CBF1/YJR060W Literature Guide 
Other names published for CBF1: CEP1, CPF1, CP1, YJR060W
CBF1 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
CBF1 - Regulatory Role (32)
| Reference | Other Genes Addressed |
|---|---|
| Carrillo E, et al. (2012) Characterizing the roles of Met31 and Met32 in coordinating Met4-activated transcription in the absence of Met30. Mol Biol Cell 23(10):1928-42 |
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| Geijer C, et al. (2012) Time course gene expression profiling of yeast spore germination reveals a network of transcription factors orchestrating the global response. BMC Genomics 13(1):554 |
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| Vinh NX, et al. (2012) Issues impacting genetic network reverse engineering algorithm validation using small networks. Biochim Biophys Acta 1824(12):1434-41 |
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| Carreto L, et al. (2011) Expression variability of co-regulated genes differentiates Saccharomyces cerevisiae strains. BMC Genomics 12(1):201 |
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| Siggers T, et al. (2011) Non-DNA-binding cofactors enhance DNA-binding specificity of a transcriptional regulatory complex. Mol Syst Biol 7():555 |
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| Zhou X and O'Shea EK (2011) Integrated Approaches Reveal Determinants of Genome-wide Binding and Function of the Transcription Factor Pho4. Mol Cell 42(6):826-36 |
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| Cormier L, et al. (2010) Transcriptional plasticity through differential assembly of a multiprotein activation complex. Nucleic Acids Res 38(15):4998-5014 |
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| Lavoie H, et al. (2010) Evolutionary tinkering with conserved components of a transcriptional regulatory network. PLoS Biol 8(3):e1000329 |
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| Shetty A and Lopes JM (2010) Derepression of INO1 Transcription Requires Cooperation between the Ino2p-Ino4p Heterodimer and Cbf1p and Recruitment of the ISW2 Chromatin-Remodeling Complex. Eukaryot Cell 9(12):1845-55 |
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| Venkataram S and Fay JC (2010) Is transcription factor binding site turnover a sufficient explanation for cis-regulatory sequence divergence? Genome Biol Evol 2():851-8 |
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| Gertz J and Cohen BA (2009) Environment-specific combinatorial cis-regulation in synthetic promoters. Mol Syst Biol 5:244 |
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| Moxley JF, et al. (2009) Linking high-resolution metabolic flux phenotypes and transcriptional regulation in yeast modulated by the global regulator Gcn4p. Proc Natl Acad Sci U S A 106(16):6477-82 |
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| Wang Y, et al. (2009) Predicting eukaryotic transcriptional cooperativity by Bayesian network integration of genome-wide data. Nucleic Acids Res 37(18):5943-58 |
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| Zhao Y, et al. (2008) Development of a Novel Oligonucleotide Array-Based Transcription Factor Assay Platform for Genome-Wide Active Transcription Factor Profiling in Saccharomyces cerevisiae. J Proteome Res 7(3):1315-1325 |
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| Chen M and Lopes JM (2007) Multiple Basic Helix-Loop-Helix Proteins Regulate Expression of the ENO1 Gene of Saccharomyces cerevisiae. Eukaryot Cell 6(5):786-96 |
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| Elemento O, et al. (2007) A Universal Framework for Regulatory Element Discovery across All Genomes and Data Types. Mol Cell 28(2):337-50 |
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| Ernst J, et al. (2007) Reconstructing dynamic regulatory maps. Mol Syst Biol 3():74 |
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| Maerkl SJ and Quake SR (2007) A systems approach to measuring the binding energy landscapes of transcription factors. Science 315(5809):233-7 |
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| Hart CE, et al. (2006) Connectivity in the yeast cell cycle transcription network: inferences from neural networks. PLoS Comput Biol 2(12):e169 |
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| Kundaje A, et al. (2006) A classification-based framework for predicting and analyzing gene regulatory response. BMC Bioinformatics 7 Suppl 1():S5 |
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| Yu H and Gerstein M (2006) Genomic analysis of the hierarchical structure of regulatory networks. Proc Natl Acad Sci U S A 103(40):14724-31 |
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| Yu T and Li KC (2005) Inference of transcriptional regulatory network by two-stage constrained space factor analysis. Bioinformatics 21(21):4033-8 |
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| Kolaczkowski M, et al. (2004) Differential regulation of ceramide synthase components LAC1 and LAG1 in Saccharomyces cerevisiae. Eukaryot Cell 3(4):880-92 |
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| Luscombe NM, et al. (2004) Genomic analysis of regulatory network dynamics reveals large topological changes. Nature 431(7006):308-12 |
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| Moreau JL, et al. (2003) Regulated displacement of TBP from the PHO8 promoter in vivo requires Cbf1 and the Isw1 chromatin remodeling complex. Mol Cell 11(6):1609-20 |
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| Dormer UH, et al. (2000) Cadmium-inducible expression of the yeast GSH1 gene requires a functional sulfur-amino acid regulatory network. J Biol Chem 275(42):32611-6 |
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| Kaiser P, et al. (2000) Regulation of transcription by ubiquitination without proteolysis: Cdc34/SCF(Met30)-mediated inactivation of the transcription factor Met4. Cell 102(3):303-14 |
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| Blaiseau PL and Thomas D (1998) Multiple transcriptional activation complexes tether the yeast activator Met4 to DNA. EMBO J 17(21):6327-36 |
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| Kuras L, et al. (1996) A heteromeric complex containing the centromere binding factor 1 and two basic leucine zipper factors, Met4 and Met28, mediates the transcription activation of yeast sulfur metabolism. EMBO J 15(10):2519-29 |
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| Machin NA, et al. (1996) Dosage suppressors of a benomyl-dependent tubulin mutant: evidence for a link between microtubule stability and cellular metabolism. Genetics 144(4):1363-73 |
