Increases and decreases in resources. by Guangliang Li (194029)

miRNA 221 alleviated myocardial injury and inhibited apoptosis and necrosis of cardiac cells in MIRI mice. by Hongyu Li (1332669)

a and b Illustrative representation of HbA1c trajectories. by Yuan Wang (14955)

Number of ambulation, rearing, and tremor bouts in control and after 4-aminopyridine administration in male <i>taiep</i> rats. by Jose R. Eguibar (8563227)

Subjects:

Co-contraction and the grasp force decreased with the block number. by Atsushi Takagi (3363320)

Cardiac sympathetic fiber density decreased post-6-OHDA and correlated with <i>in vivo</i> and post mortem markers. by Jeanette M. Metzger (8259900)

PointSite: A Point Cloud Segmentation Tool for Identification of Protein Ligand Binding Atoms by Xu Yan (110026)

“…In this paper, we propose a novel point clouds segmentation method, PointSite, for accurate identification of protein ligand binding atoms, which performs protein LBS identification at the atom-level in a protein-centric manner. …”

PointSite: A Point Cloud Segmentation Tool for Identification of Protein Ligand Binding Atoms by Xu Yan (110026)

“…In this paper, we propose a novel point clouds segmentation method, PointSite, for accurate identification of protein ligand binding atoms, which performs protein LBS identification at the atom-level in a protein-centric manner. …”

Defects in the conduction of somatosensory evoked potentials of median and tibial nerves in a healthy child and in H-ABC patient. by Jose R. Eguibar (8563227)

Subjects:

S9 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. …”

S11 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. …”

S1 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. …”

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. …”