STE20/YHL007C Literature Guide 
Other names published for STE20: YHL007C
STE20 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
STE20 - Omics (45)
| Reference | Other Genes Addressed |
|---|---|
| Hu J, et al. (2013) Global analysis of phosphorylation networks in humans. Biochim Biophys Acta () |
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| Huang EL, et al. (2012) The temporal analysis of yeast exponential phase using shotgun proteomics as a fermentation monitoring technique. J Proteomics 75(17):5206-14 |
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| Navlakha S, et al. (2012) A Network-based Approach for Predicting Missing Pathway Interactions. PLoS Comput Biol 8(8):e1002640 |
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| Nijkamp JF, et al. (2012) De novo sequencing, assembly and analysis of the genome of the laboratory strain Saccharomyces cerevisiae CEN.PK113-7D, a model for modern industrial biotechnology. Microb Cell Fact 11(1):36 |
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| Pultz D, et al. (2012) Global mapping of protein phosphorylation events identifies Ste20, Sch9 and the cell-cycle regulatory kinases Cdc28/Pho85 as mediators of fatty acid starvation responses in Saccharomyces cerevisiae. Mol Biosyst 8(3):796-803 |
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| Stojmirovic A and Yu YK (2012) Information flow in interaction networks II: channels, path lengths, and potentials. J Comput Biol 19(4):379-403 |
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| Wang L, et al. (2012) Integrating phosphorylation network with transcriptional network reveals novel functional relationships. PLoS One 7(3):e33160 |
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| Ellis JJ and Kobe B (2011) Predicting Protein Kinase Specificity: Predikin Update and Performance in the DREAM4 Challenge. PLoS One 6(7):e21169 |
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| Fasolo J, et al. (2011) Diverse protein kinase interactions identified by protein microarrays reveal novel connections between cellular processes. Genes Dev 25(7):767-78 |
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| Gao JT, et al. (2011) Modular coherence of protein dynamics in yeast cell polarity system. Proc Natl Acad Sci U S A 108(18):7647-52 |
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| Klipp E (2011) Computational Yeast Systems Biology: A Case Study for the MAP Kinase Cascade. Methods Mol Biol 759():323-43 |
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| Martin DC, et al. (2011) New Regulators of a High Affinity Ca2+ Influx System Revealed through a Genome-wide Screen in Yeast. J Biol Chem 286(12):10744-54 |
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| Thorne TW, et al. (2011) Prediction of putative protein interactions through evolutionary analysis of osmotic stress response in the model yeast Saccharomyces cerevisae. Fungal Genet Biol 48(5):504-11 |
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| Cappell SD, et al. (2010) Systematic analysis of essential genes reveals important regulators of G protein signaling. Mol Cell 38(5):746-57 |
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| Mok J, et al. (2010) Deciphering protein kinase specificity through large-scale analysis of yeast phosphorylation site motifs. Sci Signal 3(109):ra12 |
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| Wang YC and Chen BS (2010) Integrated cellular network of transcription regulations and protein-protein interactions. BMC Syst Biol 4():20 |
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| Yoon JH, et al. (2010) Dcp2 phosphorylation by Ste20 modulates stress granule assembly and mRNA decay in Saccharomyces cerevisiae. J Cell Biol 189(5):813-27 |
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| Annan RB, et al. (2009) A biochemical genomics screen for substrates of Ste20p kinase enables the in silico prediction of novel substrates. PLoS One 4(12):e8279 |
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| Fiedler D, et al. (2009) Functional organization of the S. cerevisiae phosphorylation network. Cell 136(5):952-63 |
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| Parmar JH, et al. (2009) A model-based study delineating the roles of the two signaling branches of Saccharomyces cerevisiae, Sho1 and Sln1, during adaptation to osmotic stress. Phys Biol 6(3):36019 |
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| Tan SX, et al. (2009) Cu, Zn superoxide dismutase and NADP(H) homeostasis are required for tolerance of endoplasmic reticulum stress in Saccharomyces cerevisiae. Mol Biol Cell 20(5):1493-508 |
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| Yoshikawa K, et al. (2009) Comprehensive phenotypic analysis for identification of genes affecting growth under ethanol stress in Saccharomyces cerevisiae. FEMS Yeast Res 9(1):32-44 |
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| Behar M, et al. (2008) Dose-to-duration encoding and signaling beyond saturation in intracellular signaling networks. PLoS Comput Biol 4(10):e1000197 |
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| Niu W, et al. (2008) Mechanisms of Cell Cycle Control Revealed by a Systematic and Quantitative Overexpression Screen in S. cerevisiae. PLoS Genet 4(7):e1000120 |
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| Zhao XM, et al. (2008) Uncovering signal transduction networks from high-throughput data by integer linear programming. Nucleic Acids Res 36(9):e48 |
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| de Godoy LM, et al. (2008) Comprehensive mass-spectrometry-based proteome quantification of haploid versus diploid yeast. Nature 455(7217):1251-4 |
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| Betel D, et al. (2007) Structure-templated predictions of novel protein interactions from sequence information. PLoS Comput Biol 3(9):1783-9 |
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| Chang EJ, et al. (2007) Prediction of cyclin-dependent kinase phosphorylation substrates. PLoS One 2(7):e656 |
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| Moses AM, et al. (2007) Clustering of phosphorylation site recognition motifs can be exploited to predict the targets of cyclin-dependent kinase. Genome Biol 8(2):R23 |
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| Brinkworth RI, et al. (2006) Protein kinases associated with the yeast phosphoproteome. BMC Bioinformatics 7():47 |
