Dry matter intake (over the experiment), peformance, feed efficiency and faecal score of Holstein calves fed different additives in the starter feed (n = 50). by Luisa F. L. Salazar (6664121)

Cytotoxicity (as of %Control) IC₅₀ value (mean ±SD in µM) of the tested compounds vs. Positive controls Cisplatin and doxorubicin against gastrointestinal and colorectal... by MohammedBashar Al-Qazzan (22439236)

DataSheet_1_Decreased CD73+ Double-Negative T Cells and Elevated Level of Soluble CD73 Correlated With and Predicted Poor Immune Reconstitution in HIV-Infected Patients After Antir... by Xinyue Wang (286629)

Aggrecan knockdown ATDC5 chondroprogenitor cells have decreased Alcian blue staining and absorbance levels compared to control cells after ITS stimulation. by Juanita K. Hodax (6848540)

Bacterial strains and plasmids. by Eunsil Choi (8271039)

“…Our previous research showed that deleting <i>bipA</i> in <i>Escherichia coli</i> at 20°C leads to a defect in 50S ribosomal assembly and impaired lipopolysaccharide (LPS) synthesis. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

S1 File - by Michael Gulledge (20577135)

“…During withdrawal, there was a profound loss (peaking on days 2–3) and gradual return of diurnal structure in sleep, body temperature, and locomotor activity, as well as decreased sleep and wake bout durations dependent on lights on/off. …”

Complete data. by Jan Víteček (11434774)

“…A tenfold decrease or increase in concentration induced only a 2-fold decrease or increase in clot degradation. …”

Fig 4 - by Jan Víteček (11434774)

“…A tenfold decrease or increase in concentration induced only a 2-fold decrease or increase in clot degradation. …”

Image_1_IL-12p40/IL-23p40 Blockade With Ustekinumab Decreases the Synovial Inflammatory Infiltrate Through Modulation of Multiple Signaling Pathways Including MAPK-ERK and Wnt.TIF by Renée H. Fiechter (10230473)

“…No serious adverse events occurred. We observed numerical decreases of all infiltrating cell subtypes at week 12, reaching statistical significance for CD68+ sublining macrophages. …”

Predicted distance (km) needed to achieve a correlation coefficient of at least r =  0.50 using the median-based linear regression models. by Claire Stevens (11127729)

Relationship between the decrease in hunting licences and excess mortality, in each province: Relationship in 2020–2021 (a), in 2021–2022 (b) and between 2021–2022 licences and 202... by Jacopo Cerri (6271958)

Ivermectin significantly decreases <i>L</i>. <i>loa</i> mf in BALB/c mice. by Rene Bilingwe Ayiseh (6900296)

Simulated effects of increased pCREB combined with decreased pCaMKIIα on bistability. by Yili Zhang (540283)

“…However, decreasing <i>k</i>_{<i>basalp_CaMKII</i>} by ~50% blocked the bistable switch (red). …”

Kaplan-Meier survival curves for overall survival of MBC by highest tertile of IFN-γ signature vs. the lowest two tertiles. by Christina Gillezeau (5348660)

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