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NCYC 2939

Saccharomyces cerevisiae

Taxon Synonyms

Saccharomyces cerevisiae

Equivalent Strain Designations

MUCL 39234, S288C, ATCC 26108

Depositor

MUCL

Deposit Date

May 2000

Habitat

Unknown

Nagoya Protocol Restrictions

No known Nagoya Protocol restrictions for this strain.

Details

Saccharomyces cerevisiae

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Key Information

Aerobic Utilisation and Growth

  • Glucose +
  • Galactose +
  • Sorbose -
  • Sucrose +
  • Maltose -
  • Cellobiose -
  • TrehaloseWeak/Latent
  • Lactose -
  • Melibiose -
  • Raffinose +
  • Melezitose -
  • Inulun -
  • Soluble Starch -
  • Xylose -
  • L Arabinose -
  • D Arabinose -
  • Ribose -
  • Rhamnose -
  • Ethanol +
  • Glycerol -
  • Erythritol -
  • Ribitol -
  • Galactitol -
  • Mannitol -
  • Sorbitol -
  • AMD Glucoside +
  • Salicin -
  • Lactic Acid +
  • Succinic Acid -
  • Citric Acid -
  • Inositol -
  • Gluconolactone -
  • Glucosamine -
  • Methanol -
  • Xylitol -

Strain Information

  • Information

    Produces fructose 1,6-diphosphate from molasses (Compagno C, et al, 1992). Degrades molasses (Compagno C, et al, 1992) . Produces chitin synthetase zymogen (Cabib E, 1973). Produces esterase (Degrassi G, 1999). Produces fructose 1,6-diphosphate (Compagno C, 1992). Produces methionine specific tRNA (Feldmann H , et al., 1971). Produces pyrimidine-specific endoribonuclease (Stevens A, 1985). Transformation host (Inoue Y, 1993). Mating type alpha.

  • DepositorMUCL
  • Deposit NameSaccharomyces cerevisiae
  • Month of depositMay
  • Deposit Year2000
  • HabitatUnknown
  • Equivalent Strain DesignationsMUCL 39234, S288C, ATCC 26108
  • ReferenceStevens A . Pyrimidine-specific cleavage by an endoribonuclease of Saccharomyces cerevisiae. J. Bacteriol. 164: 57-62, 1985. Inoue Y , et al. Lipid hydroperoxide-resistance gene in Saccharomyces cerevisiae: utilization as a selectable marker gene for yeast transformation. Biotechnol. Appl. Biochem. 17: 305-310, 1993. Curr. Genet. 7: 109-112, 1983. Micron Microsc. Acta 23: 273-286, 1992. Mitra SK , et al. Specificity of AAG codon recognition by lysyl transfer ribonucleic acid from yeast. J. Biol. Chem. 246: 5854-5856, 1971. Sagliocco F , et al. Identification of proteins of the yeast protein map using genetically manipulated strains and peptide-mass fingerprinting. Yeast 12: 1519-1533, 1996. Casaregola S , et al. A family of laboratory strains of Saccharomyces cerevisiae carry rearrangements involving chromosomes I and III. Yeast 14: 551-564, 1998. McCullough MJ , et al. Intergenic transcribed spacer PCR ribotyping for differentiation of Saccharomyces species and interspecific hybrids. J. Clin. Microbiol. 36: 1035-1038, 1998. Degrassi G , et al. Purification and properties of an esterase from the yeast Saccharomyces cerevisiae and identification of the encoding gene. Appl. Environ. Microbiol. 65: 3470-3472, 1999. Feldmann H , et al. Methionine specific transfer ribonucleic acids from brewer's yeast and a haploid yeast strain. Hoppe-Seyler's Z. Physiol. Chem. 352: 1231-1247, 1971. Stella CA , Burgos HI . Effect of potassium on Saccharomyces cerevisiae resistance to fluconazole. Antimicrob. Agents Chemother. 45: 1589-1590, 2001. Compagno C , et al.. Production of fructose diphosphate by bioconversion of molasses with Saccharomyces cerevisiae cells. Biotechnol. Lett. 14: 495-498, 1992. Cabib E , Ulane R . Chitin synthetase activating factor from yeast, a protease. Biochem. Biophys. Res. Commun. 50: 186-191, 1973.

Physical Characteristics

  • Optimum TemperatureUnknown
  • Miniumum TemperatureUnknown
  • Maximum TemperatureUnknown

Cells

  • ShapeShort-Oval to Oval
  • Min Broth Breadth (µm)3
  • Max Broth Breadth (µm)6
  • Min Broth Length (µm)5
  • Max Broth Length (µm)8
  • Min Agar Breadth (µm)3
  • Max Agar Breadth (µm)6
  • Min Agar Length (µm)4
  • Max Agar Length (µm)8
  • ArrangementSingle and in pairs
  • Colour on AgarCream
  • Surface on AgarShiny
  • Texture on AgarSmooth
  • Deposit in BrothNon-Flocculent
  • Ring in BrothAbsent
  • Ring Colour N/A
  • Pellicle in BrothAbsent
  • Pellicle AppearanceN/A
  • Pellicle HabitatN/A

Cell Division

  • BuddingMultipolar
  • FissionAbsent

Filamentous Growth

  • PseudomyceliumAbsent
  • Pseudomycelium BranchN/A
  • Pseudomycelium FormN/A
  • BlastosporesN/A
  • Blastospore ShapeN/A
  • Blastospore LocationN/A
  • Blastospore HabitatN/A
  • True MyceliumAbsent
  • Clamp ConnectionsAbsent

Asexual Spores

  • BallistosporesAbsent
  • AthrosporesAbsent
  • EndosporesAbsent
  • ChlamydosporesAbsent

Sexual Spores

  • AscosporesUnknown
  • Ascospore ShapeUnknown
  • Ascospore WallUnknown
  • Ascospores No Per AscusUnknown
  • Ascus ShapeUnknown
  • ConjugationAbsent
  • TeliosporesAbsent
  • Teliospore ShapeN/A

Miscellaneous

  • AssayUnknown
  • Salt Tolerant10%
  • KillerUnknown
  • PlasmidUnknown

Semi-Anaerobic Fermentation

  • Glucose +
  • Galactose +
  • Sucrose +
  • Maltose -
  • Cellobiose -
  • Trehalose -
  • Lactose -
  • Melibiose -
  • Raffinose +
  • Melizitose -
  • Inulin -
  • Soluble Starch -
  • XyloseUnknown
  • AMD Glucoside -

Aerobic Utilisation and Growth - Sole Sources of Nitrogen

  • NH4 2SO4 +
  • KNO3 -
  • Ethylamine -
  • Cadaverine -
  • Lysine -

Other

  • Vitamin Free GrowthUnknown
  • Cyclohex 100 -
  • Cyclohex 1000 -
  • Glucose Growth 50 +
  • Glucose Growth 60 -
  • Lipolytic -
  • Acid Production -
  • Growth 37 +
  • Growth 40 +
  • Arbutin Hydrolysis -
  • Urease Activity -
  • Starch Production -
  • Acid Tolerant -

26S rDNA seq

No data

Genomic Sequence Data

No data