Table_1_Immunogenicity, Effectiveness, and Safety of Inactivated Virus (CoronaVac) Vaccine in a Two-Dose Primary Protocol and BNT162b2 Heterologous Booster in Brazil (Immunita-001)... by Rafaella F. Q. Grenfell (12841457)

“…</p>Methods<p>We bring pioneering contributions on the maintenance of the immune response over a year on a real-life basis study in 1,587 individuals (18-90 yrs, median 39 yrs; 1,208 female/379 male) who underwent vaccination with two doses of CoronaVac and BNT162b2 booster after 6-months of primary protocol.…”

Animation of a 3D reconstruction of an intravitally acquired z-stack through the renal cortex of a BALB/cByJ SOPF mouse, 24h p.i. with <i>put2 C</i>. <i>albicans</i>, expressing yE... by Fitz Gerald S. Silao (9384713)

Animation of a 3D reconstruction of an intravitally acquired z-stack through the renal cortex of a BALB/cByJ SOPF mouse, 24h p.i. with wildtype <i>C</i>. <i>albicans</i>, expressin... by Fitz Gerald S. Silao (9384713)

Animation of a 3D reconstruction of an <i>ex vivo</i> acquired z-stack through the renal cortex of a BALB/cByJ SOPF mouse, 24h p.i. with <i>put2 C</i>. <i>albicans</i>, expressing... by Fitz Gerald S. Silao (9384713)

The variant mimicking hyperphosphorylation of human 4E-BP does not decrease its association with eIF4E. by Nathalie Oulhen (373674)

Effect of <i>CrBV3-31</i> interference on lipid metabolism in FAW larvae. by Xian Li (201841)

Concentrations of 5-HT and 5-HIAA in brain tissue. by Thibault Renoir (348572)

“…Both 5-HT and 5-HIAA concentrations were decreased in the hippocampus (A/B), the cortex (C/D) and the striatum (E/F) in female HD mice when compared to WT animals. …”

The effect of exogenous ROS on DC lymphocytes. by Larisa Pereboeva (322533)

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. …”

K-Rta mRNA accumulation is decreased at early times post induction in the absence of PAN RNA expression. by Cyprian C. Rossetto (107771)

Penalty conversions yield large practical decreases, but robustness and generalizability of result are limited by data quality and sample selection. by Ryan J. Treves (13527735)

HSV-1 DNA replication does not decrease H3.1 mobilization in U2OS cells. by Kristen L. Conn (469235)

High initiation rates decrease stability of stall-containing <i>S</i>. <i>cerevisiae</i> mRNAs. by Heungwon Park (3859507)