A Systematic Analysis of Cell Cycle Regulators in Yeast Reveals That Most Factors Act Independently of Cell Size to Control Initiation of Division

Upstream events that trigger initiation of cell division, at a point called START in yeast, determine the overall rates of cell proliferation. The identity and complete sequence of those events remain unknown. Previous studies relied mainly on cell size changes to identify systematically genes requi...

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Autores principales: Hoose, Scott A., Rawlings, Jeremy A., Kelly, Michelle M., Leitch, M. Camille, Ababneh, Qotaiba O., Robles, Juan P., Taylor, David, Hoover, Evelyn M., Hailu, Bethel, McEnery, Kayla A., Downing, S. Sabina, Kaushal, Deepika, Chen, Yi, Rife, Alex, Brahmbhatt, Kirtan A., Smith, Roger, Polymenis, Michael
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3305459/
https://www.ncbi.nlm.nih.gov/pubmed/22438835
http://dx.doi.org/10.1371/journal.pgen.1002590
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author Hoose, Scott A.
Rawlings, Jeremy A.
Kelly, Michelle M.
Leitch, M. Camille
Ababneh, Qotaiba O.
Robles, Juan P.
Taylor, David
Hoover, Evelyn M.
Hailu, Bethel
McEnery, Kayla A.
Downing, S. Sabina
Kaushal, Deepika
Chen, Yi
Rife, Alex
Brahmbhatt, Kirtan A.
Smith, Roger
Polymenis, Michael
author_facet Hoose, Scott A.
Rawlings, Jeremy A.
Kelly, Michelle M.
Leitch, M. Camille
Ababneh, Qotaiba O.
Robles, Juan P.
Taylor, David
Hoover, Evelyn M.
Hailu, Bethel
McEnery, Kayla A.
Downing, S. Sabina
Kaushal, Deepika
Chen, Yi
Rife, Alex
Brahmbhatt, Kirtan A.
Smith, Roger
Polymenis, Michael
author_sort Hoose, Scott A.
collection PubMed
description Upstream events that trigger initiation of cell division, at a point called START in yeast, determine the overall rates of cell proliferation. The identity and complete sequence of those events remain unknown. Previous studies relied mainly on cell size changes to identify systematically genes required for the timely completion of START. Here, we evaluated panels of non-essential single gene deletion strains for altered DNA content by flow cytometry. This analysis revealed that most gene deletions that altered cell cycle progression did not change cell size. Our results highlight a strong requirement for ribosomal biogenesis and protein synthesis for initiation of cell division. We also identified numerous factors that have not been previously implicated in cell cycle control mechanisms. We found that CBS, which catalyzes the synthesis of cystathionine from serine and homocysteine, advances START in two ways: by promoting cell growth, which requires CBS's catalytic activity, and by a separate function, which does not require CBS's catalytic activity. CBS defects cause disease in humans, and in animals CBS has vital, non-catalytic, unknown roles. Hence, our results may be relevant for human biology. Taken together, these findings significantly expand the range of factors required for the timely initiation of cell division. The systematic identification of non-essential regulators of cell division we describe will be a valuable resource for analysis of cell cycle progression in yeast and other organisms.
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spelling pubmed-33054592012-03-21 A Systematic Analysis of Cell Cycle Regulators in Yeast Reveals That Most Factors Act Independently of Cell Size to Control Initiation of Division Hoose, Scott A. Rawlings, Jeremy A. Kelly, Michelle M. Leitch, M. Camille Ababneh, Qotaiba O. Robles, Juan P. Taylor, David Hoover, Evelyn M. Hailu, Bethel McEnery, Kayla A. Downing, S. Sabina Kaushal, Deepika Chen, Yi Rife, Alex Brahmbhatt, Kirtan A. Smith, Roger Polymenis, Michael PLoS Genet Research Article Upstream events that trigger initiation of cell division, at a point called START in yeast, determine the overall rates of cell proliferation. The identity and complete sequence of those events remain unknown. Previous studies relied mainly on cell size changes to identify systematically genes required for the timely completion of START. Here, we evaluated panels of non-essential single gene deletion strains for altered DNA content by flow cytometry. This analysis revealed that most gene deletions that altered cell cycle progression did not change cell size. Our results highlight a strong requirement for ribosomal biogenesis and protein synthesis for initiation of cell division. We also identified numerous factors that have not been previously implicated in cell cycle control mechanisms. We found that CBS, which catalyzes the synthesis of cystathionine from serine and homocysteine, advances START in two ways: by promoting cell growth, which requires CBS's catalytic activity, and by a separate function, which does not require CBS's catalytic activity. CBS defects cause disease in humans, and in animals CBS has vital, non-catalytic, unknown roles. Hence, our results may be relevant for human biology. Taken together, these findings significantly expand the range of factors required for the timely initiation of cell division. The systematic identification of non-essential regulators of cell division we describe will be a valuable resource for analysis of cell cycle progression in yeast and other organisms. Public Library of Science 2012-03-15 /pmc/articles/PMC3305459/ /pubmed/22438835 http://dx.doi.org/10.1371/journal.pgen.1002590 Text en Hoose et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Hoose, Scott A.
Rawlings, Jeremy A.
Kelly, Michelle M.
Leitch, M. Camille
Ababneh, Qotaiba O.
Robles, Juan P.
Taylor, David
Hoover, Evelyn M.
Hailu, Bethel
McEnery, Kayla A.
Downing, S. Sabina
Kaushal, Deepika
Chen, Yi
Rife, Alex
Brahmbhatt, Kirtan A.
Smith, Roger
Polymenis, Michael
A Systematic Analysis of Cell Cycle Regulators in Yeast Reveals That Most Factors Act Independently of Cell Size to Control Initiation of Division
title A Systematic Analysis of Cell Cycle Regulators in Yeast Reveals That Most Factors Act Independently of Cell Size to Control Initiation of Division
title_full A Systematic Analysis of Cell Cycle Regulators in Yeast Reveals That Most Factors Act Independently of Cell Size to Control Initiation of Division
title_fullStr A Systematic Analysis of Cell Cycle Regulators in Yeast Reveals That Most Factors Act Independently of Cell Size to Control Initiation of Division
title_full_unstemmed A Systematic Analysis of Cell Cycle Regulators in Yeast Reveals That Most Factors Act Independently of Cell Size to Control Initiation of Division
title_short A Systematic Analysis of Cell Cycle Regulators in Yeast Reveals That Most Factors Act Independently of Cell Size to Control Initiation of Division
title_sort systematic analysis of cell cycle regulators in yeast reveals that most factors act independently of cell size to control initiation of division
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3305459/
https://www.ncbi.nlm.nih.gov/pubmed/22438835
http://dx.doi.org/10.1371/journal.pgen.1002590
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