机译:反应性氧物种:重新评估光营养生物中应激信号中的产生,监测和作用
Technical University Berlin Institute of Chemistry Max-Volmer-Laboratory of Biophysical Chemistry;
Technical University Berlin Institute of Chemistry Max-Volmer-Laboratory of Biophysical Chemistry;
Technical University Berlin Institute of Chemistry Max-Volmer-Laboratory of Biophysical Chemistry;
Institute of Basic Biological Problems Russian Academy of Sciences Institutskaya Street 2;
Institute of Basic Biological Problems Russian Academy of Sciences Institutskaya Street 2;
Institute of Plant Physiology Russian Academy of Sciences Botanicheskaya Street 35 Moscow 127276;
Institute of Plant Physiology Russian Academy of Sciences Botanicheskaya Street 35 Moscow 127276;
Institute of Basic Biological Problems Russian Academy of Sciences Institutskaya Street 2;
Chloroplast; Oxidative stress; Photosynthesis; Plant cells; Reactive oxygen species; Signaling systems;
机译:活性氧:重新评估光养生物的产生,监测和在胁迫信号中的作用
机译:活性氧:重新评估光养生物的产生,监测和在胁迫信号中的作用
机译:反应性氧物种:重新评估光营养生物中应激信号中的产生,监测和作用
机译:氧漂白条件下活性氧物种对C-2碳酸盐的反应性及其与活性氧物种起源的关系
机译:用于监测不同细胞内反应性氧(ROS)的荧光纳米传感器
机译:二甲双胍通过抑制活性氧的产生和炎症反应保护H9C2心肌细胞免受高糖和缺氧/复氧损伤的影响:AMPK和JNK的作用
机译:活性氧:重新评估光养生物的产生,监测和在胁迫信号中的作用