PMID: 11934615Apr 6, 2002Paper

Bud-site selection and cell polarity in budding yeast

Current Opinion in Microbiology
Antonio Casamayor, M Snyder

Abstract

Polarized growth involves a hierarchy of events such as selection of the growth site, polarization of the cytoskeleton to the selected growth site, and transport of secretory vesicles containing components required for growth. The budding yeast Saccharomyces cerevisiae is an excellent model system for the study of polarized cell growth. A large number of proteins have been found to be involved in these processes, although their mechanisms of action are not yet well-understood. Recent discoveries have helped elucidate many of the processes involved in cell polarity and bud-site selection in yeast and have modified the traditional view of cellular structures involved in these processes. This review focuses on recent advances on the roles of cortical tags, GTPases and the cytoskeleton in the generation and maintenance of cell polarity in yeast.

References

Apr 1, 1989·The Journal of Cell Biology·M Snyder
Dec 1, 1989·Proceedings of the National Academy of Sciences of the United States of America·A Bender, J R Pringle
May 1, 1995·The Journal of Cell Biology·J Chant, J R Pringle
May 1, 1995·The Journal of Cell Biology·J ChantJ R Pringle
Jul 1, 1993·The Journal of Cell Biology·E G FlescherM Snyder
Apr 29, 1997·Proceedings of the National Academy of Sciences of the United States of America·H O ParkI Herskowitz
Apr 1, 1997·Molecular Biology of the Cell·F P Finger, P Novick
Nov 13, 1998·The Journal of Cell Biology·C W CarrollD Kellogg
May 14, 1999·Current Biology : CB·D WinterR Li
Jan 29, 2000·The Journal of Cell Biology·T LechlerR Li
Feb 26, 2000·Molecular Biology of the Cell·H Jin, D C Amberg
Jan 3, 2001·The Journal of Cell Biology·M LordJ Chant

❮ Previous
Next ❯

Citations

Mar 29, 2011·Environmental Monitoring and Assessment·Narges Zaredar, Mir Masoud Kheirkhah Zarkesh
Aug 2, 2003·Current Opinion in Cell Biology·Elias T Spiliotis, W James Nelson
Oct 2, 2003·Current Opinion in Cell Biology·Masaki FukataKozo Kaibuchi
Jul 31, 2003·Trends in Cell Biology·Mark S Longtine, Erfei Bi
Dec 19, 2009·Cell Death and Differentiation·J E LeadshamC W Gourlay
Dec 17, 2004·Biology of the Cell·Graydon B GonsalvezRoy M Long
Apr 20, 2011·Proceedings of the National Academy of Sciences of the United States of America·Juntao Tony GaoRong Li
Apr 7, 2009·Medical Mycology·Verónica Veses, Neil A R Gow
Sep 26, 2013·The Journal of Cell Biology·Sarah E SmithRong Li
Aug 26, 2003·Molecular Biology of the Cell·Philipp KnechtlePeter Philippsen
Jul 30, 2004·Molecular Biology of the Cell·Yasmina BauerPeter Philippsen
Feb 11, 2012·Molecular Biology of the Cell·Casey A YdenbergMark D Rose
May 25, 2010·TheScientificWorldJournal·Mahasin Osman
Jan 13, 2010·Cold Spring Harbor Perspectives in Biology·Brian D SlaughterRong Li
Jun 11, 2005·Eukaryotic Cell·Warren P VothDavid J Stillman
Sep 10, 2005·Eukaryotic Cell·Lois M DouglasJames B Konopka
Oct 4, 2005·Journal of Bacteriology·Janine R Maddock
Jan 13, 2010·Molecular and Cellular Biology·Jaewon ShimYoung-Joon Kim
Sep 9, 2006·Microbiology and Molecular Biology Reviews : MMBR·James B Moseley, Bruce L Goode
Oct 12, 2004·Annual Review of Cell and Developmental Biology·David PruyneAnthony Bretscher
May 18, 2007·Annual Review of Microbiology·Malcolm Whiteway, Catherine Bachewich
May 15, 2010·Cell Division·Jorrit M Enserink, Richard D Kolodner
Mar 1, 2012·PloS One·Smita AmarnathVidyanand Nanjundiah
Jun 12, 2014·PloS One·Cecilia Garmendia-TorresAimée M Dudley
Oct 23, 2013·Proceedings of the National Academy of Sciences of the United States of America·Bart OudJean-Marc Daran
Jul 16, 2011·Molecular Biology of the Cell·Sonja Helene FrieserMichael Bölker
Jan 21, 2015·Current Biology : CB·Joshua B KelleyHenrik G Dohlman
Dec 19, 2012·Trends in Neurosciences·Jakub K Famulski, David J Solecki
Jan 27, 2009·Current Opinion in Cell Biology·Matthew D Onsum, Christopher V Rao
Oct 5, 2007·Biochimica Et Biophysica Acta·Morihisa Fujita, Yoshifumi Jigami

❮ Previous
Next ❯

Related Concepts

Related Feeds

CZI Human Cell Atlas Seed Network

The aim of the Human Cell Atlas (HCA) is to build reference maps of all human cells in order to enhance our understanding of health and disease. The Seed Networks for the HCA project aims to bring together collaborators with different areas of expertise in order to facilitate the development of the HCA. Find the latest research from members of the HCA Seed Networks here.