Image_1_Samm50 Promotes Hypertrophy by Regulating Pink1-Dependent Mitophagy Signaling in Neonatal Cardiomyocytes.TIF by Ran Xu (316855)

“…We first found that Samm50 is a key positive regulator of cardiac hypertrophy, for western blot and real-time quantitative PCR detection revealed Samm50 was downregulated both in pressure-overload-induced hypertrophic hearts and Ang II-induced cardiomyocyte hypertrophy. …”

Table_1_Samm50 Promotes Hypertrophy by Regulating Pink1-Dependent Mitophagy Signaling in Neonatal Cardiomyocytes.XLSX by Ran Xu (316855)

“…We first found that Samm50 is a key positive regulator of cardiac hypertrophy, for western blot and real-time quantitative PCR detection revealed Samm50 was downregulated both in pressure-overload-induced hypertrophic hearts and Ang II-induced cardiomyocyte hypertrophy. …”

Table_2_Samm50 Promotes Hypertrophy by Regulating Pink1-Dependent Mitophagy Signaling in Neonatal Cardiomyocytes.XLSX by Ran Xu (316855)

“…We first found that Samm50 is a key positive regulator of cardiac hypertrophy, for western blot and real-time quantitative PCR detection revealed Samm50 was downregulated both in pressure-overload-induced hypertrophic hearts and Ang II-induced cardiomyocyte hypertrophy. …”

Differential gene expression assay EC₅₀ values in Huh-7 cells and PHH. by Xuan G. Luong (9761423)

Presentation_1_Airway macrophages display decreased expression of receptors mediating and regulating scavenging in early cystic fibrosis lung disease.pdf by Lisa J. M. Slimmen (16464600)

“…The effect of age and neutrophilic inflammation, among other variables, on marker expression was assessed with a multivariate linear regression model.</p>Results<p>AM expression of scavenger receptor CD163 decreased with age (p = 0.016) and was negatively correlated with BALF %neutrophils (r = -0.34, p = 0.016). …”

Differential protective effects of a history of thyroid cancer on breast cancer-specific mortality in patients at age<50years and age≥50years at the diagnosis of breast cancer. by Weiwei Cheng (582223)

Dimerization of [Fe^III(bpy)₃]³⁺ in Aqueous Solutions: Elucidating a Mechanism Based on Historical Proposals, Electrochemical Data, and Computationa... by Nicolas E. Holubowitch (9254254)

“…Despite these favorable characteristics, its oxidized Fe­(III) form undergoes dimerization to form μ-O-[Fe^III(bpy)₂(H₂O)]₂⁴⁺, leading to a dramatic ∼0.7 V decrease during battery discharge. …”

Data from: Spillage and food dust do not decrease efficacy of long-lasting insecticide-incorporated netting against stored product insects by Sabita Ranabhat (17484660)

Shows the 5′ region and the exons of the <i>C3</i> gene in the vertical line and the three new SNPs that we found by sequencing. by Yonghui Wang (287491)

KDM6A mRNA expression is decreased in PTFE mice. by Simon Lebek (9756148)

The top ranked poisonous plants based on their LD50 and respondent scores. by Faisal Rasool (12530732)

Exercise test characteristics for identifying stenosis ≥ 50% in any limb among the 60 limbs with normal ABIs (> 0.91). by O. Stivalet (6890189)

Sequence of <i>DpAP2</i> promoter. by Lingru Ruan (18995544)

“…Transgenic <i>D</i>. <i>parva</i> showed a higher carotenoid content (3.18 mg/g DW) compared with control group (2.13 mg/g DW) at 9 d. …”

Antifungal effect of WSWE on <i>S</i>. <i>globosa</i>. by Acharya Balkrishna (5640038)

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Determination of minimum fungicidal concentration of WSWE against <i>S</i>. <i>globosa</i>. by Acharya Balkrishna (5640038)

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WSWE targets both cell wall and cell membrane of <i>S</i>. <i>globosa</i>. by Acharya Balkrishna (5640038)

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Micromorphological impact of WSWE treatment on <i>S</i>. <i>globosa</i> cells. by Acharya Balkrishna (5640038)

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Proposed model of mode of action of WSWE as anti-fungal agent. by Acharya Balkrishna (5640038)

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Predicted <i>cis</i>-acting elements in <i>DpAP2</i> promoter. by Lingru Ruan (18995544)

“…Transgenic <i>D</i>. <i>parva</i> showed a higher carotenoid content (3.18 mg/g DW) compared with control group (2.13 mg/g DW) at 9 d. …”

WSWE treatment reduced total ergosterol amount in <i>S</i>. <i>globosa</i> cells. by Acharya Balkrishna (5640038)

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