Boxplots of average NH₃ ppm in cages with four female or four male mice (see key for male and female) across five cage changing cycles at KI, LUMC and UGA. by B. Ulfhake (6293984)

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

Ammonia (NH₃) measurement (ppm) on the last day of a cage-change cycle in the front, middle and rear of the cage, for each site and sex. by B. Ulfhake (6293984)

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Bacterial growth load (CFUs) and average of NH₃ ppm across the cage-change cycle in cages changed bi-weekly (filled circles) vs. weekly (open circles). by B. Ulfhake (6293984)

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PPM1A facilitates both nuclear distribution and transcription potency of YAP/TAZ. by Ruyuan Zhou (10197187)

“…<b>(B–D)</b> Transcription potency of YAP (5 ng), which was suppressed by coexpression of MST1 (50 ng) (B), LATS1 (500 ng) (C), or MAP4K1 (50 ng) (D), was markedly recovered by cotransfection of wild-type PPM1A but not the enzyme-dead PPM1A (D239N). …”

Detection of the Challenging mutations at 1% VAF and 50 ng DNA input. by Lizhi Yu (12476136)

IC₅₀s data of antimalarials against controls. by Winnie Okore (14139712)

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Drugs IC₅₀s data during the study period. by Winnie Okore (14139712)

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SNPs IC₅₀s data at codon 876 during the study period. by Winnie Okore (14139712)

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Synthesis and Antiproliferative Activity of a New Series of Mono- and Bis(dimethylpyrazolyl)‑<i>s</i>‑triazine Derivatives Targeting EGFR/PI3K/AKT/mTOR Signaling Cascades by Ihab Shawish (13015516)

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Synthesis and Antiproliferative Activity of a New Series of Mono- and Bis(dimethylpyrazolyl)‑<i>s</i>‑triazine Derivatives Targeting EGFR/PI3K/AKT/mTOR Signaling Cascades by Ihab Shawish (13015516)

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S3 File - by Abdullah Niaz (16955618)

“…At higher concentrations some desorption was observed (36% at 50 ppm) but was reduced at lower concentrations (1–3% at < 5 ppm). …”

S1 File - by Abdullah Niaz (16955618)

“…At higher concentrations some desorption was observed (36% at 50 ppm) but was reduced at lower concentrations (1–3% at < 5 ppm). …”

Key properties of MCPA. by Abdullah Niaz (16955618)

“…At higher concentrations some desorption was observed (36% at 50 ppm) but was reduced at lower concentrations (1–3% at < 5 ppm). …”

S2 File - by Abdullah Niaz (16955618)

“…At higher concentrations some desorption was observed (36% at 50 ppm) but was reduced at lower concentrations (1–3% at < 5 ppm). …”

Association of polymorphic IC_50s versus wild<i>-</i>type at codon 876 in selected drugs tested. by Winnie Okore (14139712)

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

Evidence of Formation of 1–10 nm Diameter Ice Nanotubes in Double-Walled Carbon Nanotube Capillaries by Yuan Liu (88411)

“…However, the single-walled INTs reported in the literature all possess subnanometer diameters (<1 nm). Herein, based on systematic and large-scale molecular dynamics simulations, we demonstrate the spontaneous freezing transition of liquid water to single-walled INTs with diameters reaching ∼10 nm when confined to capillaries of double-walled carbon nanotubes (DW-CNTs). …”

Evidence of Formation of 1–10 nm Diameter Ice Nanotubes in Double-Walled Carbon Nanotube Capillaries by Yuan Liu (88411)

“…However, the single-walled INTs reported in the literature all possess subnanometer diameters (<1 nm). Herein, based on systematic and large-scale molecular dynamics simulations, we demonstrate the spontaneous freezing transition of liquid water to single-walled INTs with diameters reaching ∼10 nm when confined to capillaries of double-walled carbon nanotubes (DW-CNTs). …”

Evidence of Formation of 1–10 nm Diameter Ice Nanotubes in Double-Walled Carbon Nanotube Capillaries by Yuan Liu (88411)

“…However, the single-walled INTs reported in the literature all possess subnanometer diameters (<1 nm). Herein, based on systematic and large-scale molecular dynamics simulations, we demonstrate the spontaneous freezing transition of liquid water to single-walled INTs with diameters reaching ∼10 nm when confined to capillaries of double-walled carbon nanotubes (DW-CNTs). …”