菌种名:微小杆菌属 拉丁名:Exiguobacterium sp. 菌种编号:SHMCC(SHBCC) D18121 其他编号: 模式菌株:非模式菌株 主要用途:研究 具体用途:0 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 5.0g,牛肉浸取物 3.0g,NaCl 5.0g,琼脂 15.0g,蒸馏水 1.0L,pH7.0。[注] 培养芽孢杆菌时加入5mg MnSO...
Pantoeabacterial endophytebioremediationwhole genome sequencingPantoea sp. strain MHSD4 is a bacterial endophyte isolated from the leaves of the medicinal plant Pellaea calomelanos. Here, we report on strain MHSD4 draft whole genome sequence and annotation. The draft genome size of...
网络泛菌 网络释义 1. 泛菌 产品目录第144页-农业微生物菌种... ... 赫氏埃希菌 Escherichia hermannii泛菌Pantoea sp成团泛菌 Pantoea agglomerans ... www.mum800.com|基于 1 个网页
PantoeaExpressionPhytases (myo-inositol hexakisphosphate phosphohydrolase) catalyzes the stepwise hydrolysis of phosphate groups from phytic acid (myo-inositol hexakisphosphate) or its salt phytate. These enzymes could be potentially used for the stereospecific and efficient production of different myo-...
1.一种泛菌属菌Pantoea sp.M3(CCTCC No.M 207022),其具有降解孔雀石绿的能力。 2.权利要求1所述的泛菌属菌Pantoea sp.M3(CCTCC No.M 207022)用于降解孔雀石绿的方法,其特征在于取对数期该菌株,按2%~4%的重量百分比浓度添加到浓度为0.5mg/L~5mg/L的灭菌孔雀石绿降解培养液中,降解培养液组成按g/L计为:...
本发明公开了一种泛菌属菌Pantoea sp.M3(CCTCC No.M 207022)。这种细菌具有降解孔雀石绿的能力。取对数期该菌株,按2%~4%的重量百分比浓度添加到浓度为0.5mg/L~5mg/L的灭菌孔雀石绿降解培养液中,降解培养液组成按g/L计为:葡萄糖0.5~1;NaCl 0.01~0.1;MgSO 法律状态 法律状态公告日 法律状态信息 法律状态 ...
Pantoea sp. TW18 isolated from radionuclide-contaminated soils was used for the bioremediation of radionuclides pollution. Accumulation mechanism of U(VI) on Pantoea sp. TW18 was investigated by batch experiments and characterization techniques. The batch experiments revealed that Pantoea sp. TW18 rapid...
Here, using whole cell and membrane proteomics, we show that the deletion of carotenoid production in Pantoea sp. YR343 results in altered membrane protein distribution and abundance. Moreover, we observe significant differences in the protein composition of detergent-resistant membrane fractions from ...
《水稻内生细菌Pantoea sp Sd-1高效降解秸秆木质素机理研究》是依托湖南大学,由朱咏华担任项目负责人的面上项目。中文摘要 木质素难降解是影响水稻秸秆有效利用的最重要因素之一,其生物降解菌研究主要集中于来自植物外部环境的微生物,但尚未有突破性进展。近年来发现某些内生菌更能有效破除植物内木质素...