ZAP1/YJL056C Literature Guide 
Other names published for ZAP1: ZRG10, YJL056C
ZAP1 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Other Features
- Strains/Constructs
- Techniques and Reagents
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
ZAP1 - Strains/Constructs (37)
| Reference | Other Genes Addressed |
|---|---|
| Lin L, et al. (2012) Analysis of Gal4-directed transcription activation using Tra1 mutants selectively defective for interaction with Gal4. Proc Natl Acad Sci U S A 109(6):1997-2002 |
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| Soto-Cardalda A, et al. (2012) Phosphatidate phosphatase plays role in zinc-mediated regulation of phospholipid synthesis in yeast. J Biol Chem 287(2):968-77 |
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| Viau CM, et al. (2012) Enhanced resistance of yeast mutants deficient in low-affinity iron and zinc transporters to stannous-induced toxicity. Chemosphere 86(5):477-84 |
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| Frey AG and Eide DJ (2011) Roles of Two Activation Domains in Zap1 in the Response to Zinc Deficiency in Saccharomyces cerevisiae. J Biol Chem 286(8):6844-54 |
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| Frey AG, et al. (2011) Zinc-regulated DNA binding of the yeast zap1 zinc-responsive activator. PLoS One 6(7):e22535 |
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| Li B, et al. (2011) Identification of potential calorie restriction-mimicking yeast mutants with increased mitochondrial respiratory chain and nitric oxide levels. J Aging Res 2011():673185 |
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| Simm C, et al. (2011) High-throughput screen for identifying small molecules that target fungal zinc homeostasis. PLoS One 6(9):e25136 |
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| Wu YH, et al. (2011) Transcriptional regulation of the Zrg17 zinc transporter of the yeast secretory pathway. Biochem J 435(1):259-66 |
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| van Leeuwen JS, et al. (2011) Involvement of the pleiotropic drug resistance response, protein kinase C signaling, and altered zinc homeostasis in resistance of Saccharomyces cerevisiae to diclofenac. Appl Environ Microbiol 77(17):5973-80 |
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| Hazelwood LA, et al. (2010) Involvement of Vacuolar Sequestration and Active Transport in Tolerance of Saccharomyces cerevisiae to Hop Iso-{alpha}-Acids. Appl Environ Microbiol 76(1):318-28 |
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| Zheng J, et al. (2010) Epistatic relationships reveal the functional organization of yeast transcription factors. Mol Syst Biol 6():420 |
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| Wu CY, et al. (2009) Repression of sulfate assimilation is an adaptive response of yeast to the oxidative stress of zinc deficiency. J Biol Chem 284(40):27544-56 |
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| Soto A and Carman GM (2008) Regulation of the Saccharomyces cerevisiae CKI1-encoded Choline Kinase by Zinc Depletion. J Biol Chem 283(15):10079-88 |
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| Wu CY, et al. (2008) Differential control of Zap1-regulated genes in response to zinc deficiency in Saccharomyces cerevisiae. BMC Genomics 9:370 |
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| Kelly MK, et al. (2007) Zinc regulates the stability of repetitive minisatellite DNA tracts during stationary phase. Genetics 177(4):2469-79 |
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| Lockshon D, et al. (2007) The sensitivity of yeast mutants to oleic Acid implicates the peroxisome and other processes in membrane function. Genetics 175(1):77-91 |
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| Moreno MA, et al. (2007) The regulation of zinc homeostasis by the ZafA transcriptional activator is essential for Aspergillus fumigatus virulence. Mol Microbiol 64(5):1182-97 |
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| Wu CY, et al. (2007) Regulation of the yeast TSA1 peroxiredoxin by ZAP1 is an adaptive response to the oxidative stress of zinc deficiency. J Biol Chem 282(4):2184-95 |
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| Bird AJ, et al. (2006) Repression of ADH1 and ADH3 during zinc deficiency by Zap1-induced intergenic RNA transcripts. EMBO J 25(24):5726-34 |
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| Bird AJ, et al. (2006) Zinc metalloregulation of the zinc finger pair domain. J Biol Chem 281(35):25326-35 |
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| Kersting MC and Carman GM (2006) Regulation of the Saccharomyces cerevisiae EKI1-encoded ethanolamine kinase by zinc depletion. J Biol Chem 281(19):13110-6 |
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| Qiao W, et al. (2006) Zinc binding to a regulatory zinc-sensing domain monitored in vivo by using FRET. Proc Natl Acad Sci U S A 103(23):8674-9 |
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| Han SH, et al. (2005) Regulation of the PIS1-encoded phosphatidylinositol synthase in Saccharomyces cerevisiae by zinc. J Biol Chem 280(32):29017-24 |
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| Herbig A, et al. (2005) Zap1 activation domain 1 and its role in controlling gene expression in response to cellular zinc status. Mol Microbiol 57(3):834-46 |
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| Sambade M, et al. (2005) A genomic screen for yeast vacuolar membrane ATPase mutants. Genetics 170(4):1539-51 |
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| Tong AH, et al. (2004) Global mapping of the yeast genetic interaction network. Science 303(5659):808-13 |
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| Bird AJ, et al. (2003) Zinc fingers can act as Zn2+ sensors to regulate transcriptional activation domain function. EMBO J 22(19):5137-46 |
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| Evans-Galea MV, et al. (2003) Two of the five zinc fingers in the Zap1 transcription factor DNA binding domain dominate site-specific DNA binding. Biochemistry 42(4):1053-61 |
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| Higgins VJ, et al. (2003) Application of genome-wide expression analysis to identify molecular markers useful in monitoring industrial fermentations. Appl Environ Microbiol 69(12):7535-40 |
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| Daniels PJ, et al. (2002) Mammalian metal response element-binding transcription factor-1 functions as a zinc sensor in yeast, but not as a sensor of cadmium or oxidative stress. Nucleic Acids Res 30(14):3130-40 |
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