DataSheet1_Decreasing viscosity and increasing accessible load by replacing classical diluents with a hydrotrope in liquid–liquid extraction.docx by Asmae El Maangar (19690522)

“…We show that using hydrotropes as a diluent decreases the viscosity of solutions by more than a factor of ten, even under high load by extracted cations. …”

SBP3 KD decreases the surface localization of VESA-1. by Atefeh Fathi (7370876)

Disrupting the PI3K complex decreases the antiviral activity of autophagy. by Ruonan Zhang (358761)

Raw data for "Wing and pappus appendages decrease seed terminal velocity: A meta-analysis" by Sle-gee Lee (22511645)

Image 1_Chromosome 1 variants associated with decreased HIV set-point viral load correlate with PRKAB2 expression changes.png by Riley H. Tough (14432838)

Idarubicin-loaded chitosan nanobubbles to improve survival and decrease drug side effects in hepatocellular carcinoma by Monica Mossenta (4276213)

Figure 7 from Ammonia Suppresses the Antitumor Activity of Natural Killer Cells and T Cells by Decreasing Mature Perforin by Joanna Domagala (21643925)

“…MFI, mean fluorescence intensity. <b>H,</b> The level of total perforin in T cells stimulated with αCD3/CD28 and incubated with ammonia determined by Western blot methods using an anti-perforin antibody (Prf-344 clone). β-Actin is presented as a loading control. …”

Figure 4 from Ammonia Suppresses the Antitumor Activity of Natural Killer Cells and T Cells by Decreasing Mature Perforin by Joanna Domagala (21643925)

“…<p>Ammonia affects NK cell functions and decreases the level of perforin. <b>A,</b> The surface levels of NK cell activation receptors (NKG2D, NKp30, NKp44, NKp46) after incubation with different concentrations of NH₄Cl were assessed after 4 hours using flow cytometry. …”

Figure 5 from Ammonia Suppresses the Antitumor Activity of Natural Killer Cells and T Cells by Decreasing Mature Perforin by Joanna Domagala (21643925)

“…<b>A,</b> The level of total perforin in NK cells incubated with ammonia determined by Western blot using an anti-perforin antibody (B-D48 clone; <i>n</i> = 3). β-Actin is presented as a loading control. …”

S9 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”

S11 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”

S1 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”

S10 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”

S6 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”

S5 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”

S4 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”

S8 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”

S12 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”

S3 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”

S2 Data - by Christoph Anders (4068499)

“…The sEMG amplitudes were compared between the phases of increasing and decreasing load levels for each test situation. Hysteresis behavior was observed in all examined muscles, with the movement half-phase with increasing load showing higher amplitudes than the half-phase with decreasing load. …”