Behaviors with a significant main effect or interaction. by Grace Hecker (18813445)

Significantly decreased necrosis observed on wheat leaves inoculated with <i>ΔZtknr4</i>. by Erika Kroll (20537020)

CFU-Mk is significantly decreased by GATA1s overexpression in <i>GATA1s</i> strains. by Shiori Matsuo (10492159)

Geniposide (Gen) significantly decreased the content of Hyp in bleomycin-induced PF mice’s lung tissue. by Jian-Bin Yin (19556105)

Decreased hypotaurine levels within cells lacking the ADO gene in U251 cells. by Hong Tian (169626)

The percentage of DPPH^• (A) and ABTS^•+ (B) inhibition of 6-shogaol-rich ginger extract and Trolox. by Hataichanok Chuljerm (19144293)

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Excessive LF4A kinase activity shortens cilia and decreases IFT. by Yu-Yang Jiang (7036916)

Inhibition of Timeless decreases A549 cell proliferation. by Ping Tian (697506)

Both MRI and SR-PCI demonstrated significant decreases in clinically-relevant articular cartilage parameters. by Suranjan Bairagi (17087667)

Nitrate and nitrite treatment did not adversely affect multiple parameters of health but nitrate treatment significantly decreased movement following a startle. by Manuel García-Jaramillo (9930572)

The concentration of 6-gingerol (A) and 6-shogaol (B) in the ginger extract obtained from conventional maceration and pulsed electric field (PEF) extraction. by Hataichanok Chuljerm (19144293)

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

“…Herein, we have found that cell-adaptable selenocystine ((Cys-Se)₂) can be reduced to biocompatible low-valence Se precursors, which could be subsequently hijacked by timely added Ag-glutathione (AgSG) to be transformed into NIR Ag₂Se QDs. Such a comprehensive control strategy can inhibit the production of cytotoxic Se species and ROS bursts, significantly increasing the cell viability from 4 to 80% and enhancing the fluorescence of intracellularly synthesized Ag₂Se QDs by over 8.7 times. …”

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

“…Herein, we have found that cell-adaptable selenocystine ((Cys-Se)₂) can be reduced to biocompatible low-valence Se precursors, which could be subsequently hijacked by timely added Ag-glutathione (AgSG) to be transformed into NIR Ag₂Se QDs. Such a comprehensive control strategy can inhibit the production of cytotoxic Se species and ROS bursts, significantly increasing the cell viability from 4 to 80% and enhancing the fluorescence of intracellularly synthesized Ag₂Se QDs by over 8.7 times. …”

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

“…Herein, we have found that cell-adaptable selenocystine ((Cys-Se)₂) can be reduced to biocompatible low-valence Se precursors, which could be subsequently hijacked by timely added Ag-glutathione (AgSG) to be transformed into NIR Ag₂Se QDs. Such a comprehensive control strategy can inhibit the production of cytotoxic Se species and ROS bursts, significantly increasing the cell viability from 4 to 80% and enhancing the fluorescence of intracellularly synthesized Ag₂Se QDs by over 8.7 times. …”

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

“…Herein, we have found that cell-adaptable selenocystine ((Cys-Se)₂) can be reduced to biocompatible low-valence Se precursors, which could be subsequently hijacked by timely added Ag-glutathione (AgSG) to be transformed into NIR Ag₂Se QDs. Such a comprehensive control strategy can inhibit the production of cytotoxic Se species and ROS bursts, significantly increasing the cell viability from 4 to 80% and enhancing the fluorescence of intracellularly synthesized Ag₂Se QDs by over 8.7 times. …”

S2 Fig - by Kristen L. Lokken-Toyli (9455263)

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Factors contributing to invasive infection during early life. by Kristen L. Lokken-Toyli (9455263)

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Increased rate of IPD during early life is independent of systemic control and dependent on <i>Spn</i> translocation across the URT barrier. by Kristen L. Lokken-Toyli (9455263)

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Population bottleneck limits <i>Spn</i> translocation from the URT in infant mice. by Kristen L. Lokken-Toyli (9455263)

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S5 Fig - by Kristen L. Lokken-Toyli (9455263)

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