Global Analysis of the Genetic Network Controlling a Bacterial Cell Cycle
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- 15 December 2000
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 290 (5499), 2144-2148
- https://doi.org/10.1126/science.290.5499.2144
Abstract
This report presents full-genome evidence that bacterial cells use discrete transcription patterns to control cell cycle progression. Global transcription analysis of synchronizedCaulobacter crescentus cells was used to identify 553 genes (19% of the genome) whose messenger RNA levels varied as a function of the cell cycle. We conclude that in bacteria, as in yeast, (i) genes involved in a given cell function are activated at the time of execution of that function, (ii) genes encoding proteins that function in complexes are coexpressed, and (iii) temporal cascades of gene expression control multiprotein structure biogenesis. A single regulatory factor, the CtrA member of the two-component signal transduction family, is directly or indirectly involved in the control of 26% of the cell cycle–regulated genes.Keywords
This publication has 13 references indexed in Scilit:
- Identification and cell cycle control of a novel pilus system in Caulobacter crescentusThe EMBO Journal, 2000
- Differential Localization of Two Histidine Kinases Controlling Bacterial Cell DifferentiationMolecular Cell, 1999
- Feedback control of a master bacterial cell-cycle regulatorProceedings of the National Academy of Sciences, 1999
- Cell Cycle–Dependent Polar Localization of an Essential Bacterial Histidine Kinase that Controls DNA Replication and Cell DivisionCell, 1999
- Comprehensive Identification of Cell Cycle–regulated Genes of the YeastSaccharomyces cerevisiaeby Microarray HybridizationMolecular Biology of the Cell, 1998
- The extracytoplasmic function sigma factors: role and regulationMolecular Microbiology, 1998
- Negative control of bacterial DNA replication by a cell cycle regulatory protein that binds at the chromosome originProceedings of the National Academy of Sciences, 1998
- Cell Type-Specific Phosphorylation and Proteolysis of a Transcriptional Regulator Controls the G1-to-S Transition in a Bacterial Cell CycleCell, 1997
- Cell Cycle Control by an Essential Bacterial Two-Component Signal Transduction ProteinCell, 1996
- Role of Transcription in the Temporal Control of Development in Caulobacter crescentusProceedings of the National Academy of Sciences, 1972