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  • 產品名稱:ATCC58376斯氏舍弗氏菌Scheffersomyces stipitis標準菌株菌種

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簡單介紹:
ATCC58376斯氏舍弗氏菌Scheffersomyces stipitis標準菌株菌種
詳情介紹:
出品公司:ATCC
_菌_種名稱:ATCC 58376 , ATCC58376
_菌_種又名:NRRL Y-7124 [CBS 5773, CCRC 21775, DBVPG 6264, LY 1321]
_菌_株類型:斯氏舍弗氏_菌_ ,Scheffersomyces stipitis
存儲人:NRRL
分離來源:Insect larvae, France
產品目錄號:58376
其他保藏庫編號:BCRC21775,ATCC 58376 ;CBS 5773 ;DBVPG 6264 ;LY 1321;NRRL Y-7124
培養(yǎng)基:ATCC®培養(yǎng)基28:Emmons對Sabouraud瓊脂的改性ATCC®培養(yǎng)基200:YM瓊脂或YM肉湯ATCC®培養(yǎng)基1245:Yepd
生長條件:20-25℃,  有氧
生物安_全等級:1
模式_菌_株:
應用:科研,生產,主要用于
_菌_株特點:核苷酸(GenBank):JQ023145 RPB 2基因
核苷酸(GenBank):JQ023133 RPB 1基因核苷酸(GenBank):HQ652060 ITS,含5.8S rRNA基因核苷酸(GenBank):HQ651939 18S rRNA基因核苷酸(GenBank):28S rRNA基因KC479699 D1/D2區(qū)核苷酸(GenBank):KC507454 EF-1α基因核苷酸(GenBank):KC479707 Xyl1基因 
參考文獻:Toivola A, et al. Alcoholic fermentation of D-xylose by yeasts. Appl. Environ. Microbiol. 47: 1221-1223, 1984. Calleja GB, et al. Rapid process for the conversion of xylose to ethanol. Canadian Patent 1,266,245 Tantirungkij M, et al. Construction of xylose-assimilating Saccharomyces cerevisiae. J. Ferment. Bioeng. 75: 83-88, 1993. Roberto IC, et al. Utilization of sugar cane Bagasse hemicellulosic hydrolysate by Pichia stipitis for the production of ethanol. Process Biochem. 26: 15-21, 1991. Billon-Grand G. A new ascosporogenous yeast genus: Yamadazyma gen. nov.. Mycotaxon 35: 201-204, 1989. Meyrial V, et al. Ethanol tolerance and activity of plasma membrane ATPase in Pichia stipitis grown on D-xylose or on D-glucose. Enzyme Microb. Technol. 17: 535-540, 1995. Pignal MC. Une nouvelle espece de levure isolee de larves d'insectes: Pichia stipits. Bull. Mens. Soc. Linn. Lyon 36: 163-168, 1967. Slininger PJ, et al. Growth, death, and oxygen uptake kinetics of Pichia stipitis on xylose. Biotechnol. Bioeng. 37: 973-980, 1991. Targonski, Z. Biotransformation of lignin-related aromatic-compounds by Pichia stipitis. Zentralbl. Mikrobiol. 147: 244-249, 1992. . . Proc. Eur. Cong. Biotechnol. 6: 1035-1038, 1994. Webb SR, Lee H. Characterization of xylose reductase from the yeast Pichia stiipitis: evidence for functional thiol and histidyl groups. J. Gen. Microbiol. 138: 1857-1863, 1992. Nigam JN. Ethanol production from hardwood spent sulfite liquor using an adapted strain of Pichia stipitis. J. Ind. Microbiol. Biotechnol. 26: 145-150, 2001. PubMed: 11420654 Slininger PJ, et al. Comparative evaluation of ethanol production by xylose-fermenting yeasts presented high xylose concentrations. Biotechnol. Lett. 7: 431-436, 1985. Bjorling T, Lindman B. Evaluation of xylose-fermenting yeasts for ethanol production from spent sulfite liquor. Enzyme Microb. Technol. 11: 240-246, 1989. Delgenes JP, et al. Acid hydrolysis of wheat straw and process considerations for ethanol fermentation by Pichia stipitis Y7124. Process Biochem. 25: 132-135, 1990. Takuma S, et al. Isolation of xylose reductase gene of Pichia stipitis and its expression in Saccharomyces cerevisiae. Appl. Biochem. Biotechnol. 28-29: 327-340, 1991. PubMed: 1929370 Kurtzman CP, Suzuki M. Phylogenetic analysis of ascomycete yeasts that form coenzyme Q-9 and the proposal of the new genera Babjeviella, Meyerozyma, Millerozyma, Priceomyces, and Scheffersomyces. Mycoscience 51: 2-14, 2010. Shields S, Boopathy R. Ethanol production from lignocellulosic biomass of energy cane. Int. Biodeterior. Biodegrad. 65: 142-146, 2011. Suh SO, et al. Scheffersomyces parashehatae f.a., sp. nov., Scheffersomyces xylosifermentans f.a., sp. nov., Candida broadrunensis sp. nov., and Candida manassasensis sp. nov., four novel yeasts associated with wood- ingesting insects and their ecological and biofuel implications. Int. J. Syst. Evol. Microbiol. 63: 4330-4339, 2013. PubMed: 24014624

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