机译:甲硫氨酸补充刺激线粒体呼吸
Univ Milano Bicocca Dept Biotechnol &
Biosci Milan Italy;
Univ Milano Bicocca Dept Biotechnol &
Biosci Milan Italy;
Univ Milano Bicocca Dept Biotechnol &
Biosci Milan Italy;
Univ Milano Bicocca Dept Biotechnol &
Biosci Milan Italy;
Univ Milano Bicocca Dept Biotechnol &
Biosci Milan Italy;
Univ Milano Bicocca Dept Biotechnol &
Biosci Milan Italy;
Univ Milan Dept Chem Milan Italy;
Univ Milan DIMEVET Dept Vet Med Milan Italy;
Univ Bari Dept Biosci Biotechnol &
Biopharmaceut Bari Italy;
Univ Bari Dept Biosci Biotechnol &
Biopharmaceut Bari Italy;
Univ Milano Bicocca Dept Biotechnol &
Biosci Milan Italy;
Univ Bari Dept Biosci Biotechnol &
Biopharmaceut Bari Italy;
Univ Milan DIMEVET Dept Vet Med Milan Italy;
Univ Milano Bicocca Dept Biotechnol &
Biosci Milan Italy;
Snf1/AMPK; Metabolomics; Shotgun proteomics; MPC (mitochondria) pyruvate carrier); Saccharomyces cerevisiae; S-adenosyl-methionine;
机译:甲硫氨酸补充刺激线粒体呼吸
机译:带有增加的开孔细胞骨架网孔的细胞内的线粒体动力学和呼吸作用带有增加的开孔细胞骨架网孔的细胞内的线粒体动力学和呼吸作用
机译:Nrf2通过控制线粒体呼吸的底物利用率来影响细胞生物能Nrf2通过控制线粒体呼吸的底物利用率来影响细胞生物能Nrf2通过控制线粒体呼吸的底物利用率来影响细胞生物能
机译:在新鲜和早期哺乳期间对甲硫氨酸补充的反应
机译:抗凋亡MCL-1定位于线粒体基质,并将线粒体融合与呼吸耦合。
机译:较低的内在ADP刺激的线粒体呼吸作用是男性2型糖尿病患者体内线粒体功能障碍的基础
机译:较低的内在ADP刺激的线粒体呼吸作用是男性2型糖尿病患者体内线粒体功能障碍的基础