FUS3/YBL016W Literature Guide 
Other names published for FUS3: DAC2, YBL016W
FUS3 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
FUS3 - Genetic Interactions (40)
| Reference | Other Genes Addressed |
|---|---|
| Hao N, et al. (2012) Combined computational and experimental analysis reveals mitogen-activated protein kinase-mediated feedback phosphorylation as a mechanism for signaling specificity. Mol Biol Cell 23(19):3899-910 |
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| Kim J and Rose MD (2012) A mechanism for the coordination of proliferation and differentiation by spatial regulation of Fus2p in budding yeast. Genes Dev 26(10):1110-21 |
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| Schmidt M, et al. (2012) Role of Hog1, Tps1 and Sod1 in boric acid tolerance of Saccharomyces cerevisiae. Microbiology 158(Pt 10):2667-78 |
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| Bruckner S, et al. (2011) The TEA transcription factor Tec1 links TOR and MAPK pathways to coordinate yeast development. Genetics 189(2):479-94 |
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| Wang X, et al. (2011) Ste11p MEKK signals through HOG, mating, calcineurin and PKC pathways to regulate the FKS2 gene. BMC Mol Biol 12(1):51 |
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| Chen RE and Thorner J (2010) Systematic Epistasis Analysis of the Contributions of Protein Kinase A- and Mitogen-Activated Protein Kinase-Dependent Signaling to Nutrient Limitation-Evoked Responses in the Yeast Saccharomyces cerevisiae. Genetics 185(3):855-70 |
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| Chen RE, et al. (2010) Dynamic localization of fus3 mitogen-activated protein kinase is necessary to evoke appropriate responses and avoid cytotoxic effects. Mol Cell Biol 30(17):4293-307 |
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| Louw C, et al. (2010) Regulation of endo-polygalacturonase activity in Saccharomyces cerevisiae. FEMS Yeast Res 10(1):44-57 |
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| Patterson JC, et al. (2010) Single-cell analysis reveals that insulation maintains signaling specificity between two yeast MAPK pathways with common components. Sci Signal 3(144):ra75 |
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| Yamamoto K, et al. (2010) Dynamic control of yeast MAP kinase network by induced association and dissociation between the Ste50 scaffold and the Opy2 membrane anchor. Mol Cell 40(1):87-98 |
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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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| Macia J, et al. (2009) Dynamic signaling in the Hog1 MAPK pathway relies on high basal signal transduction. Sci Signal 2(63):ra13 |
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| Yang HY, et al. (2009) Glycosylation defects activate filamentous growth Kss1 MAPK and inhibit osmoregulatory Hog1 MAPK. EMBO J 28(10):1380-91 |
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| Bharucha N, et al. (2008) Analysis of the Yeast Kinome Reveals a Network of Regulated Protein Localization during Filamentous Growth. Mol Biol Cell 19(7):2708-17 |
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| Wu X and Jiang YW (2008) Overproduction of non-translatable mRNA silences. The transcription of Ty1 retrotransposons in S. cerevisiae via functional inactivation of the nuclear cap-binding complex and subsequent hyperstimulation of the TORC1 pathway. Yeast 25(5):327-47 |
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| Yu L, et al. (2008) Counteractive Control of Polarized Morphogenesis during Mating by Mitogen-activated Protein Kinase Fus3 and G1 Cyclin-dependent Kinase. Mol Biol Cell 19(4):1739-52 |
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| Yu RC, et al. (2008) Negative feedback that improves information transmission in yeast signalling. Nature 456(7223):755-61 |
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| Curcio MJ, et al. (2007) S-phase checkpoint pathways stimulate the mobility of the retrovirus-like transposon Ty1. Mol Cell Biol 27(24):8874-85 |
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| Frydlova I, et al. (2007) Special type of pheromone-induced invasive growth in Saccharomyces cerevisiae. Curr Genet 52(2):87-95 |
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| Schwartz MA and Madhani HD (2006) Control of MAPK signaling specificity by a conserved residue in the MEK-binding domain of the yeast scaffold protein Ste5. Curr Genet 49(6):351-63 |
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| Bao MZ, et al. (2004) Pheromone-dependent destruction of the Tec1 transcription factor is required for MAP kinase signaling specificity in yeast. Cell 119(7):991-1000 |
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| Guldener U, et al. (2004) Characterization of the Saccharomyces cerevisiae Fol1 protein: starvation for C1 carrier induces pseudohyphal growth. Mol Biol Cell 15(8):3811-28 |
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| Staleva L, et al. (2004) Oxidative stress activates FUS1 and RLM1 transcription in the yeast Saccharomyces cerevisiae in an oxidant-dependent Manner. Mol Biol Cell 15(12):5574-82 |
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| Cherkasova VA, et al. (2003) A novel functional link between MAP kinase cascades and the Ras/cAMP pathway that regulates survival. Curr Biol 13(14):1220-6 |
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| Yoon S, et al. (2003) Yersinia effector YopJ inhibits yeast MAPK signaling pathways by an evolutionarily conserved mechanism. J Biol Chem 278(4):2131-5 |
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| Zeitlinger J, et al. (2003) Program-specific distribution of a transcription factor dependent on partner transcription factor and MAPK signaling. Cell 113(3):395-404 |
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| Chen J, et al. (2002) A conserved mitogen-activated protein kinase pathway is required for mating in Candida albicans. Mol Microbiol 46(5):1335-44 |
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| Morillon A, et al. (2001) Strains isogenic to S288C used in the yeast genome sequencing programme carry a functional KSS1 gene. Curr Genet 39(5-6):291-6 |
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| Chen J, et al. (2000) CEK2, a Novel MAPK from Candida albicans Complement the Mating Defect of fus3/kss1 Mutant. Sheng Wu Hua Xue Yu Sheng Wu Wu Li Xue Bao (Shanghai) 32(3):299-304 |
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| Conte D Jr and Curcio MJ (2000) Fus3 controls Ty1 transpositional dormancy through the invasive growth MAPK pathway. Mol Microbiol 35(2):415-27 |
