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

Rita Gelin-Licht; Saurabh Paliwal; Patrick Conlon; Andre Levchenko; Jeffrey Gerst

doi:10.1016/j.celrep.2012.03.004

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

Rita Gelin-Licht, Saurabh Paliwal, Patrick Conlon, Andre Levchenko, Jeffrey Gerst

Department of Molecular Genetics

Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

Abstract

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 yeast-mating projection (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, to our knowledge, the first demonstration of ligand-activated RNA targeting in the development of a simple eukaryote.

Original language	English
Pages (from-to)	483-494
Number of pages	12
Journal	Cell Reports
Volume	1
Issue number	5
DOIs	https://doi.org/10.1016/j.celrep.2012.03.004
State	Published - 31 May 2012

All Science Journal Classification (ASJC) codes

General Biochemistry,Genetics and Molecular Biology

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10.1016/j.celrep.2012.03.004License: CC BY-NC-ND

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title = "Scp160-Dependent mRNA Trafficking Mediates Pheromone Gradient Sensing and Chemotropism in Yeast",

abstract = "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 yeast-mating projection (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, to our knowledge, the first demonstration of ligand-activated RNA targeting in the development of a simple eukaryote.",

author = "Rita Gelin-Licht and Saurabh Paliwal and Patrick Conlon and Andre Levchenko and Jeffrey Gerst",

note = "Minerva Foundation, Germany; Y. Leon Benoziyo Foundation for Molecular Medicine; Weizmann Institute of Science; NIH [GM084332, RR020839]; Euveda Biosciences, Inc.We thank H. Dohlman, J. Fridovich-Keil, M. Schuldiner, and P. Takizawa for strains and other reagents; and L. Haim-Vilmovsky, R. Herbst, and G. Zipor for plasmid construction. This work was supported by grants to J. E. G. from the Minerva Foundation, Germany, and Y. Leon Benoziyo Foundation for Molecular Medicine, Weizmann Institute of Science; and by NIH Grants GM084332 and RR020839 to A. L. J. E. G. holds the Besen-Brender Chair in Microbiology and Parasitology, Weizmann Institute of Science. S. P. is an employee of Euveda Biosciences, Inc., and both S. P. and A. L. are cofounders of said company; this work, however, was not funded by Euveda Biosciences, Inc.",

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doi = "10.1016/j.celrep.2012.03.004",

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AU - Gelin-Licht, Rita

AU - Paliwal, Saurabh

AU - Conlon, Patrick

AU - Levchenko, Andre

AU - Gerst, Jeffrey

N1 - Minerva Foundation, Germany; Y. Leon Benoziyo Foundation for Molecular Medicine; Weizmann Institute of Science; NIH [GM084332, RR020839]; Euveda Biosciences, Inc.We thank H. Dohlman, J. Fridovich-Keil, M. Schuldiner, and P. Takizawa for strains and other reagents; and L. Haim-Vilmovsky, R. Herbst, and G. Zipor for plasmid construction. This work was supported by grants to J. E. G. from the Minerva Foundation, Germany, and Y. Leon Benoziyo Foundation for Molecular Medicine, Weizmann Institute of Science; and by NIH Grants GM084332 and RR020839 to A. L. J. E. G. holds the Besen-Brender Chair in Microbiology and Parasitology, Weizmann Institute of Science. S. P. is an employee of Euveda Biosciences, Inc., and both S. P. and A. L. are cofounders of said company; this work, however, was not funded by Euveda Biosciences, Inc.

PY - 2012/5/31

Y1 - 2012/5/31

N2 - 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 yeast-mating projection (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, to our knowledge, the first demonstration of ligand-activated RNA targeting in the development of a simple eukaryote.

AB - 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 yeast-mating projection (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, to our knowledge, the first demonstration of ligand-activated RNA targeting in the development of a simple eukaryote.

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DO - 10.1016/j.celrep.2012.03.004

M3 - مقالة

SN - 2211-1247

VL - 1

SP - 483

EP - 494

JO - Cell Reports

JF - Cell Reports

IS - 5

ER -

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

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