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Transcriptional regulatory networks and the yeast cell cycle
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scholarly article
1 reference
stated in
Europe PubMed Central
PubMed ID
12473339
retrieved
5 August 2017
review article
1 reference
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Europe PubMed Central
title
Transcriptional regulatory networks and the yeast cell cycle
(English)
1 reference
stated in
Europe PubMed Central
PubMed ID
12473339
retrieved
5 August 2017
author name string
Bruce Futcher
series ordinal
1
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Europe PubMed Central
PubMed ID
12473339
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5 August 2017
language of work or name
English
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publication date
1 December 2002
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Europe PubMed Central
PubMed ID
12473339
retrieved
5 August 2017
published in
Current Opinion in Cell Biology
1 reference
stated in
Europe PubMed Central
PubMed ID
12473339
retrieved
5 August 2017
volume
14
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stated in
Europe PubMed Central
PubMed ID
12473339
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5 August 2017
page(s)
676-683
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Europe PubMed Central
PubMed ID
12473339
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5 August 2017
issue
6
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Europe PubMed Central
PubMed ID
12473339
retrieved
5 August 2017
cites work
Functional genomics as applied to mapping transcription regulatory networks
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Deciphering gene expression regulatory networks.
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CLN3, not positive feedback, determines the timing of CLN2 transcription in cycling cells
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Roles and regulation of Cln-Cdc28 kinases at the start of the cell cycle of Saccharomyces cerevisiae
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Comprehensive identification of cell cycle-regulated genes of the yeast Saccharomyces cerevisiae by microarray hybridization
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The B-type cyclin kinase inhibitor p40SIC1 controls the G1 to S transition in S. cerevisiae
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Linkage of replication to start by the Cdk inhibitor Sic1.
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The cyclin-dependent kinase inhibitor p40SIC1 imposes the requirement for Cln G1 cyclin function at Start
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Phosphorylation of Sic1p by G1 Cdk required for its degradation and entry into S phase
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Activity of the APC(Cdh1) form of the anaphase-promoting complex persists until S phase and prevents the premature expression of Cdc20p
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Mechanisms that help the yeast cell cycle clock tick: G2 cyclins transcriptionally activate G2 cyclins and repress G1 cyclins
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https://api.crossref.org/works/10.1016%2FS0955-0674%2802%2900391-5
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Forkhead-like transcription factors recruit Ndd1 to the chromatin of G2/M-specific promoters
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Forkhead transcription factors, Fkh1p and Fkh2p, collaborate with Mcm1p to control transcription required for M-phase
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The forkhead protein Fkh2 is a component of the yeast cell cycle transcription factor SFF.
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Genetic diversity and disease control in rice
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7 January 2021
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Mitotic exit: closing the gap
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7 January 2021
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Separase, polo kinase, the kinetochore protein Slk19, and Spo12 function in a network that controls Cdc14 localization during early anaphase
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Genomic binding sites of the yeast cell-cycle transcription factors SBF and MBF
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Genome-wide location and function of DNA binding proteins
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Serial regulation of transcriptional regulators in the yeast cell cycle
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Surveying Saccharomyces genomes to identify functional elements by comparative DNA sequence analysis.
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Systematic determination of genetic network architecture
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7 January 2021
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Computational identification of cis-regulatory elements associated with groups of functionally related genes in Saccharomyces cerevisiae
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7 January 2021
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Cluster analysis and display of genome-wide expression patterns
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Interpreting patterns of gene expression with self-organizing maps: methods and application to hematopoietic differentiation
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Coupled two-way clustering analysis of gene microarray data
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Revealing modular organization in the yeast transcriptional network.
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Histone H3 transcription in Saccharomyces cerevisiae is controlled by multiple cell cycle activation sites and a constitutive negative regulatory element
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https://api.crossref.org/works/10.1016%2FS0955-0674%2802%2900391-5
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7 January 2021
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Regulatory element detection using correlation with expression.
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https://api.crossref.org/works/10.1016%2FS0955-0674%2802%2900391-5
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7 January 2021
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Visualizing associations between genome sequences and gene expression data using genome-mean expression profiles
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Crossref
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https://api.crossref.org/works/10.1016%2FS0955-0674%2802%2900391-5
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7 January 2021
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cis element/transcription factor analysis (cis/TF): a method for discovering transcription factor/cis element relationships
1 reference
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https://api.crossref.org/works/10.1016%2FS0955-0674%2802%2900391-5
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7 January 2021
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Identifying regulatory networks by combinatorial analysis of promoter elements
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7 January 2021
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Identifying target sites for cooperatively binding factors
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7 January 2021
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Genome-wide analysis of clustered Dorsal binding sites identifies putative target genes in the Drosophila embryo
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https://api.crossref.org/works/10.1016%2FS0955-0674%2802%2900391-5
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7 January 2021
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Exploiting transcription factor binding site clustering to identify cis-regulatory modules involved in pattern formation in the Drosophila genome
1 reference
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reference URL
https://api.crossref.org/works/10.1016%2FS0955-0674%2802%2900391-5
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7 January 2021
based on heuristic
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Kinetic analysis of a molecular model of the budding yeast cell cycle
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7 January 2021
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Testing a mathematical model of the yeast cell cycle
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reference URL
https://api.crossref.org/works/10.1016%2FS0955-0674%2802%2900391-5
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7 January 2021
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A genome-wide transcriptional analysis of the mitotic cell cycle
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1016%2FS0955-0674%2802%2900391-5
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7 January 2021
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Identifiers
DOI
10.1016/S0955-0674(02)00391-5
1 reference
stated in
Europe PubMed Central
PubMed ID
12473339
retrieved
5 August 2017
PubMed ID
12473339
1 reference
stated in
Europe PubMed Central
PubMed ID
12473339
retrieved
5 August 2017
ResearchGate publication ID
10999262
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