HXT1/YHR094C Literature Guide 
Other names published for HXT1: HOR4, YHR094C
HXT1 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
HXT1 - Strains/Constructs (53)
| Reference | Other Genes Addressed |
|---|---|
| Khmelinskii A, et al. (2012) Tandem fluorescent protein timers for in vivo analysis of protein dynamics.LID - 10.1038/nbt.2281 [doi] Nat Biotechnol () |
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| Scarcelli JJ, et al. (2012) Uptake of radiolabeled GlcNAc into Saccharomyces cerevisiae via native hexose transporters and its in vivo incorporation into GPI precursors in cells expressing heterologous GlcNAc kinase. FEMS Yeast Res 12(3):305-16 |
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| Yoshida A, et al. (2012) Reduction of glucose uptake through inhibition of hexose transporters and enhancement of their endocytosis by methylglyoxal in Saccharomyces cerevisiae. J Biol Chem 287(1):701-11 |
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| Castillon GA, et al. (2011) The yeast p24 complex regulates GPI-anchored protein transport and quality control by monitoring anchor remodeling. Mol Biol Cell 22(16):2924-36 |
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| Verho R, et al. (2011) Cloning of two genes (LAT1,2) encoding specific L: -arabinose transporters of the L: -arabinose fermenting yeast Ambrosiozyma monospora. Appl Biochem Biotechnol 164(5):604-11 |
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| Dietvorst J, et al. (2010) Amino acid residues involved in ligand preference of the Snf3 transporter-like sensor in Saccharomyces cerevisiae. Yeast 27(3):131-8 |
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| Galeote V, et al. (2010) FSY1, a horizontally transferred gene in the Saccharomyces cerevisiae EC1118 wine yeast strain, encodes a high-affinity fructose/H+ symporter. Microbiology 156(Pt 12):3754-61 |
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| Rossi G, et al. (2010) Effect of HXT1 and HXT7 hexose transporter overexpression on wild-type and lactic acid producing Saccharomyces cerevisiae cells. Microb Cell Fact 9():15 |
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| Castillon GA, et al. (2009) Concentration of GPI-anchored proteins upon ER exit in yeast. Traffic 10(2):186-200 |
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| Kasahara T, et al. (2009) Identification of a key residue determining substrate affinity in the human glucose transporter GLUT1. Biochim Biophys Acta 1788(5):1051-5 |
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| Morgan J, et al. (2009) Altering sphingolipid metabolism in Saccharomyces cerevisiae cells lacking the amphiphysin ortholog Rvs161 reinitiates sugar transporter endocytosis. Eukaryot Cell 8(5):779-89 |
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| Postma L, et al. (2009) Surviving in the cold: yeast mutants with extended hibernating lifespan are oxidant sensitive. Aging (Albany NY) 1(11):957-60 |
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| Youk H and van Oudenaarden A (2009) Growth landscape formed by perception and import of glucose in yeast. Nature 462(7275):875-9 |
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| dos Santos SC, et al. (2009) Transcriptomic profiling of the Saccharomyces cerevisiae response to quinine reveals a glucose limitation response attributable to drug-induced inhibition of glucose uptake. Antimicrob Agents Chemother 53(12):5213-23 |
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| Abe F and Minegishi H (2008) Global screening of genes essential for growth in high-pressure and cold environments: searching for basic adaptive strategies using a yeast deletion library. Genetics 178(2):851-72 |
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| Bonander N, et al. (2008) Transcriptome analysis of a respiratory Saccharomycescerevisiae strain suggests the expression of its phenotype is glucose insensitive and predominantly controlled by Hap4, Cat8 and Mig1. BMC Genomics 9:365 |
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| Bosch D, et al. (2008) Characterization of glucose transport mutants of Saccharomyces cerevisiae during a nutritional upshift reveals a correlation between metabolite levels and glycolytic flux. FEMS Yeast Res 8(1):10-25 |
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| Gutierrez-Lomeli M, et al. (2008) Overexpression of ADH1 and HXT1 genes in the yeast Saccharomyces cerevisiae improves the fermentative efficiency during tequila elaboration. Antonie Van Leeuwenhoek 93(4):363-71 |
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| Slattery MG, et al. (2008) Protein kinase A, TOR, and glucose transport control the response to nutrient repletion in Saccharomyces cerevisiae. Eukaryot Cell 7(2):358-67 |
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| Grossmann G, et al. (2007) Membrane potential governs lateral segregation of plasma membrane proteins and lipids in yeast. EMBO J 26(1):1-8 |
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| Kong DC, et al. (2007) [Simulation and analysis of ethanol concentration response to enzyme amount changes in Saccharomyces cerevisiae glycolysis pathway model] Sheng Wu Gong Cheng Xue Bao 23(2):332-6 |
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| Perez-Valle J, et al. (2007) Key role for intracellular k+ and protein kinases sat4/hal4 and hal5 in the plasma membrane stabilization of yeast nutrient transporters. Mol Cell Biol 27(16):5725-36 |
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| Saloheimo A, et al. (2007) Xylose transport studies with xylose-utilizing Saccharomyces cerevisiae strains expressing heterologous and homologous permeases. Appl Microbiol Biotechnol 74(5):1041-52 |
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| Kasahara T, et al. (2006) Eight amino acid residues in transmembrane segments of yeast glucose transporter Hxt2 are required for high affinity transport. J Biol Chem 281(27):18532-8 |
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| Tropia MJ, et al. (2006) Calcium signaling and sugar-induced activation of plasma membrane H(+)-ATPase in Saccharomyces cerevisiae cells. Biochem Biophys Res Commun 343(4):1234-43 |
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| D'Elia R, et al. (2005) Homozygous diploid deletion strains of Saccharomyces cerevisiae that determine lag phase and dehydration tolerance. Appl Microbiol Biotechnol 67(6):816-26 |
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| Henricsson C, et al. (2005) Engineering of a novel Saccharomyces cerevisiae wine strain with a respiratory phenotype at high external glucose concentrations. Appl Environ Microbiol 71(10):6185-92 |
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| Batista AS, et al. (2004) Sucrose fermentation by Saccharomyces cerevisiae lacking hexose transport. J Mol Microbiol Biotechnol 8(1):26-33 |
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| Elbing K, et al. (2004) Role of hexose transport in control of glycolytic flux in Saccharomyces cerevisiae. Appl Environ Microbiol 70(9):5323-30 |
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| Kasahara T, et al. (2004) Comprehensive chimeric analysis of amino acid residues critical for high affinity glucose transport by Hxt2 of Saccharomyces cerevisiae. J Biol Chem 279(29):30274-8 |
