Scenario (6): Parameter variation (50% decrease)—With 5 N.m load applied at t = 0.3s. by Djaloul Karboua (16510091)

“…<p>Scenario (6): Parameter variation (50% decrease)—With 5 N.m load applied at t = 0.3s.</p>…”

The decrease in OD_320nm over time in spectrophotometric ATPase activity assays. by Kai-Yin Chau (18504230)

Machine Learning Accelerates Discovery of Optimal Colloidal Quantum Dot Synthesis by Oleksandr Voznyy (1376316)

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S5 Data - by Ayuta Kishimoto (16814662)

Genes whose expression was decreased by 100 nM ouabain by more than 1.3-fold. by Larisa V. Smolyaninova (3600053)

Results isoprenaline (30nM) experiment. by L. Cao (3526226)

Concentrations of particles that caused significant decreases in the viability of SNU-1 cells compared to untreated cells during 1, 2, 4, 6 or 24 h treatment periods. by Amrita Banerjee (382658)

Transcriptional and translational markers of syncytialization and biochemical differentiation are significantly decreased by rotenone. by O’Llenecia S. Walker (8486163)

Fig 5 - by Zhi Zhang (55283)

Overexpressions of the AB domain of RPA70 and the β-barrel domain of Ku70 significantly decrease HBoV1 replication in HAE-ALI. by Kang Ning (59789)

Functional Plasmonic Microscope: Characterizing the Metabolic Activity of Single Cells via Sub-nm Membrane Fluctuations by Suraj D. Khochare (18288990)

“…The FPM can accurately image and quantify the subnanometer membrane fluctuations with a spatial resolution of 0.5 μm in real time. These active cell membrane fluctuations are caused by metabolic activities across the cell membrane. …”

Functional Plasmonic Microscope: Characterizing the Metabolic Activity of Single Cells via Sub-nm Membrane Fluctuations by Suraj D. Khochare (18288990)

“…The FPM can accurately image and quantify the subnanometer membrane fluctuations with a spatial resolution of 0.5 μm in real time. These active cell membrane fluctuations are caused by metabolic activities across the cell membrane. …”

Functional Plasmonic Microscope: Characterizing the Metabolic Activity of Single Cells via Sub-nm Membrane Fluctuations by Suraj D. Khochare (18288990)

“…The FPM can accurately image and quantify the subnanometer membrane fluctuations with a spatial resolution of 0.5 μm in real time. These active cell membrane fluctuations are caused by metabolic activities across the cell membrane. …”

Changes in cyanobacteria fluorescence with 75 μg/mL H₂O₂ for 5, 8, 17 and 24 days. by Emma T. Brentjens (17295999)

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Ratcheting experiments with 500 nm & 100 nm magnetic particles. by Oladunni B. Adeyiga (10164275)

“…For these experiments, particle suspensions were prepared by diluting particle stock into PBS, obtaining concentrations of ~5.1E7/mL for 500 nm and ~3.0E9/mL for 100 nm magnetic particles.…”

Modifying pregnenolone to decrease its lipophilicity results in decreased cellular uptake. by Jeffrey M. McManus (7512926)

The detection of red (652–669 nm) and green (533–550 nm) fluorescence from yellow-green and violet laser excitation in control and H₂O₂-treated <i>M</i>. <i>a... by Emma T. Brentjens (17295999)

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UPLC-DAD profile (270 nm) of phytocannabinoids in the extracts separated in C18 column. by Bruno Musetti (9527085)

Difference in changes in ODI and EQ-5D-5L scores among three groups (n = 45). by Jae-Hong Kim (124622)

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Dose- and time-dependent response of <i>M</i>. <i>aeruginosa</i> fluorescence to H₂O₂ exposure. by Emma T. Brentjens (17295999)

Subjects: