MAL11/YGR289C Literature Guide 
Other names published for MAL11: AGT1, MALT, YGR289C
MAL11 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
MAL11 - All Curated References (110)
| Reference | Other Genes Addressed |
|---|---|
| Cousseau FE, et al. (2013) Characterization of maltotriose transporters from the Saccharomyces eubayanus subgenome of the hybrid Saccharomyces pastorianus lager brewing yeast strain Weihenstephan 34/70. Lett Appl Microbiol 56(1):21-9 |
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| Horak J (2013) Regulations of sugar transporters: insights from yeast. Curr Genet 59(1-2):1-31 |
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| Koschwanez JH, et al. (2013) Improved use of a public good selects for the evolution of undifferentiated multicellularity. Elife 2():e00367 |
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| Babrzadeh F, et al. (2012) Whole-genome sequencing of the efficient industrial fuel-ethanol fermentative Saccharomyces cerevisiae strain CAT-1. Mol Genet Genomics 287(6):485-94 |
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| Duenas-Sanchez R, et al. (2012) Transcriptional regulation of fermentative and respiratory metabolism in Saccharomyces cerevisiae industrial bakers' strains. FEMS Yeast Res 12(6):625-36 |
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| Geisler S, et al. (2012) Decapping of long noncoding RNAs regulates inducible genes. Mol Cell 45(3):279-91 |
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| Nijkamp JF, et al. (2012) De novo sequencing, assembly and analysis of the genome of the laboratory strain Saccharomyces cerevisiae CEN.PK113-7D, a model for modern industrial biotechnology. Microb Cell Fact 11(1):36 |
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| Oud B, et al. (2012) Genome-wide analytical approaches for reverse metabolic engineering of industrially relevant phenotypes in yeast. FEMS Yeast Res 12(2):183-96 |
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| Basso TO, et al. (2011) Engineering topology and kinetics of sucrose metabolism in Saccharomyces cerevisiae for improved ethanol yield. Metab Eng 13(6):694-703 |
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| Carreto L, et al. (2011) Expression variability of co-regulated genes differentiates Saccharomyces cerevisiae strains. BMC Genomics 12(1):201 |
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| Jung PP, et al. (2011) Ploidy influences cellular responses to gross chromosomal rearrangements in Saccharomyces cerevisiae. BMC Genomics 12(1):331 |
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| Lanthaler K, et al. (2011) Genome-wide assessment of the carriers involved in the cellular uptake of drugs: a model system in yeast. BMC Biol 9(1):70 |
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| Trevisol ET, et al. (2011) The effect of trehalose on the fermentation performance of aged cells of Saccharomyces cerevisiae. Appl Microbiol Biotechnol 90(2):697-704 |
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| Vidgren V, et al. (2011) Identification of regulatory elements in the AGT1 promoter of ale and lager strains of brewer's yeast. Yeast 28(8):579-94 |
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| de Kok S, et al. (2011) Increasing free-energy (ATP) conservation in maltose-grown Saccharomyces cerevisiae by expression of a heterologous maltose phosphorylase. Metab Eng 13(5):518-26 |
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| Brown CA, et al. (2010) Rapid expansion and functional divergence of subtelomeric gene families in yeasts. Curr Biol 20(10):895-903 |
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| Duval EH, et al. (2010) Microarray karyotyping of maltose-fermenting Saccharomyces yeasts with differing maltotriose utilization profiles reveals copy number variation in genes involved in maltose and maltotriose utilization. J Appl Microbiol 109(1):248-59 |
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| Ma M and Liu ZL (2010) Comparative transcriptome profiling analyses during the lag phase uncover YAP1, PDR1, PDR3, RPN4, and HSF1 as key regulatory genes in genomic adaptation to the lignocellulose derived inhibitor HMF for Saccharomyces cerevisiae. BMC Genomics 11():660 |
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| Saerens SM, et al. (2010) Genetic improvement of brewer's yeast: current state, perspectives and limits. Appl Microbiol Biotechnol 86(5):1195-212 |
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| Singh LN and Hannenhalli S (2010) Correlated changes between regulatory cis elements and condition-specific expression in paralogous gene families. Nucleic Acids Res 38(3):738-49 |
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| Teste MA, et al. (2010) Characterization of a New Multigene Family Encoding Isomaltases in the Yeast Saccharomyces cerevisiae, the IMA Family. J Biol Chem 285(35):26815-24 |
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| Vidgren V, et al. (2010) The temperature dependence of maltose transport in ale and lager strains of brewer's yeast. FEMS Yeast Res 10(4):402-11 |
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| Yamakawa S, et al. (2010) Repeated batch fermentation from raw starch using a maltose transporter and amylase expressing diploid yeast strain. Appl Microbiol Biotechnol 87(1):109-15 |
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| Garre E and Matallana E (2009) The three trehalases Nth1p, Nth2p and Ath1p participate in the mobilization of intracellular trehalose required for recovery from saline stress in Saccharomyces cerevisiae. Microbiology 155(Pt 9):3092-9 |
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| Hatanaka H, et al. (2009) Gly-46 and His-50 of Yeast Maltose Transporter Mal21p Are Essential for Its Resistance against Glucose-induced Degradation. J Biol Chem 284(23):15448-57 |
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| Hazelwood LA, et al. (2009) Identity of the growth-limiting nutrient strongly affects storage carbohydrate accumulation in anaerobic chemostat cultures of Saccharomyces cerevisiae. Appl Environ Microbiol 75(21):6876-85 |
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| Nakao Y, et al. (2009) Genome sequence of the lager brewing yeast, an interspecies hybrid. DNA Res 16(2):115-29 |
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| Vidgren V, et al. (2009) Improved fermentation performance of a lager yeast after repair of its AGT1 maltose and maltotriose transporter genes. Appl Environ Microbiol 75(8):2333-45 |
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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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| Alves SL Jr, et al. (2008) Molecular analysis of maltotriose active transport and fermentation by Saccharomyces cerevisiae reveals a determinant role for the AGT1 permease. Appl Environ Microbiol 74(5):1494-501 |
