Cell biology: Logic of the yeast metabolic cycle: Temporal compartmentalization of cellular processes

Benjamin P. Tu; Andrzej Kudlicki; Maga Rowicka; Steven L. McKnight

doi:10.1126/science.1120499

Cell biology: Logic of the yeast metabolic cycle: Temporal compartmentalization of cellular processes

Benjamin P. Tu, Andrzej Kudlicki, Maga Rowicka, Steven L. McKnight

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731 Scopus citations

Abstract

Budding yeast grown under continuous, nutrient-limited conditions exhibit robust, highly periodic cycles in the form of respiratory bursts. Microarray studies reveal that over half of the yeast genome is expressed periodically during these metabolic cycles. Genes encoding proteins having a common function exhibit similar temporal expression patterns, and genes specifying functions associated with energy and metabolism tend to be expressed with exceptionally robust periodicity. Essential cellular and metabolic events occur in synchrony with the metabolic cycle, demonstrating that key processes in a simple eukaryotic cell are compartmentalized in time.

Original language	English (US)
Pages (from-to)	1152-1158
Number of pages	7
Journal	Science
Volume	310
Issue number	5751
DOIs	https://doi.org/10.1126/science.1120499
State	Published - Nov 18 2005

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abstract = "Budding yeast grown under continuous, nutrient-limited conditions exhibit robust, highly periodic cycles in the form of respiratory bursts. Microarray studies reveal that over half of the yeast genome is expressed periodically during these metabolic cycles. Genes encoding proteins having a common function exhibit similar temporal expression patterns, and genes specifying functions associated with energy and metabolism tend to be expressed with exceptionally robust periodicity. Essential cellular and metabolic events occur in synchrony with the metabolic cycle, demonstrating that key processes in a simple eukaryotic cell are compartmentalized in time.",

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AB - Budding yeast grown under continuous, nutrient-limited conditions exhibit robust, highly periodic cycles in the form of respiratory bursts. Microarray studies reveal that over half of the yeast genome is expressed periodically during these metabolic cycles. Genes encoding proteins having a common function exhibit similar temporal expression patterns, and genes specifying functions associated with energy and metabolism tend to be expressed with exceptionally robust periodicity. Essential cellular and metabolic events occur in synchrony with the metabolic cycle, demonstrating that key processes in a simple eukaryotic cell are compartmentalized in time.

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Cell biology: Logic of the yeast metabolic cycle: Temporal compartmentalization of cellular processes

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