Data_Sheet_3_Methamphetamine signals transcription of IL1β and TNFα in a reactive oxygen species-dependent manner and interacts with HIV-1 Tat to decrease antioxidant defense mecha... by Liana V. Basova (13265886)

Data_Sheet_2_Methamphetamine signals transcription of IL1β and TNFα in a reactive oxygen species-dependent manner and interacts with HIV-1 Tat to decrease antioxidant defense mecha... by Liana V. Basova (13265886)

Macrophage cytokine responses induced by all five GBS strains. by Rebecca A. Flaherty (7406441)

Contrast sensitivity is transiently reduced at 5 hr post-sildenafil. by Bruce A. Berkowitz (8282913)

“…<p>Compared to uninjected 5 hr light adapted mice (white bar), sildenafil + saline (green bars) A) decreased contrast sensitivity only under SDL conditions but B) did not change spatial frequency threshold (SFT). …”

Nicotinic receptors contribute to synchronous discharges in synaptic blockers aCSF. by Olha Zapukhliak (10297334)

“…(B) Simultaneous extracellular (up) and patch clamp recording (bottom) in synaptic blockers aCSF: (4) neuron voltage clamped at -70 mV, (5) neuron voltage clamped at zero mV.…”

Examining the Sensitivity of Global CO₂ Emissions to Trade Restrictions over Multiple Years by Mingxi Du (7522889)

“…Our simulations show that trade restrictions would have decreased global emissions by 6.0%, 5.7%, 5.2%, and 4.7% in 2004, 2007, 2011 and 2014; however, restrictions also drove a relative increase in emission intensity for all years. …”

Examining the Sensitivity of Global CO₂ Emissions to Trade Restrictions over Multiple Years by Mingxi Du (7522889)

“…Our simulations show that trade restrictions would have decreased global emissions by 6.0%, 5.7%, 5.2%, and 4.7% in 2004, 2007, 2011 and 2014; however, restrictions also drove a relative increase in emission intensity for all years. …”

Examining the Sensitivity of Global CO₂ Emissions to Trade Restrictions over Multiple Years by Mingxi Du (7522889)

“…Our simulations show that trade restrictions would have decreased global emissions by 6.0%, 5.7%, 5.2%, and 4.7% in 2004, 2007, 2011 and 2014; however, restrictions also drove a relative increase in emission intensity for all years. …”

Optimized TMS produces high-quality DNA methylation data across a range of plexing strategies, input amounts, and protocol modifications. by Amy Longtin (21409957)

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…Especially using the water wetted composite fabric as a separation cell, the built-in lyophobic layer originating from fluid passed through the nonwetting region of wetted fabric decreases the unfavorable contact between lyophobic interface and separated liquid, and the permeation flux is enhanced by 214.5% for water and by 112.5% for oil, respectively, compared to that in the pristine fabric, whereas it has no effect on the separation efficiency of a heavy oil–water mixture. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…Especially using the water wetted composite fabric as a separation cell, the built-in lyophobic layer originating from fluid passed through the nonwetting region of wetted fabric decreases the unfavorable contact between lyophobic interface and separated liquid, and the permeation flux is enhanced by 214.5% for water and by 112.5% for oil, respectively, compared to that in the pristine fabric, whereas it has no effect on the separation efficiency of a heavy oil–water mixture. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…Especially using the water wetted composite fabric as a separation cell, the built-in lyophobic layer originating from fluid passed through the nonwetting region of wetted fabric decreases the unfavorable contact between lyophobic interface and separated liquid, and the permeation flux is enhanced by 214.5% for water and by 112.5% for oil, respectively, compared to that in the pristine fabric, whereas it has no effect on the separation efficiency of a heavy oil–water mixture. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…Especially using the water wetted composite fabric as a separation cell, the built-in lyophobic layer originating from fluid passed through the nonwetting region of wetted fabric decreases the unfavorable contact between lyophobic interface and separated liquid, and the permeation flux is enhanced by 214.5% for water and by 112.5% for oil, respectively, compared to that in the pristine fabric, whereas it has no effect on the separation efficiency of a heavy oil–water mixture. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…Especially using the water wetted composite fabric as a separation cell, the built-in lyophobic layer originating from fluid passed through the nonwetting region of wetted fabric decreases the unfavorable contact between lyophobic interface and separated liquid, and the permeation flux is enhanced by 214.5% for water and by 112.5% for oil, respectively, compared to that in the pristine fabric, whereas it has no effect on the separation efficiency of a heavy oil–water mixture. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…Especially using the water wetted composite fabric as a separation cell, the built-in lyophobic layer originating from fluid passed through the nonwetting region of wetted fabric decreases the unfavorable contact between lyophobic interface and separated liquid, and the permeation flux is enhanced by 214.5% for water and by 112.5% for oil, respectively, compared to that in the pristine fabric, whereas it has no effect on the separation efficiency of a heavy oil–water mixture. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…Especially using the water wetted composite fabric as a separation cell, the built-in lyophobic layer originating from fluid passed through the nonwetting region of wetted fabric decreases the unfavorable contact between lyophobic interface and separated liquid, and the permeation flux is enhanced by 214.5% for water and by 112.5% for oil, respectively, compared to that in the pristine fabric, whereas it has no effect on the separation efficiency of a heavy oil–water mixture. …”

A General in Situ Deposition Strategy for Synthesis of Janus Composite Fabrics with Co(CO₃)_0.5OH·0.11H₂O Nanoneedles for Oil–Water Separation by Luyang Hu (8689470)

“…Especially using the water wetted composite fabric as a separation cell, the built-in lyophobic layer originating from fluid passed through the nonwetting region of wetted fabric decreases the unfavorable contact between lyophobic interface and separated liquid, and the permeation flux is enhanced by 214.5% for water and by 112.5% for oil, respectively, compared to that in the pristine fabric, whereas it has no effect on the separation efficiency of a heavy oil–water mixture. …”

DataSheet_1_Human surfactant protein A inhibits SARS-CoV-2 infectivity and alleviates lung injury in a mouse infection model.pdf by Ikechukwu B. Jacob (18253300)

“…Pre-incubation of SARS-CoV-2 (Delta) with human SP-A inhibited virus binding and entry and reduced viral load in human lung epithelial cells, evidenced by the dose-dependent decrease in viral RNA, nucleocapsid protein (NP), and titer (p<0.01). …”

CTV p20 interacts with autophagy-related proteins NbATG8a and NbATG8f and induces autophagy. by Yongle Zhang (11355546)

Heatmaps showing the median difference between observed and LMM—predicted PM2.5 and PM10 during 2020 by sensor and daily hour intervals. by Daniele Pala (1524016)