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微信小章| 产品名称: | Mycobacterium austroafricanum Tsukamura et al. |
|---|---|
| 商品货号: | TS151858 |
| Deposited As: | Mycobacterium vaccae Bonicke and Juhasz |
| Strain Designations: | JOB-5 CIP 105723, DSM 14262, NCIB 11807 |
| Application: | Degrades trichloroethylene Degrades vinyl chloride chloroethylene Degrades vinylidene chloride 1,1-dichloroethylene Produces alcohol dehydrogenase Produces secondary alcohol dehydrogenases Reduces 4-chloro-1-(4-fluorophenyl)butan-1-one |
| Isolation: | Soil |
| Biosafety Level: | 2
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: | freeze-dried |
| Preceptrol®: | no |
| Type Strain: | no |
| Comments: | Substrate specificity Metabolism of propane, n-propylamine and propionate Metabolism of hydrocarbons Fatty acid composition |
| Medium: | ATCC® Medium 990: Mycobacterium yeast extract medium |
| Growth Conditions: | Temperature: 30.0°C |
| Name of Depositor: | JJ Perry |
| Chain of Custody: | ATCC < |
| References: | Beam HW, Perry JJ. Microbial degradation of cycloparaffinic hydrocarbons via co-metabolism and commensalism. J. Gen. Microbiol. 82: 163-169, 1974. Beam HW, Perry JJ. Microbial degradation and assimilation of n-alkyl-substituted cycloparaffins. J. Bacteriol. 118: 394-399, 1974. PubMed: 4597441 Coleman JP, Perry JJ. Purification and characterization of the secondary alcohol dehydrogenase from propane-utilizing Mycobacterium vaccae strain JOB-5. J. Gen. Microbiol. 131: 2901-2907, 1985. PubMed: 3912461 Wackett LP, et al. Survey of microbial oxygenases: trichloroethylene degradation by propane-oxidizing bacteria. Appl. Environ. Microbiol. 55: 2960-2964, 1989. PubMed: 2624467 Beam HW, Perry JJ. Co-metabolism as a factor in microbial degradation of cycloparaffinic hydrocarbons. Arch. Mikrobiol. 91: 87-90, 1973. PubMed: 4711459 Perry JJ. Substrate specificity in hydrocarbon utilizing microorganisms. Antonie van Leeuwenhoek 34: 27-36, 1968. PubMed: 5300487 . . J. Bacteriol. 96: 318-321, 1968. Vestal JR, Perry JJ. Divergent metabolic pathways for propane and propionate utilization by a soil isolate. J. Bacteriol. 99: 216-221, 1969. PubMed: 5802607 Vestal JR, Perry JJ. Effect of substrate on the lipids of the hydrocarbon-utilizing Mycobacterium vaccae. Can. J. Microbiol. 17: 445-449, 1971. PubMed: 4324207 Patel RN, et al. Microbial reduction of 1-(4-fluorophenyl)-4-4-(5-fluoro-2-pyrimidinyl)-1-piperazinylbutan-1-one. Biotechnol. Appl. Biochem. 17: 139-153, 1993. PubMed: 8166884 . . J. Bacteriol. 112: 513-518, 1972. Blevins WT, Perry JJ. Efficiency of a soil Mycobacterium during growth on hydrocarbons and related substrates. Z. Allg. Mikrobiol. 11: 181-190, 1971. PubMed: 5113360 Dunlap KR, Perry JJ. Effect of substrate on the fatty acid composition of hydrocabon- utilizing microorganisms. J. Bacteriol. 94: 1919-1923, 1967. PubMed: 6074400 King DH, Perry JJ. The origin of fatty acids in the hydrocarbon-utilizing microorganism Mycobacterium vaccae. Can. J. Microbiol. 21: 85-89, 1975. PubMed: 1116040 King DH, Perry JJ. Characterization of branched and unsaturated fatty acids in Mycobacterium vaccae strain JOB5. Can. J. Microbiol. 21: 510-512, 1975. PubMed: 1122427 Ooyama J, Foster JW. Bacterial oxidation of cycloparaffinic hydrocarbons. Antonie van Leeuwenhoek 31: 45-65, 1965. ATCC lab data ATCC internal laboratory data |
| Cross References: | Nucleotide (GenBank) : Y07719 M.vaccae gene segment of 32-kDa protein. |