CYC1/YJR048W Literature Guide 
Other names published for CYC1: iso-1-cytochrome c, YJR048W
CYC1 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
CYC1 - Transcription (91)
| Reference | Other Genes Addressed |
|---|---|
| Radji M, et al. (2001) The cloning and characterization of the CDC50 gene family in Saccharomyces cerevisiae. Yeast 18(3):195-205 |
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| Kang JJ, et al. (2000) Transcript quantitation in total yeast cellular RNA using kinetic PCR. Nucleic Acids Res 28(2):e2 |
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| Kato M, et al. (2000) Inferring genetic networks from DNA microarray data by multiple regression analysis. Genome Inform Ser Workshop Genome Inform 11:118-28 |
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| West RW Jr, et al. (2000) RLR1 (THO2), required for expressing lacZ fusions in yeast, is conserved from yeast to humans and is a suppressor of SIN4. Gene 243(1-2):195-205 |
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| Chang M, et al. (1999) A complex containing RNA polymerase II, Paf1p, Cdc73p, Hpr1p, and Ccr4p plays a role in protein kinase C signaling. Mol Cell Biol 19(2):1056-67 |
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| Birse CE, et al. (1998) Coupling termination of transcription to messenger RNA maturation in yeast. Science 280(5361):298-301 |
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| Nait-Kaoudjt R, et al. (1998) Evidence of an overlap between the two half-sites of UAS1-B/CYC1--a new model for Cyp1p (Hap1p) DNA binding. Eur J Biochem 254(1):111-6 |
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| Yagil G, et al. (1998) DNA unwinding in the CYC1 and DED1 yeast promoters. Gene 225(1-2):153-62 |
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| Nait-Kaoudjt R, et al. (1997) Some DNA targets of the yeast CYP1 transcriptional activator are functionally asymmetric--evidence of two half-sites with different affinities. Eur J Biochem 244(2):301-9 |
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| Wechser MA, et al. (1997) Effects of Sin- versions of histone H4 on yeast chromatin structure and function. EMBO J 16(8):2086-95 |
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| Paull TT, et al. (1996) Yeast HMG proteins NHP6A/B potentiate promoter-specific transcriptional activation in vivo and assembly of preinitiation complexes in vitro. Genes Dev 10(21):2769-81 |
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| Tanaka M (1996) Modulation of promoter occupancy by cooperative DNA binding and activation-domain function is a major determinant of transcriptional regulation by activators in vivo. Proc Natl Acad Sci U S A 93(9):4311-5 |
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| Brown TA and Trumpower BL (1995) Strain-dependent variation in carbon source regulation of nucleus-encoded mitochondrial proteins of Saccharomyces cerevisiae. J Bacteriol 177(5):1380-2 |
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| Hull MW, et al. (1995) RNA polymerase II subunit RPB9 is required for accurate start site selection. Genes Dev 9(4):481-90 |
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| Vincent O and Gancedo JM (1995) Expression of a yeast gene can be blocked by insertion of short yeast DNA fragments between a UAS and the TATA box. Curr Genet 27(4):387-9 |
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| Berroteran RW, et al. (1994) The sua8 suppressors of Saccharomyces cerevisiae encode replacements of conserved residues within the largest subunit of RNA polymerase II and affect transcription start site selection similarly to sua7 (TFIIB) mutations. Mol Cell Biol 14(1):226-37 |
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| Daignan-Fornier B, et al. (1994) MBR1 and MBR3, two related yeast genes that can suppress the growth defect of hap2, hap3 and hap4 mutants. Mol Gen Genet 243(5):575-83 |
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| Chen S, et al. (1993) TSF1 to TSF6, required for silencing the Saccharomyces cerevisiae GAL genes, are global regulatory genes. Genetics 134(3):701-16 |
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| Fytlovich S, et al. (1993) Evidence for an interaction between the CYP1(HAP1) activator and a cellular factor during heme-dependent transcriptional regulation in the yeast Saccharomyces cerevisiae. EMBO J 12(3):1209-18 |
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| Lopes JM, et al. (1993) The INO1 promoter of Saccharomyces cerevisiae includes an upstream repressor sequence (URS1) common to a diverse set of yeast genes. J Bacteriol 175(13):4235-8 |
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| Sakurai H, et al. (1993) Yeast GAL11 protein is a distinctive type transcription factor that enhances basal transcription in vitro. Proc Natl Acad Sci U S A 90(18):8382-6 |
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| Durrin LK, et al. (1992) Nucleosome loss activates CUP1 and HIS3 promoters to fully induced levels in the yeast Saccharomyces cerevisiae. Mol Cell Biol 12(4):1621-9 |
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| Lombardo A, et al. (1992) Control of mRNA turnover as a mechanism of glucose repression in Saccharomyces cerevisiae. Mol Cell Biol 12(7):2941-8 |
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| Lorch Y, et al. (1992) Initiation on chromatin templates in a yeast RNA polymerase II transcription system. Genes Dev 6(12A):2282-7 |
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| Pinto I, et al. (1992) The yeast SUA7 gene encodes a homolog of human transcription factor TFIIB and is required for normal start site selection in vivo. Cell 68(5):977-88 |
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| Turcotte B and Guarente L (1992) HAP1 positive control mutants specific for one of two binding sites. Genes Dev 6(10):2001-9 |
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| Li WZ and Sherman F (1991) Two types of TATA elements for the CYC1 gene of the yeast Saccharomyces cerevisiae. Mol Cell Biol 11(2):666-76 |
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| Pillar TM and Bradshaw RE (1991) Heat shock and stationary phase induce transcription of the Saccharomyces cerevisiae iso-2 cytochrome c gene. Curr Genet 20(3):185-8 |
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| Rosenblum-Vos LS, et al. (1991) The ROX3 gene encodes an essential nuclear protein involved in CYC7 gene expression in Saccharomyces cerevisiae. Mol Cell Biol 11(11):5639-47 |
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| Zhang M, et al. (1991) A yeast protein with homology to the beta-subunit of G proteins is involved in control of heme-regulated and catabolite-repressed genes. Gene 97(2):153-61 |
