S12 Raw images - by Geun Heo (14185618)

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<i>Achillea fragrantissima</i> triggers rupture in cell morphology (AO/EtBr), ROS generation, loss of mitochondrial potential, and DNA fragmentation in MCF-7 cells. by Abdulrahman Alasmari (11707409)

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Assessment of antioxidative capacity and ROS in HK-2 cells following molybdenum treatment and H₂O₂-induced oxidative stress. by Joo Hong Joun (19287602)

“…Molybdenum treatment significantly decreased cellular ROS at all doses (n = 5 per group). …”

Measurement of lysosome proteolytic and acidic functions in response to PIKfyve inhibition and ROS. by Golam T. Saffi (11747438)

Mitochondrial ROS lower tumor cell viability and increase thiol oxidation. by Elif Aplak (7430123)

Making Cells as a “Nirvana Phoenix”: Precise Coupling of Precursors Prior to ROS Bursts for Intracellular Synthesis of Quantum Dots by Juan Kong (2230867)

“…However, the introduced exogenous reactants and intracellularly produced species, e.g., reactive oxygen species (ROS), often cause cell damage, decreasing the fluorescence of the QDs. …”

Making Cells as a “Nirvana Phoenix”: Precise Coupling of Precursors Prior to ROS Bursts for Intracellular Synthesis of Quantum Dots by Juan Kong (2230867)

“…However, the introduced exogenous reactants and intracellularly produced species, e.g., reactive oxygen species (ROS), often cause cell damage, decreasing the fluorescence of the QDs. …”

Making Cells as a “Nirvana Phoenix”: Precise Coupling of Precursors Prior to ROS Bursts for Intracellular Synthesis of Quantum Dots by Juan Kong (2230867)

“…However, the introduced exogenous reactants and intracellularly produced species, e.g., reactive oxygen species (ROS), often cause cell damage, decreasing the fluorescence of the QDs. …”

Making Cells as a “Nirvana Phoenix”: Precise Coupling of Precursors Prior to ROS Bursts for Intracellular Synthesis of Quantum Dots by Juan Kong (2230867)

“…However, the introduced exogenous reactants and intracellularly produced species, e.g., reactive oxygen species (ROS), often cause cell damage, decreasing the fluorescence of the QDs. …”

Cell viability and comparison of cells’ reactive oxygen species (ROS) in stress environments. by Merve Gozel (21982654)

“…Results are presented as *** P < 0.001. ROS levels were significantly decreased under stress conditions in the co-cultured cells.…”

Western blot analysis of MPK-1 levels in WT and <i>let-60</i> mutants treated with PQ and NAC. by Maximilian Kramer-Drauberg (8981141)

Western blot analysis of MPK-1 levels in <i>isp-1</i> and <i>nuo-6</i> mutants. by Maximilian Kramer-Drauberg (8981141)

Western blot analysis of MPK-1 levels in WT and <i>let-60</i> mutants. by Maximilian Kramer-Drauberg (8981141)

Changes in the antioxidant enzyme activities of the wheat cultivars ZM 9023 and YM 15 during artificial aging. by Bang-Bang Li (12329215)

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Heat maps of the correlation between seed vigor and carbonyl protein content, reactive oxygen content, non-enzymatic antioxidant contents and antioxidant enzyme activities of wheat... by Bang-Bang Li (12329215)

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Changes in the superoxide anion (O2−) and hydrogen peroxide (H₂O₂) contents of the wheat cultivars ZM 9023 and YM 15 during artificial aging. by Bang-Bang Li (12329215)

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Changes in the glutathione contents of the wheat cultivars ZM 9023 and YM 15 during artificial aging. by Bang-Bang Li (12329215)

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Changes in the carbonyl protein contents of the wheat cultivars ZM 9023 and YM 15 during artificial aging. by Bang-Bang Li (12329215)

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Changes in the ultrastructures of wheat embryo cells of the cultivars ZM 9023 and YM 15 during artificial aging. by Bang-Bang Li (12329215)

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Effects of the artificial aging treatment on wheat seed vigor. by Bang-Bang Li (12329215)

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