机译:增加的细胞外H2O2在细胞内H 2 O 2中产生双相位响应,用过量的氧辛升高氧化,只有一旦细胞H2O2缓冲能力越来越多地触发
Newcastle Univ Inst Cell &
Mol Biosci Framlington Pl Newcastle Upon Tyne NE2 4HH Tyne &
Wear;
Newcastle Univ Inst Cell &
Mol Biosci Framlington Pl Newcastle Upon Tyne NE2 4HH Tyne &
Wear;
Newcastle Univ Inst Cell &
Mol Biosci Framlington Pl Newcastle Upon Tyne NE2 4HH Tyne &
Wear;
Newcastle Univ Bioinformat Support Unit Framlington Pl Newcastle Upon Tyne NE2 4HH Tyne &
Wear;
Newcastle Univ Inst Cell &
Mol Biosci Framlington Pl Newcastle Upon Tyne NE2 4HH Tyne &
Wear;
UCL Dept Genet Evolut &
Environm Gower St Darwin Bldg London WC1E 6BT England;
Newcastle Univ Inst Cell &
Mol Biosci Framlington Pl Newcastle Upon Tyne NE2 4HH Tyne &
Wear;
Univ Chicago Dept Chem 5735 S Ellis Ave Chicago IL 60637 USA;
UCL Dept Genet Evolut &
Environm Gower St Darwin Bldg London WC1E 6BT England;
Univ Calif Berkeley Howard Hughes Med Inst Berkeley CA 94720 USA;
Univ Calif Berkeley Howard Hughes Med Inst Berkeley CA 94720 USA;
Newcastle Univ Inst Cell &
Mol Biosci Framlington Pl Newcastle Upon Tyne NE2 4HH Tyne &
Wear;
Newcastle Univ Inst Cell &
Mol Biosci Framlington Pl Newcastle Upon Tyne NE2 4HH Tyne &
Wear;
Peroxiredoxin; Hydrogen peroxide; Thiol; Computational model; Signaling; Oxidation; Thioredoxin;
机译:细胞外H2O2的增加会在细胞内H2O2中产生两相反应,过氧化物酶毒素的过氧化仅在细胞H2O2的缓冲能力不堪重负时才触发
机译:激活gpx1启动子的盐胁迫信号转导途径是由细胞内H2O2介导的,与细胞外H2O2诱导的途径不同
机译:尝试设计异鲁米诺-氢过氧化物酶扩增的CL来测量吞噬细胞中细胞内产生的H2O2:H2O2的敏感性不够高,无法检测
机译:细胞外H2O2的增加会在细胞内H2O2中产生两相反应过氧化物酶毒素的过氧化仅在细胞H2O2的缓冲能力不堪重负时才触发
机译:细胞外H2O2的增加会在细胞内H2O2中产生两相反应,过氧化物酶毒素超氧化仅在细胞H2O2缓冲能力不堪重负时才触发