ATCC9029

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ATCC9029标准菌株基本信息

出品公司: ATCC
菌种名称: ATCC9029, ATCC 9029
菌种又名: A1143 NRRL 3 [3; 320, CBS 120.49, DSM 2466, IMI 41876, N400, NRRL 566, WB 3, WB 566]
菌株类型: 黑曲霉,Aspergillus niger
存储人: NRRL
分离来源:  
产品目录号: 9029
其他保藏库编号: BCRC32720,ATCC 9029 ;CBS 120.49 ;IMI 41876 ;NRRL 566 ;WB 3 ;DSM 2466 ;MUCL 30480
培养基:
ATCC® Medium 325: Malt extract agar (Blakeslee's formula)
ATCC® Medium 200: YM agar or YM broth
ATCC® Medium 336: Potato dextrose agar (PDA)
生长条件: 24-26 ℃,  有氧
生物安全等级: 1
模式菌株:
应用: 科研,生产,主要用于生产4-硝基苯基磷酸酶,产D-木糖脱氢酶,苹果酸,木糖还原酶,产酸蛋白酶蛋白酶,阿拉伯呋喃糖苷酶,阿拉伯呋喃糖苷酶,柠檬酸生产,内阿拉伯糖酶,产气酸酯酶,葡萄糖酸,葡糖三角洲内酯,葡萄糖氧化酶,葡萄糖核酸酶,产林可霉素亚砜,尿素酶尿素酶,转换主机,Degrades:Pulp and paper-mill wastewater,柠檬酸的小麦渗透物,在制备醛酸和醛酸组合物中产生葡萄糖酸的方法
菌株特点:
ATCC 9029是黑曲霉,Aspergillus niger 。Nucleotide (GenBank) : KU729033 ITS including 5.8S rRNA gene
 
Nucleotide (GenBank) : KU729117 D1/D2 region of 28S rRNA gene
 
Nucleotide (GenBank) : KU897006 beta-tubulin gene
 
Nucleotide (GenBank) : X58892 polygalacturonase gene, pgaI
 
Nucleotide (GenBank) : X55784 pectin lyase gene, pelA, 5' end
 
Nucleotide (GenBank) : J05242 A.niger glucose oxidase mRNA, complete cds.
 
Nucleotide (GenBank) : Z26938 A.niger cprA gene for NADPH cytochrome P450 oxidoreductase.
 
Nucleotide (GenBank) : L19059 subtilisin-like protease gene, pepD, complete coding sequence
 
参考文献:
Bercovitz A, et al. Localization of pyruvate carboxylase in organic acid-producing Aspergillus strains. Appl. Environ. Microbiol. 56: 1594-1597, 1990. PubMed: 2383004
 
Versaw WK, et al. Purification and properties of a 4-nitrophenylphosphatase from Aspergillus niger. Arch. Biochem. Biophys. 287: 85-90, 1991. PubMed: 1654806
 
Faulds CB, Williamson G. Purification and characterization of a ferulic acid esterase (FAE-III) from Aspergillus niger: specificity for the phenolic moiety and binding to microcrystalline cellulose. Microbiology 140: 779-787, 1994.
 
Witteveen CF, et al. Isolation and characterization of two xylitol dehydrogenases from Aspergillus niger. Microbiology 140: 1679-1685, 1994.
 
Ziffer J, et al. Aldonic acid and aldonate compositions and production thereof. US Patent 3,454,501 dated Jul 8 1969
 
Argoudelis AD, Mason DJ. Production of lincomycin sulfoxide. US Patent 3,616,244 dated Oct 26 1971
 
Lakshminarayanan K. Method for the production of glucose oxidase. US Patent 3,701,715 dated Oct 31 1972
 
Storm AM, Gasner LL. Treatment of pulp mill wastes. US Patent 3,737,374 dated Jun 5 1973
 
Peppler HJ. Microbial technology. New York: Reinhold; 1967.
 
v.d. Veen P, et al. Induction, purification and characterisation of arabinases produced by Aspergillus niger. Arch. Microbiol. 157: 23-28, 1991. PubMed: 1814275
 
Jarai G, et al. Cloning and characterization of the pepD gene of Aspergillus niger which codes for a subtilisin-like protease. Gene 139: 51-57, 1994. PubMed: 8112588
 
Harmsen JA, et al. Cloning and expression of a second Aspergillus niger pectin lyase gene (pelA): indications of a pectin lyase gene family in A. niger. Curr. Genet. 18: 161-166, 1990. PubMed: 2225145
 
Bussink HJ, et al. Identification and characterization of a second polygalacturonase gene of Aspergillus niger. Curr. Genet. 20: 301-307, 1991. PubMed: 1934135
 
Jarai G, Buxton F. Nitrogen, carbon, and pH regulation of extracellular acidic proteases of Aspergillus niger. Curr. Genet. 26: 238-244, 1994. PubMed: 7532112
 
Li TH, Chen TL. Enhancement of glucose oxidase fermentation by addition of hydrocarbons. J. Ferment. Bioeng. 78: 298-303, 1994.
 
Gottschalk TE, et al. Detection of endogenous beta-glucuronidase activity in Aspergillus niger. Appl. Microbiol. Biotechnol. 45: 240-244, 1996. PubMed: 8920195
 
Smith PT, et al. Isolation and characterization of urease from Aspergillus niger. J. Gen. Microbiol. 139: 957-962, 1993. PubMed: 8336111
 
Faulds CB, Williamson G. Release of ferulic acid from wheat bran by a ferulic acid esterase (FAE- III) from Aspergillus niger. Appl. Microbiol. Biotechnol. 43: 1082-1087, 1995. PubMed: 8590660
 
Frederick KR, et al. Glucose oxidase from Aspergillus niger. Cloning, gene sequence, secretion from Saccharomyces cerevisiae and kinetic analysis of a yeast-derived enzyme [published erratum appears in J. Biol. Chem. 265: 11405, 1990]. J. Biol. Chem. 265: 3793-3802, 1990. PubMed: 2406261
 
Khanh NQ, et al. Effects of promoters on the enhancement of pectin methyl esterase expression in Aspergillus niger. Biotechnol. Lett. 14: 1047-1052, 1992.
 
Dronawat SN, et al. The effects of agitation and aeration on the production of gluconic acid by Aspergillus niger. Appl. Biochem. Biotechnol. 51/52: 347-354, 1995.
 
. . Egypt J. Food Sci. 5: 9-20, 1977.
 
Murray FR, et al. Isolation of the glucose oxidase gene from Talaromyces flavus and characterisation of its role in the biocontrol of Verticillium dahliae. Curr. Genet. 32: 367-375, 1997. PubMed: 9371889
 
. . Egypt J. Food Sci. 5: 21-29, 1977.
 
Blom RH, et al. Sodium gluconate production. Fermentation with Aspergillus niger. Ind. Eng. Chem. 44: 435-440, 1952.
 
Somkuti GA, Bencivengo MM. Citric acid fermentation in whey permeate. Dev. Ind. Microbiol. 22: 557-563, 1981.
 
Andersen MR, et al. Comparative genomics of citric-acid-producing Aspergillus niger ATCC 1015 versus enzyme-producing CBS 513.88. Genome Res. 21: 885-897, 2011. PubMed: 21543515
 
Howard SJ, et al. Cryptic species and azole resistance in the Aspergillus niger complex. Antimicrob Agents Chemother 55: 4802-4809, 2011. PubMed: 21768508
 
Martens-Uzunova ES, Schaap PJ. An evolutionary conserved d-galacturonic acid metabolic pathway operates across filamentous fungi capable of pectin degradation. Fungal Genet Biol 45: 1449-1457, 2008. PubMed: 18768163
 
Peterson SW. Phylogenetic analysis of Aspergillus species using DNA sequences from four loci. Mycologia 100: 205-226, 2008. PubMed: 18595197
 
Geiser DM, et al. The current status of species recognition and identification in Aspergillus. Stud Mycol 59: 1-10, 2007. PubMed: 18490947
 
Semova N, et al. Generation, annotation, and analysis of an extensive Aspergillus niger EST collection. BMC Microbiol 6: 7-7, 2006. PubMed: 16457709
 
Basten DE, et al. Characterisation of Aspergillus niger prolyl aminopeptidase. Mol Genet Genomics 272: 673-679, 2005. PubMed: 15654623
 
Poulsen BR, et al. Increased NADPH concentration obtained by metabolic engineering of the pentose phosphate pathway in Aspergillus niger. FEBS J 272: 1313-1325, 2005. PubMed: 15752350
 
Basten DEJW, Dekker PJT, Schaap PJ. Aminopeptidase C of Aspergillus niger is a novel phenylalanine aminopeptidase. Appl Environ Microbiol 69: 1246-1250, 2003. PubMed: 12571053
 
de Vries RP, et al. Regulation of the alpha-glucuronidase-encoding gene (aguA) from Aspergillus niger. Mol Genet Genomics 268: 96-102, 2002. PubMed: 12242504
 
de Vries RP, et al. The Aspergillus niger faeB gene encodes a second feruloyl esterase involved in pectin and xylan degradation, and is specifically induced on aromatic compounds. J Biochem 36: 377-386, 2002. PubMed: 11931668
 
de Vries RP, et al. The beta-1,4-endogalactanase A gene from Aspergillus niger is specifically induced on arabinose and galacturonic acid and plays an important role in the degradation of pectic hairy regions. Eur J Biochem 269: 4985-4993, 2002. PubMed: 12383257
 
de Vries RP, et al. Expression profiling of pectinolytic genes from Aspergillus niger. FEBS Lett 530: 41-47, 2002. PubMed: 12387863

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