Model parameters. by Martijn C. Sierksma (11608174)

“…During the following weeks, both these latencies and their interaural difference decreased. A computational model indicated that spike timing-dependent plasticity can underlie this fine-tuning. …”

(A) CD45 cells express Sema4D by Jose Rafael Sierra (50652)

“…(right) As shown, ∼85% of the leukocytes express Sema4D. Error bars indicate mean ± SD. *, P < 0.0001. Bar, 50 μm. (B) WT-derived bone marrow cells rescue tumor burden. …”

Supplementary Material for: Hyperfunctioning Papillary Thyroid Carcinoma with a <b><i>BRAF</i></b> Mutation: The First Case Report and a Literature Review by Shinkai S. (10260734)

“…<b><i>Discussion and Conclusions:</i></b> We report a case of hyperfunctioning PTC with a <i>BRAF</i> V600E mutation for the first time. …”

Gel retardation assay. by Sidra Islam (3612929)

A Prevalent Variant in <em>PPP1R3A</em> Impairs Glycogen Synthesis and Reduces Muscle Glycogen Content in Humans and Mice by David B Savage (61670)

“…Human genetic disorders primarily affecting skeletal muscle glycogen turnover are well-recognised, but rare. We previously reported that a frameshift/premature stop mutation in <em>PPP1R3A</em>, the gene encoding R_GL, a key regulator of muscle glycogen metabolism, was present in 1.36% of participants from a population of white individuals in the UK. …”

The B-Raf^V600E-Twist axis regulates miR-10b expression in melanoma. by Ila Datar (433874)

Dendritic Hydrogels Induce Immune Modulation in Human Keratinocytes and Effectively Eradicate Bacterial Pathogens by Yanmiao Fan (11552099)

“…Biomaterials that have inherent antibacterial properties and do not require the use of antibiotics present an attractive and feasible avenue to achieve this goal. Herein, we demonstrate the effect of a new class of cationic hydrogels based on amino-functional hyperbranched dendritic–linear–dendritic copolymers (HBDLDs) exhibiting excellent antimicrobial activity toward a wide range of clinical Gram-positive and Gram-negative bacteria, including drug-resistant strains isolated from wounds. …”

Demographic data. by Narisa Rattanalert (21445983)

“…Deliberate practice is an instructional model designed to improve performance by engaging trainees in structured, repetitive practice with immediate feedback provided by supervisors. We developed a multifaceted simulation informed by deliberate practice and tested the hypothesis that trainee skills and reported confidence would increase after training. …”

Dynamical models of all Intrinsic currents. by Muhammad Mushtaq (788834)

“…To examine the effects of CLAS on spindles, we propose a biophysical thalamocortical model for slow oscillations (SOs) and sleep spindles. …”

Model parameters, their values, and descriptions. by Muhammad Mushtaq (788834)

“…To examine the effects of CLAS on spindles, we propose a biophysical thalamocortical model for slow oscillations (SOs) and sleep spindles. …”

Microscopic Temperature Control Reveals Cooperative Regulation of Actin–Myosin Interaction by Drebrin E by Hiroaki Kubota (5798264)

“…Here, by applying the microscopic heat pulse method to actomyosin motility assay, the regulatory mechanism is examined from the room temperature up to 37 °C without a thermal denaturing of proteins. We show that the inhibition of actomyosin motility by drebrin E is eliminated immediately and reversibly during heating and depends on drebrin E concentration. …”

Microscopic Temperature Control Reveals Cooperative Regulation of Actin–Myosin Interaction by Drebrin E by Hiroaki Kubota (5798264)

“…Here, by applying the microscopic heat pulse method to actomyosin motility assay, the regulatory mechanism is examined from the room temperature up to 37 °C without a thermal denaturing of proteins. We show that the inhibition of actomyosin motility by drebrin E is eliminated immediately and reversibly during heating and depends on drebrin E concentration. …”

Microscopic Temperature Control Reveals Cooperative Regulation of Actin–Myosin Interaction by Drebrin E by Hiroaki Kubota (5798264)

“…Here, by applying the microscopic heat pulse method to actomyosin motility assay, the regulatory mechanism is examined from the room temperature up to 37 °C without a thermal denaturing of proteins. We show that the inhibition of actomyosin motility by drebrin E is eliminated immediately and reversibly during heating and depends on drebrin E concentration. …”

Microscopic Temperature Control Reveals Cooperative Regulation of Actin–Myosin Interaction by Drebrin E by Hiroaki Kubota (5798264)

“…Here, by applying the microscopic heat pulse method to actomyosin motility assay, the regulatory mechanism is examined from the room temperature up to 37 °C without a thermal denaturing of proteins. We show that the inhibition of actomyosin motility by drebrin E is eliminated immediately and reversibly during heating and depends on drebrin E concentration. …”

Microscopic Temperature Control Reveals Cooperative Regulation of Actin–Myosin Interaction by Drebrin E by Hiroaki Kubota (5798264)

“…Here, by applying the microscopic heat pulse method to actomyosin motility assay, the regulatory mechanism is examined from the room temperature up to 37 °C without a thermal denaturing of proteins. We show that the inhibition of actomyosin motility by drebrin E is eliminated immediately and reversibly during heating and depends on drebrin E concentration. …”

Microscopic Temperature Control Reveals Cooperative Regulation of Actin–Myosin Interaction by Drebrin E by Hiroaki Kubota (5798264)

“…Here, by applying the microscopic heat pulse method to actomyosin motility assay, the regulatory mechanism is examined from the room temperature up to 37 °C without a thermal denaturing of proteins. We show that the inhibition of actomyosin motility by drebrin E is eliminated immediately and reversibly during heating and depends on drebrin E concentration. …”

Microscopic Temperature Control Reveals Cooperative Regulation of Actin–Myosin Interaction by Drebrin E by Hiroaki Kubota (5798264)

“…Here, by applying the microscopic heat pulse method to actomyosin motility assay, the regulatory mechanism is examined from the room temperature up to 37 °C without a thermal denaturing of proteins. We show that the inhibition of actomyosin motility by drebrin E is eliminated immediately and reversibly during heating and depends on drebrin E concentration. …”

Microscopic Temperature Control Reveals Cooperative Regulation of Actin–Myosin Interaction by Drebrin E by Hiroaki Kubota (5798264)

“…Here, by applying the microscopic heat pulse method to actomyosin motility assay, the regulatory mechanism is examined from the room temperature up to 37 °C without a thermal denaturing of proteins. We show that the inhibition of actomyosin motility by drebrin E is eliminated immediately and reversibly during heating and depends on drebrin E concentration. …”

Table_1_Visuomotor Adaptation Brain Changes During a Spaceflight Analog With Elevated Carbon Dioxide (CO2): A Pilot Study.docx by Ana Paula Salazar (9745565)

“…Additionally, we compare brain activity between this NASA campaign (30-day HDBR+CO₂) and a different campaign with a separate set of participants (60-day HDBR with normal atmospheric CO₂ levels, n = 8; 34.25 ± 7.9 years) to characterize the specific effects of CO₂. …”

Data_Sheet_1_Climate and Human-Driven Variability of Summer Hypoxia on a Large River-Dominated Shelf as Revealed by a Hypoxia Index.docx by Kui Wang (137551)