| 出品公司: | ATCC |
|---|---|
| 菌种名称: | ATCC 58048, ATCC58048 |
| 菌种又名: | NRRL Y-2155 [CBS 4140, CCRC 22172, IFO 0980, JCM 3608, NBRC 0980] |
| 菌株类型: | Nakazawaea holstii |
| 存储人: | NRRL |
| 分离来源: | Frass of apparent yellow spruce, Picea rubens, Gaspe Peninsula, Canada. |
| 产品目录号: | 58048 |
| 其他保藏库编号: | BCRC22172,AJ 5038 ;ATCC 58048 ;CBS 4140 ;IFO 980 ;JCM 3608 ;NRRL Y-2155 |
| 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323:麦芽琼脂培养基
|
| 生长条件: | 24-26℃, 有氧 |
| 生物安全等级: | 1 |
| 模式菌株: | 是 |
| 应用: | 科研,生产,主要用于在pH5.5和7.5下产生活性脂肪酶。 |
| 菌株特点: |
ATCC 58048 是,Nakazawaea holstii 。 |
| 参考文献: |
Kurtzman CP, Robnett CJ. Description of Kuraishia piskuri f.a., sp. nov., a new methanol assimilating yeast and transfer of phylogenetically related Candida species to the genera Kuraishia and Nakazawaea as new combinations. FEMS Yeast Res. 14: 1028-1036, 2014. PubMed: 25132542
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
Koufopanou V, et al. Primers for fourteen protein-coding genes and the deep phylogeny of the true yeasts. FEMS Yeast Res. 13: 574-584, 2013. PubMed: 23786589
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
Tsui CK, et al. Re-examining the phylogeny of clinically relevant Candida species and allied genera based on multigene analyses. FEMS Yeast Res. 8: 651-659, 2008. PubMed: 18248416
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
Leaw SN, et al. Identification of medically important yeast species by sequence analysis of the internal transcribed spacer regions. J. Clin. Microbiol. 44: 693-699, 2006. PubMed: 16517841
Daniel HM, Meyer W. Evaluation of ribosomal RNA and actin gene sequences for the identification of ascomycetous yeasts. Int. J. Food Microbiol. 86: 61-78, 2003. PubMed: 12892922
Suzuki M, Nakase T. A phylogenetic study of ubiquinone Q-8 species of the genera Candida, Pichia, and Citeromyces based on 18S ribosomal DNA sequence divergence. J. Gen. Appl. Microbiol. 45: 239-246, 1999. PubMed: 12501366
Kurtzman CP, Robnett CJ. Identification and phylogeny of ascomycetous yeasts from analysis of nuclear large subunit (26S) ribosomal DNA partial sequences. Antonie van Leeuwenhoek 73(4): 331-371, 1998. PubMed: 9850420
Yamada, Y, Maeda, K, Mikata, K. The phylogenetic relationships of the hat-shaped ascospore-forming, nitrate-assimilating Pichia species, formerly classified in the genus Hansenula Sydow et Sydow, based on the partial sequences of 18S and 26S ribosomal RNAs (Saccharomycetaceae): the proposals of three new genera, Ogataea, Kuraishia, and Nakazawaea. Biosci Biotech Biochem 58: 1245-1257, 1994.
Hou CT. pH dependence and thermostability of lipases from cultures from the ARS Culture Collection. J. Ind. Microbiol. 13: 242-248, 1994.
Wickerham LJ. Hansenula holstii, a new yeast important in the early evolution of the heterothallic species of its genus. Mycologia 52: 171-183, 1960.
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