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首页 / 美国ATCC / ATCC菌种类 / 黑曲霉
黑曲霉
    黑曲霉
  • 平台编号:bio-67692
  • 拉丁属名:Aspergillus niger
  • 规格:freeze-dried
  • 用途:ATCC原装进口
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    Aspergillus niger van Tieghem 拉丁名

    (ATCC 16888 ) 统一编号

    Strain Designations 别名 WB 326 [CBS 554.65, IMI 50566, NRRL 326; 2766] 

    Application 用途 Produces aniline ;Produces gluconic acid; Produces glucose oxidase ;Produces glucosidase, beta; acid Glucosidase, beta, acid, glucocerebrosidase; Produces kynureninase-type enzymes ;Produces pergolide sulfone; Produces pergolide sulfoxide; Produces pseudonigeron (1-3)-alpha-D-glucan ;Degrades: pulp and paper-mill wastewater ;Fermentation of tannin-gallic acid ;Transformation of sesquiterpene lactone costunolide ;Transformation of acetanilide to aniline ;Transformation of pergolide to pergolide sulfoxide and pergolide sulfone 

    Biosafety Level 生物安全等级 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 保藏条件

    Frozen 冷冻物: -80℃ or colder 

    Freeze-Dried 冻干物: 2℃ to 8℃ 

    Live Culture: See Propagation Section 

    Type Strain 模式菌种 yes (Al-Musallam A Revision of the black Aspergillus species, 1980) 

    Preceptrol® yes 

    Comments 注释 Aspergillus reference strain for identification and morphological observation recommended by the International Commission on Penicillium and Aspergillus (ICPA) Structure of galactomannan 

    Medium 培养基 ATCC Medium 325: Malt extract agar (Blakeslee's formula) 

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

    ATCC Medium 336: Potato dextrose agar (PDA) 

    Growth Conditions

    Temperature: 24℃ to 26℃ 

    Atmosphere: Typical aerobic 

    Sequenced Data 18S ribosomal RNA gene, partial sequence; internal transcribed spacer 1, 5.8S ribosomal RNA gene, and internal transcribed spacer 2, complete sequence; and 28S ribosomal RNA gene, partial sequence

    GGTTTCCGTAGGTGAACCTGCGGAAGGATCATTACCGAGTGCGGGTCCTTTGGGCCCAACCTCCCATCCGTGTC

    TATTGTACCCTGTTGCTTCGGCGGGCCCGCCGCTTGTCGGCCGCCGGGGGGGCGCCTCTGCCCCCCGGGCCCG

    TGCCCGCCGGAGACCCCAACACGAACACTGTCTGAAAGCGTGCAGTCTGAGTTGATTGAATGCAATCAGTTA

    AAACTTTCAACAATGGATCTCTTGGTTCCGGCATCGATGAAGAACGCAGCGAAATGCGATAACTAATGTGAAT

    TGCAGAATTCAGTGAATCA

    TCGAGTCTTTGAACGCACATTGCGCCCCCTGGTATTCCGGGGGGCATGCCTGTCCGAGCGTCATTGCTGCCC

    TCAAGCCCGGCTTGTGTGTTGGGTCGCCGTCCCCCTCTCCGGGGGGACGGGCCCGAAAGGCAGCGGCGGCACC

    GCGTCCGATCCTCGAGCGTATGGGGCTTTGTCACATGCTCTGTAGGATTGGCCGGCGCCTGCCGACGTTTTCCA

    ACCATTCTTTCCAGGTTGACCTCGGATCAGGTAGGGATACCCGCTGAACTTAAGCATATCAATAA

    D1D2 region of the 28S ribosomal RNA gene

    ATATCAATAAGCGGAGGAAAAGAAACCAACCGGGATTGCCTCAGTAACGGCGAGTGAAGCGGCAAGA

    GCTCAAATTTGAAAGCTGGCTCCTTCGGAGTCCGCATTGTAATTTGCAGAGGATGCTTTGGGTGCGGCCCCC

    GTCTAAGTGCCCTGGAACGGGCCGTCAGAGAGGGTGAGAATCCCGTCTTGGGCGGGGTGTCCGTGCCCGTG

    TAAAGCTCCTTCGACGAGTCGAGTTGTTTGGGAATGCAGCTCTAAATGGGTGGTAAATTTCATCTAAAGCT

    AAATACTGGCCGGAGACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGAGTTA

    AACAGCACGTGAAATTGT

    TGAAAGGGAAGCGCTTGCGACCAGACTCGCCCGCGGGGTTCAGCCGGCATTCGTGCCGGTGTACTTCCCCGTG

    GGCGGGCCAGCGTCGGTTTGGGCGGCCGGTCAAAGGCCCCTGGAATGTAGTGCCCTCCGGGGCACCTTATAGCC

    AGGGGTGCAATGCGGCCAGCCTGGACCGAGGAACGCGCTTCGGCACGGACGCTGGCATAATGGTCGTAAACGAC

    Beta-tubulin (bTub)

    TTGCCCTCCCCGTCCCTCGTCCGTCAGGAGACGCGTCGTTGGTTGGCATCTCTTTTGCTCGGGACCCCACCGG

    TTCTTCGACCAACTCATTCTTGTGCTAACTGCATGTCTTCTTCGCTTCATAGGTTCACCTCCAAACCGGCCAGTGTGTAAGTG

    CCAATATATGCTTCGGATGATTGCCCCCAAGGGTCTTGATTGGTGTTTGGTGGACTAAACAATATATCATGGTGGTTAGG

    GTAACCAAATTGGTGCTGCTTTCTGGTACGTATACAACTGCCATTGGATTGGGGATGGAACATCGTCTCTTAGGCTATCTCAGCTT

    GAGTTCAGATGTTGTCCATTAGGTACATGCTATCGGTCTAAGAACACGTCTAACAATTCAACAGGCAGACCATCTCTGGCGAGC

    ACGGCCTTGACGGCTCCGGTGTGTAAGTGCAACTTTTTCACACCTCTCAATTGGTCAACAATGGGCAAAGGGTTGGGTCTTCTG

    ACACGCAGGATAGTTACAATGGCACCTCCGACCTCCAGCTGGAGCGCATGAACGTCTACTTCAACGAGGTGAGATCCATCGG

    ACCTTGGCTTTTTCACGACAATATCATCAATGTCCTAATCACTTCAGCAGGCTAGCGGTAACAAGTATGTTCCTCGTGCCGTCCTC

    GTCGACCTCGAGCCCGGTACCATGGACGCCGTCCGTGCCGGTCCTTTCGGCCAGCTCTTCCGCCCCGACAACTTCGTCTTCGG

    CCAGTCCGGTGCTGGTAACAACTGG

    Name of Depositor寄存者 KB Raper, DI Fennell

    Chain of Custody 来源国家 ATCC <-- KB Raper, DI Fennell <-- NRRL 326 <-- C Thom 2766 <-- A Hollander

    Isolation分离基物 Not available.

    Cross ReferencesNucleotide (GenBank) : KU729129 D1/D2 region of 28S rRNA gene

    Nucleotide (GenBank) : FJ195350 ITS including 5.8S rRNA gene

    References 参考文献 Storm AM, Gasner LL. Treatment of pulp mill wastes. US Patent 3,737,374 dated Jun 5 1973

    Klich MA, et al. Aspergillus reference cultures. New Orleans and Baarn: International Commission on Penicillium and Aspergillus; 1996.

    Al-Musallam A Revision of the black Aspergillus species, 1980

    Raper KB, Fennell DI. The genus Aspergillus. Baltimore: Williams & Wilkins; 1965.

    Bardalaye PC, Nordin JH. Chemical structure of the galactomannan from the cell wall of Aspergillus niger. J. Biol. Chem. 252: 2584-2591, 1977. PubMed: 856795

    Lasswell WL, et al. An undergraduate experiment in pharmacognosy: the microbial biotransformation of acetanilide by Aspergillus species. Am. J. Pharm. Educ. 47: 127-129, 1983.

    Clark AM, Hufford CD. Microbial transformations of the sesquiterpene lactone costunolide. J. Chem. Soc. Perkin Trans. 1979: 3022-3028, 1979.

    Smith RV, et al. Microbial transformations of pergolide to pergolide sulfoxide and pergolide sulfone. J. Pharm. Sci. 72: 733-736, 1983. PubMed: 6684155

    Horisberger M, et al. Structure of A (1--->3) -alpha-D-glucan (pseudonigeron) of Aspergillus niger NRRL 326 cell wall. Carbohydr. Res. 23: 183-188, 1972. PubMed: 4340387

    Witte K, Wartenberg A. Purification and properties of two beta-glucosidases isolated from Aspergillus niger. Acta Biotechnol. 9: 179-190, 1989.

    Murado MA, et al. Enhancement of the bioproduction potential of an amylaceous effluent. Bioresour. Technol. 44: 155-163, 1993.

    Shetty AS, Gaertner FH. Kynureninase-type enzymes of Penicillium roqueforti, Aspergillus niger, Rhizpus stolonifer, and Pseudomonas fluorescens: Further evidence for distinct kynureninase and hydroxykynureninase activities. J. Bacteriol. 122: 235-244, 1975. PubMed: 164432

    FF MicroPlate. Biolog.

    Lawrence DP, et al. Interkingdom gene transfer of a hybrid NPS/PKS from bacteria to filamentous Ascomycota. PLoS One 6: e28231, 2011. PubMed: 22140558

    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

    Yamada O, et al. Molecular biological researches of Kuro-Koji molds, their classification and safety. J. Biosci. Bioeng. 112: 233-237, 2011. PubMed: 21641278

    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

    Serra R, et al. Aspergillus ibericus: a new species of section Nigri isolated from grapes. Mycologia 98: 295-306, 2006. PubMed: 16894975

    Bau M, et al. DNA-based characterization of ochratoxin-A-producing and non-producing Aspergillus carbonarius strains from grapes. Res. Microbiol. 156: 375-381, 2005. PubMed: 15808942Shimoda M, et al. Accelerated death kinetics of Aspergillus niger spores under high-pressure carbonation. Appl. Environ. Microbiol. 68: 4162-4167, 2002. PubMed: 12147527

    Henry T, Iwen PC, Hinrichs SH. Identification of Aspergillus species using internal transcribed spacer regions 1 and 2. J. Clin. Microbiol. 38: 1510-1515, 2000. PubMed: 10747135

    Perrone G, et al. Ochratoxin A production and amplified fragment length polymorphism analysis of Aspergillus carbonarius, Aspergillus tubingensis, and Aspergillus niger strains isolated from grapes in Italy. Appl. Environ. Microbiol. 72: 680-685, 2006. PubMed: 16391107