白僵菌 ATCC菌种 BIOBW生物

详情描述：

Deposited As Sporotrichum sulfurescens van Beyma
Strain Designations 菌株别名 CBS 209.27 [DSM 1344]
Application 用途
Hydrolyzes 1,2-dihydronaphthalene
Hydrolyzes 1,2-epoxyindene
Hydrolyzes styrene oxide
Hydroxylates polycyclic enones Metabolizes phencyclidine Oxidizes arteether Oxidizes dialkylbenzen
Hydroxylates e Produces 2-deuterio-cycloalkanones
Produces 3-deuterio-cycloalkanones
Produces carbomycin derivatives magnamycin derivatives
Produces hydroxymethylpyridines (isomeric)
Produces leucomycin derivatives
Produces niddamycin derivatives
Hydroxylation of 7-azabrendane and 6-azatwistane derivatives
Hydroxylation of synthetic polycyclic enones Reduction of alpha, beta-unsaturated ketones Converts isosorbide dinitrate to isosorbide 5-mononitrate Transformation of pergolide to pergolide sulfoxide Glycosylation of 2,2,5,7,8-pentamethyl-6-hydroxychroman
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 生长条件
Frozen 冷冻物 : -80℃ or colder
Freeze-Dried 冻干物 : 2℃ to 8℃
Live Culture 活菌 : See Propagation Section
Preceptrol? no
Medium 培养基 ATCC? Medium 200: YM agar or YM broth
 ATCC? Medium 324: Malt extract agar
 ATCC? Medium 336: Potato dextrose agar (PDA)
Growth Conditions 生长条件
 Temperature 培养温度 : 24℃ to 26℃
Atmosphere 需氧情况 : 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
GGTCTCCGTTGGTGAACCAGCGGAGGGATCATTACCGAGTTTTCAACTCCCTAACCCTTCTGTGAACCTAC
CTATCGTTGCTTCGGCGGACTCGCCCCAGCCCGGACGCGGACTGGACCAGCGGCCCGCCGGGGACCTC
AAACTCTTGTATTCCAGCATCTTCTGAATACGCCGCAAGGCAAAACAAATGAATCAAAACTTTCAACAACGG
ATCTCTTGGCTCTGGCATCGATGAAGAACGCAGCGAAACGCGATAAGTAATGTGAATTGCAGAATCCAGTG
AATCATCGAATCTTTGAACGCACATTGCGCCCGCCAGCATTCTGGCGGGCATGCCTGTTCGAGCGTCATTT
CAACCCTCGACCTCCCCTTGGGGAGGTCGGCGTTGGGGACCGGCAGCACACCGCCGGCCCTGAAATGGA
GTGGCGGCCCGTCCGCGGCGACCTCTGCGCAGTAATACAGCTCGCACCGGAACCCCGACGCGGCCACG
CCGTAAAACACCCAACTTCTGAACGTTGACCTCGAATCAGGTAGGACTACCCGCTGAACTTAAGCATATCAATAA D1D2
region of the 28S ribosomal RNA gene
ATATCAATAAGCGGAGGAAAAGAAACCAACAGGGATTGCCCCAGTAACGGCGAGTGAAGCGGCAACAGCTCA
AATTTGAAATCTGGCTCTCAGGGCCCGAGTTGTAATTTGTAGAGGATGCTTTTGGCGAGGTGCCTTCCGAGTT
CCCTGGAACGGGACGCCACAGAGGGTGAGAGCCCCGTATGGTCGGACACCGAGCCTCTGTAAAGCTCCTTC
GACGAGTCGAGTAGTTTGGGAATGCTGCTCAAAATGGGAGGTATATGTCTTCTAAAGCTAAATATTGGCCAGA
GACCGATAGCGCACAAGTAGAGTGATCGAAAGATGAAAAGCACTTTGAAAAGAGGGTTAAAAAGTACGTGAAA
TTGTTGAAAGGGAAGCGCCTATGACCAGACTTGCGCCCGGTGAATCACCCAGCGTTCTCGCTGGTGCACTTT
GCCGGGCACAGGCCAGCATCAGTTCAGCGCGGGGGAGAAAGGCTTCGGGAATGTGGCTCCCTCGGGAGTG
TTATAGCCCGCTGCGTAATGCCCTGCGCCGGACTGAGGTACGCGCATTGCAAGGATGCTGGCGTAATGGTCATCAGCGAC
RNA polymerase II largest subunit gene (RPB1)
CCATATAGAGCTGGCGAAACCTGTCTATCACCCTGGTTTCATCAAGAAAGTGAAAAAGGTTTTGGAGATTGTCTGCC
ACAACTGCAGCAAAGTGTTGGCCGATGAAGTTGGTCTTCCCTTTACTCCATGAAGCTCTGGAGCTTGCTGGATGCTA
ACGTGCATTATCAGAGCGATCCCGAATTCGTCACAGCTATTCATACTCGCGATCCGAAACTCCGATTCAAGCGCGTT
TGGGCCGTATGCAAGAAGAAGCGCAAATGCGAGAATGAGGAGCGGCAAGACAAGAATAAAGACGAAGAGTTCGCT
CCAGGTGTCAAGAACGTCGTTCTCGAAGGACATGGCGGATGTGGCAATATGCAGCCGCAGGTGAGACAGGCCGCGC
TGCAACTCAAAGCTGCCTTCGAGGTTACTTCGGAAGAGGGTCCCAAGAGGAAAGAGACGGTTAATATCAGCGCCGA
GATGGCGCATGGTATCCTTCGCCGCATCTCTGAGCGCGATCTGCACAATATTGGTCTTAACTCAGACTATGCTCGTCC
CGAGTGGATGATCATCACTGTCCTGCCTGTACCCCCTCCTCCCGTGCGTCCTAGTATTTCCATGGATGGTACTGGTAC
TGGCACGAGAAACGAGGATGATCTGACCTACAAGCTTGGTGACATTATCCGCGCCAACGGAAATGTCAAGCAGGCCA
TTCGTGAAGGATCACCGCAACACATCGCGCGTGATTTTGAGGAGCTGCTGCAGTACCATGTTGCCACC
Name of Depositor 寄存人 CBS
Chain of Custody 来源国家 ATCC <-- CBS <-- F.H. van Beyma
Isolation 分离源 Laboratory contaminant
References 参考文献 Ropenga JS, et al. Isosorbide dinitrate bioconversion by Beauveria strains: implication of glutathione transferase levels. Appl.Microbiol. Biotechnol. 31: 176-178, 1989.
Pedragosa-Moreau S, et al. Microbiological transformations. 28. Enantiocomplementary epoxide hydrolyses as a preparative access to both enantiomers of styrene oxide. J. Org. Chem. 58: 5533-5536, 1993.
Theriault RJ. Mycarosyl macrolide antibiotics. US Patent 3,784,447 dated Jan 8 1974 Taylor JJ. Further clarification of Sporotrichum species. Mycologia 62: 823, 1970.
Johnson RA, et al. Microbial oxygenation of dialkylbenzenes. Bioorg Chem 2: 99-110, 1973.
Kergomard A, et al. Microbiological reduction of alpha,beta-unsaturated ketones by Beauveria sulfurescens. J. Org. Chem. 47: 792-798, 1982.
Hu Y, et al. Microbial oxidataion of the antimalarial drug arteether. Bioorg. Chem. 20: 148-154, 1992.
Hufford CD, et al. Metabolism of phencyclidine by microorganisms. J. Pharm. Sci. 70: 155-158, 1981. PubMed: 7205218
Furstoss R, et al. Microbiological transformations 2. Hydroxylations of non activated carbons in globular type amides. Tetrahedron Lett 22: 445-448, 1981.
Dauphin G, et al. Microbiological synthesis and circular dichroism of optically active 2-deuterio-cycloalkanones. Tetrahedron Lett 21: 4275-4278, 1980.
Pedragosa-Moreau S, et al. Microbiological transformations. 31: Synthesis of enantiopure epoxides and vicinal diols using fungal epoxide hydrolase mediated hydrolysis. Tetrahedron Lett. 37: 3319-3322, 1996.
Dauphin G, et al. Microbial glycosylation of 2, 2, 5, 7, 8-pentamethyl- 6-hydroxychroman. Agric Biol Chem 53: 1433-1435, 1989.
Dauphin G, et al. Microbiological synthesis of optically active 3-deuterio-cycloalkanones. J. Chem. Soc. Chem. Commun. 1980: 318-319, 1980.
Smith RV, et al. Microbial transformations of pergolide to pergolide sulfoxide and pergolide sulfone. J. Pharm. Sci. 72: 733-736, 1983. PubMed: 6684155
Modyanova LV, et al. Microbial transformation of nitrogen-containing heterocyclic compounds. I. Hydroxylation of isomeric monomethylpyridines and dimethylpyridines by microscopic fungi. Biotekhnologiya 3: 24-27, 1990.
Hammoumi A, et al. Microbial hydroxylation and functionalization of synthetic polycyclic enones. Tetrahedron Asymmetry 4: 1295-1306, 1993.
Xu Y, et al. Biosynthesis of the cyclooligomer depsipeptide bassianolide, an insecticidal virulence factor of Beauveria bassiana. Fungal Genet. Biol. 46: 353-364, 2009. PubMed: 19285149
Xu Y, et al. Biosynthesis of the cyclooligomer depsipeptide beauvericin, a virulence factor of the entomopathogenic fungus Beauveria bassiana. Chem. Biol. 15: 898-907, 2008. PubMed: 18804027
type strain of Sporotrichum sulfurescens