SOL3/YHR163W Literature Guide

Other names published for SOL3: 6-phosphogluconolactonase SOL3, YHR163W

SOL3 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

Industrial Applications

Additional Information

SOL3 Literature Curation Summary

Curated References for SOL3: 25

Date of last curation: 2013-03-31

Reference	Other Genes Addressed
Ewald JC, et al. (2013) The integrated response of primary metabolites to gene deletions and the environment. Mol Biosyst 9(3):440-6	ADH1 \| ADH3 \| ALD5 \| ALD6 \| COX5A \| CTP1 \| DAL7 \| FUM1 \| GCV2 \| GLY1 \| GND2 \| ICL1 \| IDP1 \| IDP2 \| MORE
Granek JA, et al. (2013) The Genetic Architecture of Biofilm Formation in a Clinical Isolate of Saccharomyces cerevisiae. Genetics 193(2):587-600	CYR1 \| FLO11 \| FLO8 \| GCN1 \| HOT1 \| MSN2 \| PPM1 \| PRP42 \| RGT1 \| SFL1 \| SKS1 \| YAK1
Kim SR, et al. (2013) Strain engineering of Saccharomyces cerevisiae for enhanced xylose metabolism. Biotechnol Adv ()	ALD6 \| ALP1 \| ARR1 \| BUD21 \| GND1 \| GND2 \| HPM1 \| ISC1 \| PET18 \| RKI1 \| RPA49 \| RPE1 \| RPL20B \| TAL1 \| MORE
Ayer A, et al. (2012) A genome-wide screen in yeast identifies specific oxidative stress genes required for the maintenance of sub-cellular redox homeostasis. PLoS One 7(9):e44278	AHP1 \| ALD6 \| CCP1 \| CDC34 \| CTA1 \| CTT1 \| DGR2 \| DIG1 \| DIT1 \| DOG2 \| DOT5 \| ECM25 \| GLR1 \| GND1 \| MORE
Gamberi T, et al. (2012) Evaluation of SCO1 deletion on Saccharomyces cerevisiae metabolism through a proteomic approach. Proteomics 12(11):1767-80	ADH1 \| ADH2 \| ADH4 \| AHP1 \| ASC1 \| COX4 \| COX6 \| CYS3 \| DLD1 \| DLD2 \| DLD3 \| ENO1 \| GRX2 \| HXK1 \| MORE
Baumann K, et al. (2011) The impact of oxygen on the transcriptome of recombinant S. cerevisiae and P. pastoris - a comparative analysis. BMC Genomics 12(1):218	ADR1 \| AFT1 \| ARO7 \| ATH1 \| CCP1 \| CDA2 \| CDC19 \| CIT1 \| DAL4 \| DAL5 \| DOT5 \| ECI1 \| ENO1 \| ERG1 \| MORE
King RD, et al. (2011) On the formalization and reuse of scientific research. J R Soc Interface 8(63):1440-8	ARO8 \| BCY1 \| BNA3 \| BUD17 \| FAU1 \| FMS1 \| GTT2 \| MEU1 \| PNP1 \| SFA1 \| SLC1 \| SOL1 \| SOL4 \| THI22 \| MORE
Kruger A, et al. (2011) The pentose phosphate pathway is a metabolic redox sensor and regulates transcription during the antioxidant response. Antioxid Redox Signal 15(2):311-24	CIT1 \| COX1 \| COX2 \| COX3 \| HHF1 \| HHF2 \| HHO1 \| HHT1 \| HHT2 \| HTA1 \| HTA2 \| RKI1 \| RPE1 \| SOL4 \| MORE
Ma M and Liu LZ (2010) Quantitative transcription dynamic analysis reveals candidate genes and key regulators for ethanol tolerance in Saccharomyces cerevisiae. BMC Microbiol 10():169	ACS1 \| ADH1 \| ADH2 \| ADH3 \| ADH5 \| ADH7 \| ALD2 \| ALD3 \| ALD4 \| ARO10 \| ATH1 \| CDC19 \| DAK1 \| DDI1 \| MORE
Heer D, et al. (2009) Resistance of Saccharomyces cerevisiae to high concentrations of furfural is based on NADPH-dependent reduction by at least two oxireductases. Appl Environ Microbiol 75(24):7631-8	AAD4 \| ADH7 \| ARN1 \| CFD1 \| DRE2 \| FIT2 \| FIT3 \| GCY1 \| GND1 \| GRE2 \| GRX6 \| IBA57 \| ISU2 \| MXR1 \| MORE
King RD, et al. (2009) The automation of science. Science 324(5923):85-9	ARO8 \| BCY1 \| BNA3 \| BUD17 \| FAU1 \| FMS1 \| GTT2 \| MEU1 \| PNP1 \| SFA1 \| SLC1 \| SOL1 \| SOL4 \| THI22 \| MORE
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	ADH4 \| ADH6 \| ADH7 \| ALD2 \| ALD4 \| FBA1 \| GLK1 \| GND1 \| GND2 \| HXK1 \| HXK2 \| LAT1 \| NQM1 \| PDC6 \| MORE
Van Vleet JH and Jeffries TW (2009) Yeast metabolic engineering for hemicellulosic ethanol production. Curr Opin Biotechnol 20(3):300-6	HPM1 \| HXT1 \| HXT2 \| HXT4 \| HXT7 \| PHO13 \| RPA49 \| TAL1 \| YLR042C
Bengtsson O, et al. (2008) Identification of common traits in improved xylose-growing Saccharomyces cerevisiae for inverse metabolic engineering. Yeast 25(11):835-47	GAL1 \| GAL10 \| GAL2 \| GAL7 \| HIS3 \| HPM1 \| PUT4 \| RPA49 \| TAL1 \| YEF1 \| YLR042C \| YLR152C
Morin M, et al. (2007) Proteomic analysis reveals metabolic changes during yeast to hypha transition in Yarrowia lipolytica. J Mass Spectrom 42(11):1453-62	AAT2 \| ACO1 \| ADH2 \| ATP1 \| CCP1 \| CDC19 \| CIT1 \| CTT1 \| DAK2 \| EFT1 \| ENO2 \| FBA1 \| FUM1 \| GCY1 \| MORE
Blank LM, et al. (2005) Large-scale 13C-flux analysis reveals mechanistic principles of metabolic network robustness to null mutations in yeast. Genome Biol 6(6):R49	ADH1 \| ALD6 \| COX5A \| FUM1 \| GLY1 \| GND1 \| MDH1 \| PDA1 \| RPE1 \| ZWF1
Byrne KP and Wolfe KH (2005) The Yeast Gene Order Browser: combining curated homology and syntenic context reveals gene fate in polyploid species. Genome Res 15(10):1456-61	AAC3 \| AAP1 \| ABF2 \| ACA1 \| ACC1 \| ACE2 \| ADE16 \| ADE17 \| ADH1 \| ADH5 \| ADY2 \| ADY3 \| AFR1 \| AFT1 \| MORE
Patil KR and Nielsen J (2005) Uncovering transcriptional regulation of metabolism by using metabolic network topology. Proc Natl Acad Sci U S A 102(8):2685-9	AAT2 \| ACH1 \| ACS1 \| ACS2 \| ADE12 \| ADE3 \| ADE6 \| ADH5 \| AGX1 \| ALD6 \| ARG1 \| ARG5,6 \| ARO2 \| ARO3 \| MORE
Daran-Lapujade P, et al. (2004) Role of transcriptional regulation in controlling fluxes in central carbon metabolism of Saccharomyces cerevisiae. A chemostat culture study. J Biol Chem 279(10):9125-38	AAD16 \| ACH1 \| ACO1 \| ACO2 \| ACS1 \| ACS2 \| ADH1 \| ADH2 \| ADH3 \| ADH4 \| ADH5 \| AGP2 \| AHP1 \| ALD2 \| MORE
Sonderegger M, et al. (2004) Molecular basis for anaerobic growth of Saccharomyces cerevisiae on xylose, investigated by global gene expression and metabolic flux analysis. Appl Environ Microbiol 70(4):2307-17	ACH1 \| ADH4 \| ADH5 \| ARG5,6 \| ARG7 \| ASN1 \| BNA2 \| CAR2 \| CDC21 \| COR1 \| CYT1 \| DFR1 \| GAL1 \| GAL10 \| MORE
Stanford DR, et al. (2004) Division of labor among the yeast Sol proteins implicated in tRNA nuclear export and carbohydrate metabolism. Genetics 168(1):117-27	LOS1 \| SOL1 \| SOL2 \| SOL4
Huh WK, et al. (2003) Global analysis of protein localization in budding yeast. Nature 425(6959):686-91	AAH1 \| AAP1 \| ABZ1 \| ABZ2 \| ACB1 \| ACO2 \| ADD37 \| ADD66 \| ADE1 \| ADE12 \| ADE2 \| ADE3 \| ADE4 \| ADE6 \| MORE
Wahlbom CF, et al. (2003) Molecular analysis of a Saccharomyces cerevisiae mutant with improved ability to utilize xylose shows enhanced expression of proteins involved in transport, initial xylose metabolism, and the pentose phosphate pathway. Appl Environ Microbiol 69(2):740-6	ARR1 \| GND1 \| HXT5 \| PET18 \| TAL1 \| TEC1 \| TKL1 \| XKS1
Collard F, et al. (1999) Identification of the cDNA encoding human 6-phosphogluconolactonase, the enzyme catalyzing the second step of the pentose phosphate pathway(1). FEBS Lett 459(2):223-6	SOL1 \| SOL2 \| SOL4
Shen WC, et al. (1996) Los1p, involved in yeast pre-tRNA splicing, positively regulates members of the SOL gene family. Genetics 143(2):699-712	LOS1 \| SOL1 \| SOL2