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Candida utilis 菌株拉丁名

(Henneberg) Lodder et Kreger-van Rij

(ATCC? 9950?) 菌株編號 

Permits and Restrictions View Permits

Deposited As Torulopsis utilis (Henneberg) Lodder

Strain Designations 菌株別名 NRRL Y-900 [CBS 5609, CCRC 20325, DSM 2361, IFO 0988, NBRC 0988, NCYC 707, NRCC 2721, VTT C-78085]

Alternate State Cyberlindnera jadinii (Sartory et al.) Minter, teleomorph Application Accumulates zinc Assay of antimicrobial agent

Degrades RNA ribonucleic acid Degrades alfalfa process wastes Degrades ethyl alcohol ethanol Degrades pickle process brine

Degrades potato wastes Degrades rapeseed oil meal Degrades sauerkraut brine

Produces S-adenosylmethionine Produces acetaldehyde Produces ethyl acetate

Produces methionine adenosyltransferase S-adenosylmethionine synthetase Produces single-cell protein SCP Quality control strain Transformation host

Transformation host for expression of carotenogenic genes Used in Controlled Ecological Life Support Systems (CELSS) for food

Produces adenosyl-D-methionine and adenosyl-2-methylmethionine Produces high quality edible protein Conversion of 5'-methylthioadenosine into S-adenosylmethionine

Biosafety Level 生物安全等級 1

Biosafety classification is based on U.S. Public Health Service Guidelines, it is the responsibility of the customer to ensure that their facilities comply with biosafety regulations for their own country.

Product Format 提供形式 freeze-dried

Storage Conditions Frozen 保藏方法 : -80℃ or colder

Freeze-Dried 凍干物 : 2℃ to 8℃

Live Culture 活菌 : See Propagation Section

Type Strain 模式菌株 no

Preceptrol? no

Genome Sequenced Strain Yes

Comments 注釋 Cell vacuoles Genome sequencing strain (KIRIN Holdings Company, Japan)

Medium  培養(yǎng)基  ATCC? Medium 200: YM agar or YM broth

ATCC? Medium 1245: YEPD

ATCC? Medium 28: Emmons' modification of Sabouraud's agar

Growth Conditions 生長條件 

Temperature 培養(yǎng)溫度 : 25℃ to 30℃

Atmosphere 需氧情況 : Typical aerobic

Name of Depositor NRRL

Cross ReferencesNucleotide (GenBank) : AJ277098 Candida utilis anc gene for mitochondrial ADP/ATP carrier, isoform

Nucleotide (GenBank) : AJ277099 Candida utilis anc gene for mitochondrial ADP/ATP carrier, isoform

References  參考文獻(xiàn)   Lawford GR, et al. Production of high-quality edible protein from Candida yeast grown in continuous culture. Biotechnol. Bioeng. 21: 1163-1174, 1979.

Maul SB, et al. New process for reducing the nucleic acid content of yeast. Nature 228: 181, 1970. PubMed: 5460024

Ohta S, et al. Characterization of a heat-shock process for reduction of the nucleic acid content of Candida utilis. Appl. Microbiol. 22: 415-421, 1971. PubMed: 4330316

Brewer D, et al. The antibiotic activity of cultures from fungal spores collected by a spore trap on permanent pasture. Can. J. Microbiol. 20: 721-729, 1974. PubMed: 4857622

Hang YD, et al. Sauerkraut waste: a favorable medium for cultivating yeasts. Appl. Microbiol. 24: 1007-1008, 1972.

Lawford HG, et al. Hyperaccumulation of zinc-depleted Candida utilis grown in chemostat culture. Can. J. Microbiol. 26: 71-76, 1980. PubMed: 7190863

Armstrong DW, et al. Production of ethyl acetate from dilute ethanol solutions by Candida utilis. Biotechnol. Bioeng. 26: 1038-1041, 1984.

Nakamura KD, Schlenk F. Examination of isolated yeast cell vacuoles for active transport. J. Bacteriol. 118: 314-316, 1974. PubMed: 4362463 . . Trans. ASAE 14: 103-122, 1972.

Stevenson KE, et al. Aerobic fermentations of pickle process brine by Candida utilis. J. Food Sci. 44: 181-185, 1979.

Kondo K, et al. A transformation system for the yeast Candida utilis: use of a modified endogenous ribosomal protein gene as a drug-resistant marker and ribosomal DNA as an integration target for vector DNA. J. Bacteriol. 177: 7171-7177, 1995. PubMed: 8522525

Mudgett RE, et al. Single cell protein recovery from alfalfa process wastes. Trans. ASAE 23: 1590-1594, 1980.

Miura Y, et al. Production of the carotenoids lycopene, beta-carotene, and astaxanthin in the food yeast Candida utilis. Appl. Environ. Microbiol. 64: 1226-1229, 1998. PubMed: 9546156

Reiser CO. Torula yeast from potato starch wastes. J. Agric. Food Chem. 2: 70-74, 1954.

Irgens RL, Clarke JD. Production of single-cell protein by the cultivation of yeast in anaerobic digester supernatant supplemented with carbohydrates. Eur. J. Appl. Microbiol. 2: 231-241, 1976.

Riviere J, et al. Production de proteines microbiennes a partir de mouture de ble. Ann. Technol. Agric. 27: 585-607, 1978.

Phillipchuk GE, Jackson H. Rapeseed oil meal as a nitrogenous substrate for microbial fermentation. J. Gen. Appl. Microbiol. 25: 117-125, 1979.

Armstrong DW, et al. Production of acetaldehyde from ethanol by Candida utilis. Biotechnol. Lett. 6: 183-188, 1984. Peterson GR. Reproducible analyses of microbial food for advanced life support systems. Enzyme Microb. Technol. 10: 586-592, 1988.

Schlenk F, et al. Biosynthesis of adenosyl-D-methionine and adenosyl-2-methylmethionine by Candida utilis. Arch. Biochem. Biophys. 187: 191-196, 1978. PubMed: 566086

Shapiro SK, Schlenk F. Conversion of 5'-methylthioadenosine into S-adenosylmethionine by yeast cells. Biochim. Biophys. Acta 633: 176-180, 1980. PubMed: 7193054

Holcomb ER, Shapiro SK. Assay and regulation of S-adenosylmethionine synthetase in Saccharomyces cerevisiae and Candida utilis. J. Bacteriol. 121: 267-271, 1975. PubMed: 1090572

Moreton RS. Growth of Candida utilis on enzymatically hydrolyzed potato waste. J. Appl. Bacteriol. 44: 373-382, 1978. VITEK 2 YST Comprehensive QC Set. bioMerieux.