机译:通过进化菌株的抗氧化反应探索酚耐受机理,小球藻SP L5
Chinese Acad Sci Shanghai Adv Res Inst 99 Haike Rd Shanghai 201210 Peoples R China;
Chinese Acad Sci Shanghai Adv Res Inst 99 Haike Rd Shanghai 201210 Peoples R China;
Chinese Acad Sci Shanghai Adv Res Inst 99 Haike Rd Shanghai 201210 Peoples R China;
Chinese Acad Sci Shanghai Adv Res Inst 99 Haike Rd Shanghai 201210 Peoples R China;
Shanghai Univ Sch Life Sci 99 Shangda Rd Shanghai 200444 Peoples R China;
Chinese Acad Sci Shanghai Adv Res Inst 99 Haike Rd Shanghai 201210 Peoples R China;
Chinese Acad Sci Shanghai Adv Res Inst 99 Haike Rd Shanghai 201210 Peoples R China;
Chinese Acad Sci Shanghai Adv Res Inst 99 Haike Rd Shanghai 201210 Peoples R China;
Chlorella; Phenol tolerance; Antioxidant; Adaptive evolution;
机译:通过进化菌株的抗氧化反应探索酚耐受机理,小球藻SP L5
机译:探索进化淡水菌株ChOLLALALLA SP S30下的胁迫耐受性机制30克/升盐
机译:小球藻SP的分子机制。响应高CO_2:基于具有高和低CO_2公差的菌株对比较转录组分析的研究
机译:海洋硅藻,Navicula sp。菌株JPCC DA0580和海洋绿藻,小球藻SP。应变NKG400014作为生物柴油生产的潜在来源
机译:表征苯酚羟化酶及其辅助蛋白DmpM和DmpK,来自假单胞菌。 CF600菌株
机译:升高的无机碳浓缩机制赋予北极小球藻菌种对高光的耐受性。 ArM0029B
机译:Clostridium sp的基因组序列草案。具有高呋喃和酚醛衍生物的菌株LJ4,从木质纤维素水解产物发生耐受性