Search alternatives:
significantly nn » significantly _ (Expand Search), significantly i (Expand Search), significantly onto (Expand Search)
decrease ros » increased ros (Expand Search), decreased mor (Expand Search), decrease rice (Expand Search)
nn decrease » _ decrease (Expand Search), a decrease (Expand Search), mean decrease (Expand Search)
decrease i » decrease _ (Expand Search), decreases _ (Expand Search), decreased _ (Expand Search)
significantly nn » significantly _ (Expand Search), significantly i (Expand Search), significantly onto (Expand Search)
decrease ros » increased ros (Expand Search), decreased mor (Expand Search), decrease rice (Expand Search)
nn decrease » _ decrease (Expand Search), a decrease (Expand Search), mean decrease (Expand Search)
decrease i » decrease _ (Expand Search), decreases _ (Expand Search), decreased _ (Expand Search)
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DataSheet2_Aristolochic acid I exposure decreases oocyte quality.xlsx
Published 2022“…Moreover, embryo development potential was also dramatically decreased. Further analyses revealed that AAI exposure significantly decreased mitochondrial membrane potential and ATP synthesis and increased the level of reactive oxygen species (ROS), implying impaired mitochondrial function. …”
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DataSheet4_Aristolochic acid I exposure decreases oocyte quality.pdf
Published 2022“…Moreover, embryo development potential was also dramatically decreased. Further analyses revealed that AAI exposure significantly decreased mitochondrial membrane potential and ATP synthesis and increased the level of reactive oxygen species (ROS), implying impaired mitochondrial function. …”
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DataSheet3_Aristolochic acid I exposure decreases oocyte quality.pdf
Published 2022“…Moreover, embryo development potential was also dramatically decreased. Further analyses revealed that AAI exposure significantly decreased mitochondrial membrane potential and ATP synthesis and increased the level of reactive oxygen species (ROS), implying impaired mitochondrial function. …”
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Oxidative Nickel-Catalyzed <i>ortho</i>-C–H Amination of (Iso)quinolines with Alicyclic Amines Directed by a Sacrificial <i>N</i>‑Oxide Group
Published 2024“…Transition metal (TM)-catalyzed direct amination of C–H bonds on free or fused pyridine (Py) rings with free amines still remains scarce because amines and the Py ring tend to adopt a nonproductive N-bound coordination with many TMs, leading to a significant decrease of catalytic reactivity. We herein disclose a nickel-catalyzed and a sacrificial <i>N</i>-oxide group directed oxidative coupling of (iso)quinolyl C–H bonds and alicyclic amines, which furnishes bioimportant amino(iso)quinolines efficiently and selectively in a single step. …”
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An old medicine as a new drug to prevent mitochondrial complex I from producing oxygen radicals
Published 2019“…<div><p>Findings</p><p>Here, we demonstrate that OP2113 (5-(4-Methoxyphenyl)-3H-1,2-dithiole-3-thione, CAS 532-11-6), synthesized and used as a drug since 1696, does not act as an unspecific antioxidant molecule (i.e., as a radical scavenger) but unexpectedly decreases mitochondrial reactive oxygen species (ROS/H<sub>2</sub>O<sub>2</sub>) production by acting as a specific inhibitor of ROS production at the I<sub>Q</sub> site of complex I of the mitochondrial respiratory chain. …”
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