中文名称 食酸戴尔福特菌SHBCC D50161 拉丁名 Delftia acidovorans 模式菌株 非模式菌株 主要用途 具体用途 生物危害程度 四类 培养基名称 营养肉汁琼脂 培养基成分 蛋白胨10.0g牛肉侵出物3.0gNaCl5.0g琼脂15.0g 蒸馏水 1.0LpH 7.0 培养温度 30℃ 需氧类型 保存方法 冷藏4-10℃ 提供形式 冻干物 价格 800...
货号:NCTC 10683 品牌:NCTC 产品系列:NCTC原代菌株 包装:1支 保存条件:4-10℃ 有效期: 产地:英国 产品介绍 Dermacoccus nishinomiy...Deinococcus radiophilu...
货号: Delftia acidovorans ATCC 43868 英文名称: ATCC: The Global Bioresource Center 保质期: 10年 个月 保存条件: 4度 本公司提供ATCC标准菌株,有菌种进口证书,每套菌种菌包含标准冻干菌株以及菌株复溶液,方便成活 【产品用途】ATCC、CMCC标准菌种、标准菌株、质控菌种、质控菌株用于实验室质控、检测 ATCC...
Delftia acidovorans 中文别名: 食酸戴尔福特菌;代尔夫特食酸菌 CBNumber: CB35538213 分子式: 分子量: 0 MOL File: Mol file 化学性质安全信息用途供应商8 Delftia acidovorans化学性质 安全信息 Delftia acidovorans性质、用途与生产工艺 Delftia acidovorans上下游产品信息 ...
Delftia acidovorans is an aerobic, non fermentative gram negative rod that belongs to the Pseudomonas ribosomal Ribonucleic Acid (rRNA) homology Group III. The sources of isolation are sludge, biological waste water treatment plants. Patients in hospitals or with c...
价格:3200元 代购价格:询价 联系方式:I47-825O-882O 相关技术服务:微生物基因敲除和回补立刻购买 买家导航 ATCC17455标准菌株基本信息 出品公司: ATCC 菌种名称: ATCC 17455, ATCC17455 菌种又名: 80 [Urbana A] ATCC 49624 菌株类型: Delftia acidovorans,丛毛单胞菌食酸 存储人: RY Stanier 分离来源: ...
Delftia acidovorans, formerly called as Comamonas acidovorans,is a non-fermentative gram-negative bacteria.A 79 year-old male with chronic obstructive pulmonarydisease was hospitalized in the intensive care unit. Bilateralrespiratory sounds were diminished, he had roughrhonchi. He was started sulbactam...
14 Delftia acidovorans has been reported as an agent of catheter-associated BSI, endocarditis associated with intravenous drug use, conjunctivitis, and otitis.15–17 Antibiotic susceptibility of this group of organisms is variable, but most isolates are susceptible to broad-spectrum cephalosporin, ...
ChemicalBook 致力于为化学行业用户提供Delftia acidovorans的性质、化学式、分子式、比重、密度,同时也包括Delftia acidovorans的沸点、熔点、MSDS、用途、作用、毒性、价格、生产厂家、用途、上游原料、下游产品等信息。
acidovorans only can convert phenolic substrates with the hydroxy group in the para position; while in S. setonii, non-phenolic aromatic compounds also can be converted (Muheim and Lerch, 1999). A new coenzyme A-dependent, non-β-oxidation pathway and not direct deacetylation of FA was ...