Image_2_Offshore Wind Farm Footprint on Organic and Mineral Particle Flux to the Bottom.JPEG by Evgeny Ivanov (10912050)

“…In contrast, the total organic carbon (TOC) flux to the sediment is significantly altered inside the OWF perimeters and TOC deposition is increased up to 50% in an area 5 km around the monopiles. Further away, the TOC flux to the bottom decreases with a notable effect up to 30 km away. …”

Supplementary Material for: Brusatol Protects HepG2 Cells against Oxygen-Glucose Deprivation-Induced Injury via Inhibiting Mitochondrial Reactive Oxygen Species-Induced Oxidative S... by Zhu S. (4118728)

“…When isolated rat liver mitochondria were pretreated with BRU, A/R-induced ROS generation was significantly decreased, and mitochondrial respiratory dysfunction was ameliorated. …”

Table_2_Moderate Fluid Shear Stress Regulates Heme Oxygenase-1 Expression to Promote Autophagy and ECM Homeostasis in the Nucleus Pulposus Cells.XLSX by Sheng Chen (21971)

“…Here we show that FSS regulates the extracellular matrix (ECM) homeostasis in NP cells. A moderate dose of FSS (i.e., 12 dyne/cm²) increases the sulfated glycosaminoglycan (sGAG) content and protein levels of Col2a1 and Aggrecan and decreases those of matrix metalloproteinase 13 (MMP13) and a disintegrin and metalloproteinase with thrombospondin motif 5 (ADMATS5) in rat NP cells, while a higher dose of FSS (i.e., 24 dyne/cm²) displays opposite effects. …”

Data_Sheet_1_microRNAs profiling of small extracellular vesicles from midbrain tissue of Parkinson’s disease.DOCX by Zhengzhe Li (339033)

“…Interestingly, the expression levels of miR-103-3p, miR-107-3p, miR-219a-2-3p, and miR-379-5p were elevated in bdsEVs and sEVs from plasma; in contrast, their expression levels were decreased in plasma of the rat model of PD. …”

ATP Induced Brain-Derived Neurotrophic Factor Expression and Release from Osteoarthritis Synovial Fibroblasts Is Mediated by Purinergic Receptor P2X4 by Kerstin Klein (161627)

“…<div><p>Brain-derived neurotrophic factor (BDNF), a neuromodulator involved in nociceptive hypersensitivity in the central nervous system, is also expressed in synoviocytes of osteoarthritis (OA) and rheumatoid arthritis (RA) patients. …”

datasheet2_Acacetin Protects Against High Glucose-Induced Endothelial Cells Injury by Preserving Mitochondrial Function via Activating Sirt1/Sirt3/AMPK Signals.pdf by Wei-Min Han (9871304)

“…It was found that in human umbilical vein endothelial cells (HUVECs) cultured with normal 5.5 mM or high 33 mM glucose, acacetin (0.3–3 μM) exerted strong cytoprotective effects by reversing high glucose-induced viability reduction and reducing apoptosis and excess production of intracellular reactive oxygen species (ROS) and malondialdehyde in a concentration-dependent manner. …”

datasheet1_Acacetin Protects Against High Glucose-Induced Endothelial Cells Injury by Preserving Mitochondrial Function via Activating Sirt1/Sirt3/AMPK Signals.pdf by Wei-Min Han (9871304)

“…It was found that in human umbilical vein endothelial cells (HUVECs) cultured with normal 5.5 mM or high 33 mM glucose, acacetin (0.3–3 μM) exerted strong cytoprotective effects by reversing high glucose-induced viability reduction and reducing apoptosis and excess production of intracellular reactive oxygen species (ROS) and malondialdehyde in a concentration-dependent manner. …”

Increased Polyamine Intake Inhibits Age-Associated Alteration in Global DNA Methylation and 1,2-Dimethylhydrazine-Induced Tumorigenesis by Kuniyasu Soda (283701)

“…In addition, increased polyamine intake was associated with a decreased incidence of colon tumors in BALB/c mice after 1,2-demethylhydrazine administration; 12 mice (60%) in the low polyamine group developed tumors, compared with only 5 mice (25%) in the high polyamine group (Fisher's exact probability = 0.027, <i>p</i> = 0.025). …”

datasheet1_Acacetin Protects Against High Glucose-Induced Endothelial Cells Injury by Preserving Mitochondrial Function via Activating Sirt1/Sirt3/AMPK Signals.pdf by Wei-Min Han (9871304)

“…It was found that in human umbilical vein endothelial cells (HUVECs) cultured with normal 5.5 mM or high 33 mM glucose, acacetin (0.3–3 μM) exerted strong cytoprotective effects by reversing high glucose-induced viability reduction and reducing apoptosis and excess production of intracellular reactive oxygen species (ROS) and malondialdehyde in a concentration-dependent manner. …”

Supplementary Material for: Patterns of Respiratory Support by Gestational Age in Very Preterm Infants by Norman M. (3696748)

“…The corresponding proportions of infants with supplemental oxygen decreased by −12.4% to −4.5% for each week higher gestational age (<i>r</i> = −0.98 to −0.94, <i>p</i> < 0.001). …”

datasheet2_Acacetin Protects Against High Glucose-Induced Endothelial Cells Injury by Preserving Mitochondrial Function via Activating Sirt1/Sirt3/AMPK Signals.pdf by Wei-Min Han (9871304)

“…It was found that in human umbilical vein endothelial cells (HUVECs) cultured with normal 5.5 mM or high 33 mM glucose, acacetin (0.3–3 μM) exerted strong cytoprotective effects by reversing high glucose-induced viability reduction and reducing apoptosis and excess production of intracellular reactive oxygen species (ROS) and malondialdehyde in a concentration-dependent manner. …”

Measured time series from e-Rep circuit while slowly changing κ. by Edward H. Hellen (346773)

“…(a) Increasing κ causes IPB at κ = 9.5. (b) Decreasing κ causes IPB at κ = 15.8. …”

Activation of the RSC-ACC projections causes mechanical and thermal pain sensitization. by Shun Hao (11848871)

“…<b>(D and G)</b> Activation of RSC-ACC projections decreases the response latency of 50°C hot plate test, but not 55°C hot plate test in the ChR2 mice (two-way RM ANOVA with Sidak multiple comparisons test, light off vs. light on, F (1, 14) = 15.46, <i>p</i> = 0.0015, light off vs. light on in 50°C group, ***<i>p</i> = 0.0002 < 0.001, light off vs. light on in 55°C group, <i>p</i> = 0.9807, <i>n =</i> 8 mice). …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…Reactions of <b>2a</b>–<b>c</b> with <i>cyclo</i>-E₅ complexes [Cp*Fe­(η⁵-E₅)] (E = P (<b>C1</b>), As (<b>C2</b>)) led to the isolation of one-dimensional coordination polymers [Cu₃(μ-X)₂(μ-dpmp)₂(μ,η¹:η¹-L)]_<i>n</i>[BF₄]_<i>n</i> (<b>8a</b>–<b>b</b>: X = Cl–Br, L = <b>C1</b>; <b>9</b>: X = Cl, L = <b>C2</b>) and symmetrically substituted complex [Cu₃(μ-I)₂(μ-dpmp)₂(η¹-<b>C1</b>)₂]⁺ (<b>10</b>). …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…Reactions of <b>2a</b>–<b>c</b> with <i>cyclo</i>-E₅ complexes [Cp*Fe­(η⁵-E₅)] (E = P (<b>C1</b>), As (<b>C2</b>)) led to the isolation of one-dimensional coordination polymers [Cu₃(μ-X)₂(μ-dpmp)₂(μ,η¹:η¹-L)]_<i>n</i>[BF₄]_<i>n</i> (<b>8a</b>–<b>b</b>: X = Cl–Br, L = <b>C1</b>; <b>9</b>: X = Cl, L = <b>C2</b>) and symmetrically substituted complex [Cu₃(μ-I)₂(μ-dpmp)₂(η¹-<b>C1</b>)₂]⁺ (<b>10</b>). …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…Reactions of <b>2a</b>–<b>c</b> with <i>cyclo</i>-E₅ complexes [Cp*Fe­(η⁵-E₅)] (E = P (<b>C1</b>), As (<b>C2</b>)) led to the isolation of one-dimensional coordination polymers [Cu₃(μ-X)₂(μ-dpmp)₂(μ,η¹:η¹-L)]_<i>n</i>[BF₄]_<i>n</i> (<b>8a</b>–<b>b</b>: X = Cl–Br, L = <b>C1</b>; <b>9</b>: X = Cl, L = <b>C2</b>) and symmetrically substituted complex [Cu₃(μ-I)₂(μ-dpmp)₂(η¹-<b>C1</b>)₂]⁺ (<b>10</b>). …”

Bonding, Structure, and Energetics of Gaseous E₈²⁺ and of Solid E₈(AsF₆)₂ (E = S, Se)^† by T. Stanley Cameron (1599820)

“…The bonding in E₈²⁺ (E = S, Se, Te) can also be understood in terms of a σ-bonded E₈ framework with additional bonding and charge delocalization occurring by a combination of transannular <i>n</i>π*−<i>n</i>π* (<i>n</i> = 3, 4, 5), and <i>n</i>p² → <i>n</i>σ* bonding. …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…Reactions of <b>2a</b>–<b>c</b> with <i>cyclo</i>-E₅ complexes [Cp*Fe­(η⁵-E₅)] (E = P (<b>C1</b>), As (<b>C2</b>)) led to the isolation of one-dimensional coordination polymers [Cu₃(μ-X)₂(μ-dpmp)₂(μ,η¹:η¹-L)]_<i>n</i>[BF₄]_<i>n</i> (<b>8a</b>–<b>b</b>: X = Cl–Br, L = <b>C1</b>; <b>9</b>: X = Cl, L = <b>C2</b>) and symmetrically substituted complex [Cu₃(μ-I)₂(μ-dpmp)₂(η¹-<b>C1</b>)₂]⁺ (<b>10</b>). …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…Reactions of <b>2a</b>–<b>c</b> with <i>cyclo</i>-E₅ complexes [Cp*Fe­(η⁵-E₅)] (E = P (<b>C1</b>), As (<b>C2</b>)) led to the isolation of one-dimensional coordination polymers [Cu₃(μ-X)₂(μ-dpmp)₂(μ,η¹:η¹-L)]_<i>n</i>[BF₄]_<i>n</i> (<b>8a</b>–<b>b</b>: X = Cl–Br, L = <b>C1</b>; <b>9</b>: X = Cl, L = <b>C2</b>) and symmetrically substituted complex [Cu₃(μ-I)₂(μ-dpmp)₂(η¹-<b>C1</b>)₂]⁺ (<b>10</b>). …”

Self-Assembly of Reactive Linear Cu₃ Building Blocks for Supramolecular Coordination Chemistry and Their Reactivity toward E_<i>n</i> Ligand Complexes by Martin Fleischmann (2544508)

“…Reactions of <b>2a</b>–<b>c</b> with <i>cyclo</i>-E₅ complexes [Cp*Fe­(η⁵-E₅)] (E = P (<b>C1</b>), As (<b>C2</b>)) led to the isolation of one-dimensional coordination polymers [Cu₃(μ-X)₂(μ-dpmp)₂(μ,η¹:η¹-L)]_<i>n</i>[BF₄]_<i>n</i> (<b>8a</b>–<b>b</b>: X = Cl–Br, L = <b>C1</b>; <b>9</b>: X = Cl, L = <b>C2</b>) and symmetrically substituted complex [Cu₃(μ-I)₂(μ-dpmp)₂(η¹-<b>C1</b>)₂]⁺ (<b>10</b>). …”