in the pathway, measurements of MAPK activity during the pheromone response have remained elusive, and our understanding of single-cell signaling behavior is incomplete. Using a yeast-optimized FRET-based mammalian Erk-activity reporter to monitor Fus3 and Kss1 activity in live yeast cells, we demonstrate that overall mating MAPK activity exhibits distinct temporal dynamics, rapid reversibility, and a graded dose dependence around the K D of the receptor, where phenotypic transitions occur. The complex dose response was found to be largely a consequence of two feedbacks involving cyclin-mediated scaffold phosphorylation and Fus3 autoregulation. Distinct cell cycle-dependent response patterns comprised a large portion of the cell-to-cell variability at each dose, constituting the major source of extrinsic noise in coupling activity to downstream gene-expression responses. Additionally, we found diverse spatial MAPK activity patterns to emerge over time in cells undergoing default, gradient, and true mating responses. Furthermore, ramping up and rapid loss of activity were closely associated with zygote formation in mating-cell pairs, supporting a role for elevated MAPK activity in successful cell fusion and morphogenic reorganization. Altogether, these findings present a detailed view of spatiotemporal MAPK activity during the pheromone response, elucidating its role in mediating complex longterm developmental fates in a unicellular differentiation system. cell signaling | MAPK dynamics | Fus3 | mating pathway | yeast

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Scp160-Dependent mRNA Trafficking Mediates Pheromone Gradient Sensing and Chemotropism in Yeast

et al. 2012

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SUMMARY mRNAs encoding polarity and secretion factors (POLs) target the incipient bud site in yeast for localized translation during division. In pheromone-treated cells, we now find that these mRNAs are also localized to the shmoo tip. However, in contrast to the budding program, neither the She2 nor She3 proteins are involved. Instead, the Scp160 RNA-binding protein binds POL and mating pathway mRNAs and regulates their spatial distribution in a Myo4- and cortical ER-dependent fashion. RNA-binding by Scp160 is stimulated by activation of Gpa1, the G-protein α-subunit regulated by the pheromone receptor, and is required for pheromone gradient sensing, as well as subsequent chemotropic growth and cell-cell mating. These effects are incurred independently of obvious changes in translation, thus, mRNA trafficking is required for chemotropism and completion of the mating program. This is the first demonstration of ligand-activated RNA targeting in the development of a simple eukaryote.

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Rita Gelin-Licht

mRNAs Encoding Polarity and Exocytosis Factors Are Cotransported with the Cortical Endoplasmic Reticulum to the Incipient Bud in Saccharomyces cerevisiae

Different Domains of the UBL-UBA Ubiquitin Receptor, Ddi1/Vsm1, Are Involved in Its Multiple Cellular Roles

Localization of mRNAs coding for peroxisomal proteins in the yeast, Saccharomyces cerevisiae

Single-cell dynamics and variability of MAPK activity in a yeast differentiation pathway

Scp160-Dependent mRNA Trafficking Mediates Pheromone Gradient Sensing and Chemotropism in Yeast

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