ATCC28485

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ATCC28485标准菌株基本信息

出品公司: ATCC
菌种名称: ATCC 24255, ATCC28485
菌种又名: CBS 704 [CCRC 21531, DSMZ 70382, JCM 3650, NCYC 175, NRRL Y-1603]
菌株类型: Komagataella pastoris
存储人: CBS
分离来源: Exudate of oak; France
产品目录号: 28485
其他保藏库编号: BCRC21531,ATCC 28485 ;CBS 704 ;JCM 3650 ;NCYC 175 ;NRRL Y-1603
培养基:
ATCC®培养基28:Emmons对Sabouraud琼脂的改性
ATCC®培养基200:YM琼脂或YM肉汤
ATCC®培养基1245:Yepd
生长条件: 24-25 ℃,  有氧
生物安全等级: 1
模式菌株:
应用: 科研,生产,主要用于乙醇的降解
 
降解过氧化氢
 
生产乙醛
 
产生酒精氧化酶
 
产生单细胞蛋白scp
 
从含氧碳氢化合物中产生单细胞蛋白质
 
产生天然风味的醛类
 
将乙醇转化为乙醛
菌株特点:
核苷酸(GenBank):JQ070155 d1/d2区28s rRNA基因
核苷酸(GenBank):Ku729078 ITS,包括5.8S rRNA基因
核苷酸(genbank):cabh00000000 komagataella pastoris dsmz 70382,全基因组鸟枪测序项目
参考文献:
Duff SJB. Use of colloidal particles to improve the biocatalytic activity of microorganisms. Agric Biol Chem 54: 1879-1882, 1990.
 
Duff SJB, Murray WD, Overend RP. Oxygen and temperature effects on acetaldehyde-induced catabolite inactivation in Pichia pastoris. Appl Microbiol Biotechnol 36: 82-86, 1991.
 
Duff SJ, Murray WD. Comparison of free and immobilized Pichia pastoris cells for conversion of ethanol to acetaldehyde. Biotechnol. Bioeng. 31: 790-795, 1988.
 
Duff SJ, Murray WD. Oxidation of benzyl alcohol by whole cells of Pichia pastoris and by alcohol oxidase in aqueous and nonaqueous reaction media. Biotechnol. Bioeng. 34: 153-159, 1989.
 
Duff SJ, Murray WD. Production and application of methylotrophic yeast Pichia pastoris. Biotechnol. Bioeng. 31: 44-49, 1988.
 
Duff SJB, et al. Production of natural flavor aldehydes from natural source primary alcohols C2-C7. US Patent 4,871,669 dated Oct 3 1989
 
Duff SJ, Murray WD. Production of flavor aldehydes using nongrowing whole cells of Pichia pastoris. Ann. N.Y. Acad. Sci. 542: 428-433, 1988.
 
Duff SJB, Murray WD, Overend RP. Factors affecting the yeast-mediated conversion of ethanol to acetaldehyde in batch reactors. Enzyme Microb Technol 11: 770-775, 1989.
 
Mattanovich D, et al. Genome, secretome and glucose transport highlight unique features of the protein production host Pichia pastoris. Microb. Cell Fact. 8: 29, 2009.
 
Murray WD, et al. Catabolite inactivation in the methylotrophic yeast Pichia pastoris. Appl. Environ. Microbiol. 56: 2378-2383, 1990.
 
Murray WD, et al. Induction and stability of alcohol oxidase in the methylotrophic yeast Pichia pastoris. Appl. Microbiol. Biotechnol. 32: 95-100, 1989.
 
Murray WD, Duff SJB. Metabolism of hydrogen peroxide by Pichia pastoris. Agric. Biol. Chem. 54: 1967-1974, 1990.
 
Phaff HJ. A proposal for amendment of the diagnosis of the genus Pichia Hansen. Antonie van Leeuwenhoek 22: 113-116, 1956.
 
Wegner EH. Treatment of make-up water for use in a fermentation process for growth of yeast cells requiring growth factors. US Patent 4,226,939 dated Oct 7 1980
 
Yamada Y, et al. The phylogenetic relationships of methanol-assimilating yeasts based on the partial sequences of 18S and 26S ribosomal RNAs: the proposal of Komagataella gen. nov. (Saccharomycetaceae). Biosci. Biotechnol. Biochem. 59: 439-444, 1995. PubMed: 7766181
 
Kurtzman CP, Robnett CJ. Relationships among genera of the Saccharomycotina (Ascomycota) from multigene phylogenetic analysis of type species. FEMS Yeast Res. 13: 23-33, 2013. PubMed: 22978764
 
Kurtzman CP. Komagataella populi sp. nov. and Komagataella ulmi sp. nov., two new methanol assimilating yeasts from exudates of deciduous trees. Antonie van Leeuwenhoek 101: 859-868, 2012. PubMed: 22302468
 
Kurtzman CP, Robnett CJ. Systematics of methanol assimilating yeasts and neighboring taxa from multigene sequence analysis and the proposal of Peterozyma gen. nov., a new member of the Saccharomycetales. FEMS Yeast Res 10: 353-361, 2010. PubMed: 20522116
 
Kurtzman CP. Biotechnological strains of Komagataella (Pichia) pastoris are Komagataella phaffii as determined from multigene sequence analysis. J Ind Microbiol Biotechnol 36: 1435-1438, 2009. PubMed: 19760441
 
Kurtzman CP, Robnett CJ, Basehoar-Powers E. Phylogenetic relationships among species of Pichia, Issatchenkia and Williopsis determined from multigene sequence analysis, and the proposal of Barnettozyma gen. nov., Lindnera gen. nov. and Wickerhamomyces gen. nov.. FEMS Yeast Res. 8: 939-954, 2008. PubMed: 18671746

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