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)

Table_1_Thinning can increase shrub diversity and decrease herb diversity by regulating light and soil environments.docx by Jiatong Yu (13202610)

“…The responses of species diversity to changes in understory vegetation were conducted by a structural equation model (SEM). The results showed that compared with CK, thinning significantly increased the photosynthetically active radiation (PAR) and the light quality (R/FR) (p < 0.05), while decreased the contents of soil total nitrogen (TN), total phosphorous (TP), organic matter (OM), nitrate nitrogen (NN), ammonia nitrogen (AN) and pH. …”

Image_1_Thinning can increase shrub diversity and decrease herb diversity by regulating light and soil environments.jpg by Jiatong Yu (13202610)

“…The responses of species diversity to changes in understory vegetation were conducted by a structural equation model (SEM). The results showed that compared with CK, thinning significantly increased the photosynthetically active radiation (PAR) and the light quality (R/FR) (p < 0.05), while decreased the contents of soil total nitrogen (TN), total phosphorous (TP), organic matter (OM), nitrate nitrogen (NN), ammonia nitrogen (AN) and pH. …”

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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Young age increases susceptibility to invasive pneumococcal infection. by Kristen L. Lokken-Toyli (9455263)

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Susceptibility to IPD is independent of pneumolysin. by Kristen L. Lokken-Toyli (9455263)

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S3 Fig - by Kristen L. Lokken-Toyli (9455263)

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