| 出品公司: | ATCC |
|---|---|
| 菌种名称: | ATCC 9056, ATCC9056 |
| 菌种又名: | NRRL 864 [42, 4733.21, ATCC 10418, CBS 257.29, DSM 3825, Dierckx, IMI 40225, MUCL 30241, NRRL 2011, QM 7496] |
| 菌株类型: | Penicillium brevicompactum,短枝青霉 |
| 存储人: | NRRL |
| 产品目录号: | 9056 |
| 培养基: |
ATCC培养基312:察氏琼脂 ATCC培养基323:麦芽琼脂培养基 ATCC培养基336:马铃薯葡萄糖琼脂(PDA) |
| 生长条件: | 24-26 ℃, 典型需氧菌 |
| 生物安全等级: | 1 |
| 模式菌株: | 是 |
| 应用: |
产苯丙氨酯、生产短杆菌酰胺A、生产短杆菌酰胺B、麦角甾醇的制备、生产羟基林丹烷、霉酚酸的制备、生产杀虫剂羟基吲哚烷
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| 菌株特点: |
ATCC 9056是Penicillium brevicompactum,短枝青霉。 ATCC 9056能够在ATCC培养基312:察氏琼脂、ATCC培养基323:麦芽琼脂培养基、ATCC培养基336:马铃薯葡萄糖琼脂(PDA)中生长。
Nucleotide (GenBank) : JQ070074 ITS including 5.8S rRNA gene
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| 参考文献: |
Bird BA, Campbell IM. Disposition of mycophenolic acid, brevianamide A, asperphenamate, and ergosterol in solid cultures of Penicillium brevicompactum. Appl. Environ. Microbiol. 43: 345-348, 1982.
Bartman CD. Mycophenolic acid production by Penicillium brevicompactum on solid media. Appl. Environ. Microbiol. 41: 729-736, 1981.
. The genus Penicillium. London: Academic Press; 1979.
Doerfler DL, et al. Spore germination, colony development, and secondary metabolism in Penicillium brevicompactum: a radiogas chromatographic and morphological study. Can. J. Microbiol. 24: 1490-1501, 1978. PubMed: 747811
Chien MM, Rosazza JP. Microbial transformations of natural antitumor agents. 9. O-Demethylation of 9-methoxyellipticine. J. Nat. Prod. 42: 643-647, 1979. PubMed: 575547
Bird BA, Campbell IM. Occurrence and biosynthesis of asperphenamate in solid cultures of Penicillium brevicompactum. Phytochemistry 21: 2405-2406, 1982.
Hoffmann JJ, et al. Hydroxygrindelane derivatives by microbial transformation. Phytochemistry 27: 2125-2127, 1988.
Bird BA, et al. Brevianamides A and B are formed only after conidiation has begun in solid cultures of Penicillium brevicom pactum. Appl. Environ. Microbiol. 42: 521-525, 1981.
Clutterbuck PW, Raistrick H. Studies in the biochemistry of microorganisms. The molecular constitution of the metabolic products of Penicillium brevi-compactum Dierckx and related species. II. Mycophenolic acid. Biochem. J. 27: 654-667, 1933.
Houbraken J, Samson RA. Phylogeny of Penicillium and the segregation of Trichocomaceae into three Families. Stud Mycol 70: 1-51, 2011. PubMed: 22308045
Peterson SW, Horn BW. Penicillium parvulum and Penicillium georgiense, sp. nov., isolated from the conidial heads of Aspergillus species. Mycologia 101: 71-83, 2009. PubMed: 19274850
An KD, et al. The identity of Penicillium sp. 1, a major contaminant of the stone chambers in the Takamatsuzuka and Kitora Tumuli in Japan, is Penicillium pineum. Antonie van Leeuwenhoek 96: 579-592, 2009. PubMed: 19784794
Scott JA, et al. A survey of Penicillium brevicompactum and P. bialowiezense from indoor environments with commentary on the taxonomy of the P. brevicompactum group. Can J Bot 86: 732-741, 2008.
Wang L, Zhang XM, Zhuang WY. Penicillium macrosclerotiorum, a new species producing large sclerotia discovered in south China. Mycol Res 111: 1242-1248, 2007. PubMed: 17998158
Serra R, Peterson SW. Penicillium astrolabium and Penicillium neocrassum, two new species isolated from grapes and their phylogenetic placement in the P. olsonii and P. brevicompactum clade. Mycologia 99: 78-87, 2007. PubMed: 17663125
Peterson SW. Multilocus DNA sequence analysis shows that Penicillium biourgeianum is a distinct species closely related to P. brevicompactum and P. olsonii. Mycol Res 108: 434-440, 2004. PubMed: 15209283
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