HXK2/YGL253W Literature Guide 
Other names published for HXK2: HEX1, HKB, SCI2, hexokinase 2, YGL253W
HXK2 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
HXK2 - Additional Literature (252)
| Reference | Other Genes Addressed |
|---|---|
| Lilie H, et al. (2011) Yeast hexokinase isoenzyme ScHxk2: stability of a two-domain protein with discontinuous domains. Protein Eng Des Sel 24(1-2):79-87 |
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| Petti AA, et al. (2011) Survival of starving yeast is correlated with oxidative stress response and nonrespiratory mitochondrial function. Proc Natl Acad Sci U S A 108(45):E1089-98 |
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| Ramshini H, et al. (2011) Large proteins have a great tendency to aggregate but a low propensity to form amyloid fibrils. PLoS One 6(1):e16075 |
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| Searle JS, et al. (2011) Proteins in the Nutrient-Sensing and DNA Damage Checkpoint Pathways Cooperate to Restrain Mitotic Progression following DNA Damage. PLoS Genet 7(7):e1002176 |
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| Sharma PK, et al. (2011) Calorie restriction up-regulates iron and copper transport genes in Saccharomyces cerevisiae. Mol Biosyst 7(2):394-402 |
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| Swainston N, et al. (2011) A QconCAT informatics pipeline for the analysis, visualization and sharing of absolute quantitative proteomics data. Proteomics 11(2):329-33 |
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| Swamy KB, et al. (2011) Evidence of association between Nucleosome Occupancy and the Evolution of Transcription Factor Binding Sites in Yeast. BMC Evol Biol 11(1):150 |
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| Velazquez-Arellano A, et al. (2011) A heuristic model for paradoxical effects of biotin starvation on carbon metabolism genes in the presence of abundant glucose. Mol Genet Metab 102(1):69-77 |
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| Balazsi G (2010) Network reconstruction reveals new links between aging and calorie restriction in yeast. HFSP J 4(3-4):94-9 |
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| Marino SM, et al. (2010) Characterization of Surface-Exposed Reactive Cysteine Residues in Saccharomyces cerevisiae. Biochemistry 49(35):7709-21 |
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| Matsufuji Y, et al. (2010) Transcription factor Stb5p is essential for acetaldehyde tolerance in Saccharomyces cerevisiae. J Basic Microbiol 50(5):494-8 |
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| Mira NP, et al. (2010) Genome-wide identification of Saccharomyces cerevisiae genes required for tolerance to acetic acid. Microb Cell Fact 9(1):79 |
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| Silverman SJ, et al. (2010) Metabolic cycling in single yeast cells from unsynchronized steady-state populations limited on glucose or phosphate. Proc Natl Acad Sci U S A 107(15):6946-51 |
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| Tirosh I, et al. (2010) Chromatin regulators as capacitors of interspecies variations in gene expression. Mol Syst Biol 6():435 |
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| Wang J, et al. (2010) Gene regulatory changes in yeast during life extension by nutrient limitation. Exp Gerontol 45(7-8):621-31 |
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| Yoshida R, et al. (2010) Metabolomics-based systematic prediction of yeast lifespan and its application for semi-rational screening of ageing-related mutants. Aging Cell 9(4):616-25 |
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| Zi L, et al. (2010) [Impact of distillage recycling on the glycolysis key enzymes, stress response metabolites and intracelluler components of the self-flocculating yeast]. Sheng Wu Gong Cheng Xue Bao 26(7):1019-24 |
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| van Eunen K, et al. (2010) Measuring enzyme activities under standardized in vivo-like conditions for systems biology. FEBS J 277(3):749-60 |
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| van Eunen K, et al. (2010) Time-dependent regulation of yeast glycolysis upon nitrogen starvation depends on cell history. IET Syst Biol 4(2):157 |
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| Heyland J, et al. (2009) Correlation between TCA cycle flux and glucose uptake rate during respiro-fermentative growth of Saccharomyces cerevisiae. Microbiology 155(Pt 12):3827-37 |
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| Lewis Liu Z, et al. (2009) Evolutionarily engineered ethanologenic yeast detoxifies lignocellulosic biomass conversion inhibitors by reprogrammed pathways. Mol Genet Genomics 282(3):233-44 |
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| Lin FM, et al. (2009) Comparative proteomic analysis of tolerance and adaptation of ethanologenic Saccharomyces cerevisiae to furfural, a lignocellulosic inhibitory compound. Appl Environ Microbiol 75(11):3765-76 |
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| Picotti P, et al. (2009) Full dynamic range proteome analysis of S. cerevisiae by targeted proteomics. Cell 138(4):795-806 |
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| Rossignol T, et al. (2009) The proteome of a wine yeast strain during fermentation, correlation with the transcriptome. J Appl Microbiol 107(1):47-55 |
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| van Eunen K, et al. (2009) Time-dependent regulation analysis dissects shifts between metabolic and gene-expression regulation during nitrogen starvation in baker's yeast. FEBS J 276(19):5521-36 |
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| Gibson BR, et al. (2008) Carbohydrate utilization and the lager yeast transcriptome during brewery fermentation. Yeast 25(8):549-62 |
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| Huthmacher C, et al. (2008) A computational analysis of protein interactions in metabolic networks reveals novel enzyme pairs potentially involved in metabolic channeling. J Theor Biol 252(3):456-64 |
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| Klockow C, et al. (2008) In vivo regulation of glucose transporter genes at glucose concentrations between 0 and 500mg/L in a wild type of Saccharomyces cerevisiae. J Biotechnol 135(2):161-7 |
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| Ramshini H, et al. (2008) Thermally induced changes in the structure and activity of yeast hexokinase B. Biophys Chem 137(2-3):88-94 |
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| Riera A, et al. (2008) Human pancreatic beta-cell glucokinase: subcellular localization and glucose repression signalling function in the yeast cell. Biochem J 415(2):233-9 |
