S10 Data - by Christoph Anders (4068499)

“…The study was conducted with 25%, 50%, and 75% of the upper body weight. Additionally, we varied the starting point (forward tilt and backward tilt) and the direction of rotation. …”

S6 Data - by Christoph Anders (4068499)

“…The study was conducted with 25%, 50%, and 75% of the upper body weight. Additionally, we varied the starting point (forward tilt and backward tilt) and the direction of rotation. …”

S5 Data - by Christoph Anders (4068499)

“…The study was conducted with 25%, 50%, and 75% of the upper body weight. Additionally, we varied the starting point (forward tilt and backward tilt) and the direction of rotation. …”

S4 Data - by Christoph Anders (4068499)

“…The study was conducted with 25%, 50%, and 75% of the upper body weight. Additionally, we varied the starting point (forward tilt and backward tilt) and the direction of rotation. …”

S8 Data - by Christoph Anders (4068499)

“…The study was conducted with 25%, 50%, and 75% of the upper body weight. Additionally, we varied the starting point (forward tilt and backward tilt) and the direction of rotation. …”

S12 Data - by Christoph Anders (4068499)

“…The study was conducted with 25%, 50%, and 75% of the upper body weight. Additionally, we varied the starting point (forward tilt and backward tilt) and the direction of rotation. …”

S3 Data - by Christoph Anders (4068499)

“…The study was conducted with 25%, 50%, and 75% of the upper body weight. Additionally, we varied the starting point (forward tilt and backward tilt) and the direction of rotation. …”

Investigated muscles and electrode positions. by Christoph Anders (4068499)

“…The study was conducted with 25%, 50%, and 75% of the upper body weight. Additionally, we varied the starting point (forward tilt and backward tilt) and the direction of rotation. …”

S2 Data - by Christoph Anders (4068499)

“…The study was conducted with 25%, 50%, and 75% of the upper body weight. Additionally, we varied the starting point (forward tilt and backward tilt) and the direction of rotation. …”

S7 Data - by Christoph Anders (4068499)

“…The study was conducted with 25%, 50%, and 75% of the upper body weight. Additionally, we varied the starting point (forward tilt and backward tilt) and the direction of rotation. …”

Quantitative RT-qPCR demonstrate that Tat complex modulates expression of C5, CRLF2, APBA1, and BDNF. by Loreto Carvallo (4167607)

Vaccination offers a steady return to normality until the end of summer 2021 in the northern hemisphere, no matter whether a transient easing of restrictions is allowed earlier or... by Simon Bauer (11378195)

Shows the protein fragment of C3: The signal peptide and the alpha and beta chains, which consist of the C3a and C3b fragment. by Yonghui Wang (287491)

Application of single step genomic BLUP under different uncertain paternity scenarios using simulated data by Rafael Lara Tonussi (4476496)

“…<div><p>The objective of this study was to investigate the application of BLUP and single step genomic BLUP (ssGBLUP) models in different scenarios of paternity uncertainty with different strategies of scaling the G matrix to match the A22 matrix, using simulated data for beef cattle. …”

<i>N</i>⁶-methyladenosine modification and the YTHDF2 reader protein play cell type specific roles in lytic viral gene expression during Kaposi's sarcoma-associated herp... by Charles R. Hesser (5147309)

“…Transcriptome-wide m⁶A-sequencing of the KSHV-positive renal carcinoma cell line iSLK.219 during lytic reactivation revealed the presence of m⁶A across multiple kinetic classes of viral transcripts, and a concomitant decrease in m⁶A levels across much of the host transcriptome. …”

Prediction accuracy as a function of patient variation for different noise strengths. by Manuel Mai (497861)

Temperature and Solvent Effects on H₂ Splitting and Hydricity: Ramifications on CO₂ Hydrogenation by a Rhenium Pincer Catalyst by Jenny Hu (9932342)

“…In cases where hydride transfer is the highest individual kinetic barrier, entropic contributions to outer sphere H₂ splitting lead to a unique temperature dependence: catalytic activity increases as temperature decreases in tetrahydrofuran (200-fold increase upon cooling from 50 to 0 °C) and toluene (4-fold increase upon cooling from 100 to 50 °C). …”

Temperature and Solvent Effects on H₂ Splitting and Hydricity: Ramifications on CO₂ Hydrogenation by a Rhenium Pincer Catalyst by Jenny Hu (9932342)

“…In cases where hydride transfer is the highest individual kinetic barrier, entropic contributions to outer sphere H₂ splitting lead to a unique temperature dependence: catalytic activity increases as temperature decreases in tetrahydrofuran (200-fold increase upon cooling from 50 to 0 °C) and toluene (4-fold increase upon cooling from 100 to 50 °C). …”

Temperature and Solvent Effects on H₂ Splitting and Hydricity: Ramifications on CO₂ Hydrogenation by a Rhenium Pincer Catalyst by Jenny Hu (9932342)

“…In cases where hydride transfer is the highest individual kinetic barrier, entropic contributions to outer sphere H₂ splitting lead to a unique temperature dependence: catalytic activity increases as temperature decreases in tetrahydrofuran (200-fold increase upon cooling from 50 to 0 °C) and toluene (4-fold increase upon cooling from 100 to 50 °C). …”

Maximum frequencies as a function of +<i>k</i>₁₀, where is the <i>k</i>₂ value in phase 2. by Melissa Nygård (15374507)