Serial Regulation of Transcriptional Regulators in the Yeast Cell Cycle
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Nicola J. Rinaldi | John J. Wyrick | T. Jaakkola | I. Simon | J. Barnett | N. Hannett | C. T. Harbison | T. Volkert | J. Wyrick | J. Zeitlinger | D. Gifford | R. Young | Christopher T. Harbison | R. Young | R. Young
[1] L. Breeden,et al. Early Cell Cycle Box-Mediated Transcription ofCLN3 and SWI4 Contributes to the Proper Timing of the G1-to-S Transition in Budding Yeast , 2001, Molecular and Cellular Biology.
[2] D. Botstein,et al. Genomic binding sites of the yeast cell-cycle transcription factors SBF and MBF , 2001, Nature.
[3] Youyong Zhu,et al. Genetic diversity and disease control in rice , 2000, Nature.
[4] L. Breeden,et al. Cyclin transcription: Timing is everything , 2000, Current Biology.
[5] A. Shevchenko,et al. Forkhead transcription factors, Fkh1p and Fkh2p, collaborate with Mcm1p to control transcription required for M-phase , 2000, Current Biology.
[6] L. Johnston,et al. The forkhead protein Fkh2 is a component of the yeast cell cycle transcription factor SFF , 2000, The EMBO journal.
[7] Lukas Endler,et al. Forkhead-like transcription factors recruit Ndd1 to the chromatin of G2/M-specific promoters , 2000, Nature.
[8] D. Botstein,et al. Two yeast forkhead genes regulate the cell cycle and pseudohyphal growth , 2000, Nature.
[9] Peter C. Hollenhorst,et al. Forkhead genes in transcriptional silencing, cell morphology and the cell cycle. Overlapping and distinct functions for FKH1 and FKH2 in Saccharomyces cerevisiae. , 2000, Genetics.
[10] James R. Knight,et al. A comprehensive analysis of protein–protein interactions in Saccharomyces cerevisiae , 2000, Nature.
[11] P. Nurse. A Long Twentieth Century of the Cell Cycle and Beyond , 2000, Cell.
[12] John J. Wyrick,et al. Genome-wide location and function of DNA binding proteins. , 2000, Science.
[13] Kei-Hoi Cheung,et al. Large-scale analysis of the yeast genome by transposon tagging and gene disruption , 1999, Nature.
[14] Attila Tóth,et al. APCCdc20 promotes exit from mitosis by destroying the anaphase inhibitor Pds1 and cyclin Clb5 , 1999, Nature.
[15] I. Herskowitz,et al. Genetic and biochemical characterization of the yeast spo12 protein. , 1999, Molecular biology of the cell.
[16] D. Stillman,et al. Distinct Regions of the Swi5 and Ace2 Transcription Factors Are Required for Specific Gene Activation* , 1999, The Journal of Biological Chemistry.
[17] G. Church,et al. Systematic determination of genetic network architecture , 1999, Nature Genetics.
[18] David Lydall,et al. NDD1, a High-Dosage Suppressor ofcdc28-1N, Is Essential for Expression of a Subset of Late-S-Phase-Specific Genes in Saccharomyces cerevisiae , 1999, Molecular and Cellular Biology.
[19] K. Nasmyth,et al. Ordered recruitment of transcription and chromatin remodeling factors to a cell cycle- and developmentally regulated promoter. , 1999, Cell.
[20] M. Tyers,et al. The phosphatase Cdc14 triggers mitotic exit by reversal of Cdk-dependent phosphorylation. , 1998, Molecular cell.
[21] M. Mendenhall,et al. Regulation of Cdc28 Cyclin-Dependent Protein Kinase Activity during the Cell Cycle of the Yeast Saccharomyces cerevisiae , 1998, Microbiology and Molecular Biology Reviews.
[22] Michael Ruogu Zhang,et al. Comprehensive identification of cell cycle-regulated genes of the yeast Saccharomyces cerevisiae by microarray hybridization. , 1998, Molecular biology of the cell.
[23] D O Morgan,et al. A late mitotic regulatory network controlling cyclin destruction in Saccharomyces cerevisiae. , 1998, Molecular biology of the cell.
[24] Ronald W. Davis,et al. A genome-wide transcriptional analysis of the mitotic cell cycle. , 1998, Molecular cell.
[25] S. Prinz,et al. CDC20 and CDH1: a family of substrate-specific activators of APC-dependent proteolysis. , 1997, Science.
[26] L. Breeden,et al. A novel Mcm1-dependent element in the SWI4, CLN3, CDC6, and CDC47 promoters activates M/G1-specific transcription. , 1997, Genes & development.
[27] L. Breeden,et al. Cell Cycle-dependent Transcription of CLN1 Involves Swi4 Binding to MCB-like Elements* , 1997, The Journal of Biological Chemistry.
[28] D O Morgan,et al. Cyclin-dependent kinases: engines, clocks, and microprocessors. , 1997, Annual review of cell and developmental biology.
[29] L. Johnston,et al. The Swi5 transcription factor of Saccharomyces cerevisiae has a role in exit from mitosis through induction of the cdk-inhibitor Sic1 in telophase. , 1997, Genetics.
[30] Marc W. Kirschner,et al. How Proteolysis Drives the Cell Cycle , 1996, Science.
[31] K. Nasmyth. At the heart of the budding yeast cell cycle. , 1996, Trends in genetics : TIG.
[32] K Nasmyth,et al. The transcription factor Swi5 regulates expression of the cyclin kinase inhibitor p40SIC1 , 1996, Molecular and cellular biology.
[33] L. Johnston,et al. Coordinated regulation of gene expression by the cell cycle transcription factor Swi4 and the protein kinase C MAP kinase pathway for yeast cell integrity. , 1996, The EMBO journal.
[34] F. Cross,et al. Ste12 and Mcm1 regulate cell cycle-dependent transcription of FAR1 , 1996, Molecular and cellular biology.
[35] K Nasmyth,et al. Switching transcription on and off during the yeast cell cycle: Cln/Cdc28 kinases activate bound transcription factor SBF (Swi4/Swi6) at start, whereas Clb/Cdc28 kinases displace it from the promoter in G2. , 1996, Genes & development.
[36] L. Johnston,et al. Rme1, a negative regulator of meiosis, is also a positive activator of G1 cyclin gene expression. , 1995, The EMBO journal.
[37] A. Nordheim,et al. Mcm1 is required to coordinate G2-specific transcription in Saccharomyces cerevisiae , 1995, Molecular and cellular biology.
[38] L. Dirick,et al. Roles and regulation of Cln‐Cdc28 kinases at the start of the cell cycle of Saccharomyces cerevisiae. , 1995, The EMBO journal.
[39] K Nasmyth,et al. Cdc6 is an unstable protein whose de novo synthesis in G1 is important for the onset of S phase and for preventing a ‘reductional’ anaphase in the budding yeast Saccharomyces cerevisiae. , 1995, The EMBO journal.
[40] K. Nasmyth,et al. Cell cycle regulated transcription in yeast. , 1994, Current opinion in cell biology.
[41] M. Kuo,et al. A library of yeast genomic MCM1 binding sites contains genes involved in cell cycle control, cell wall and membrane structure, and metabolism , 1994, Molecular and cellular biology.
[42] Mike Tyers,et al. Mechanisms that help the yeast cell cycle clock tick: G2 cyclins transcriptionally activate G2 cyclins and repress G1 cyclins , 1993, Cell.
[43] K. Nasmyth,et al. A role for the transcription factors Mbp1 and Swi4 in progression from G1 to S phase. , 1993, Science.
[44] K Nasmyth,et al. CLB5 and CLB6, a new pair of B cyclins involved in DNA replication in Saccharomyces cerevisiae. , 1993, Genes & development.
[45] L. Breeden,et al. Multiple SWI6-dependent cis-acting elements control SWI4 transcription through the cell cycle , 1993, Molecular and cellular biology.
[46] Kim Nasmyth,et al. A central role for SWI6 in modulating cell cycle Start-specific transcription in yeast , 1992, Nature.
[47] K. Nasmyth,et al. A new role for MCM1 in yeast: cell cycle regulation of SW15 transcription. , 1991, Genes & development.
[48] Brenda J. Andrews,et al. Transcriptional activation of CLN1, CLN2, and a putative new G1 cyclin (HCS26) by SWI4, a positive regulator of G1-specific transcription , 1991, Cell.
[49] Kim Nasmyth,et al. The role of SWI4 and SWI6 in the activity of G1 cyclins in yeast , 1991, Cell.
[50] A. Patapoutian,et al. Identification and purification of a factor that binds to the Mlu I cell cycle box of yeast DNA replication genes. , 1991, Proceedings of the National Academy of Sciences of the United States of America.
[51] C. Gordon,et al. A cell cycle-responsive transcriptional control element and a negative control element in the gene encoding DNA polymerase alpha in Saccharomyces cerevisiae. , 1991, Proceedings of the National Academy of Sciences of the United States of America.
[52] Uttam Surana,et al. The role of CDC28 and cyclins during mitosis in the budding yeast S. cerevisiae , 1991, Cell.
[53] L. Johnston,et al. Coordination of expression of DNA synthesis genes in budding yeast by a cell-cycle regulated trans factor , 1991, Nature.
[54] David Lydall,et al. The identification of a second cell cycle control on the HO promoter in yeast: Cell cycle regulation of SWI5 nuclear entry , 1990, Cell.
[55] G. Lucchini,et al. DNA polymerase I gene of Saccharomyces cerevisiae: nucleotide sequence, mapping of a temperature-sensitive mutation, and protein homology with other DNA polymerases. , 1988, Proceedings of the National Academy of Sciences of the United States of America.