Microparticles Engineered to Highly Express Peroxisome Proliferator-Activated Receptor-γ Decreased Inflammatory Mediator Production and Increased Adhesion of Recipient Monocytes by Julie Sahler (666499)

“…Herein, we tested the responses of monocytes exposed to either control microparticles or microparticles that contain the anti-inflammatory transcription factor, peroxisome proliferator-activated receptor-γ (PPARγ). …”

DataSheet1_Solamargine Inhibits the Development of Hypopharyngeal Squamous Cell Carcinoma by Decreasing LncRNA HOXA11-As Expression.PDF by Ying Meng (327793)

ATVB presentation 5-10-2019.pptx by Marco De Giorgi (14580523)

TGFβ1 decreases p27 phosphorylation at Thr187 in the gastric mucosa of 14-day-old rats during fasting. by Ana P. Z. P. Fiore (593811)

Phosphatidylcholine (PC) decreases the nuclear c-Fos and c-Jun protein levels under lipopolysaccharide (LPS) stimulation in MG6 cells. by Sachiko Mizuno (21799645)

<i>Hem1^−/−</i> erythrocytes contain increased phospho-adducin and decreased levels of essential membrane skeletal proteins. by Maia M. Chan (281339)

Data Sheet 1_Decreased brain-derived neurotrophic factor expression in chronic kidney disease: integrated clinical and experimental evidence.docx by Juan Chen (61123)

Supplementary Material for: Decreased Blood Flow after Sorafenib Administration Is an Imaging Biomarker to Predict Overall Survival in Patients with Advanced Hepatocellular Carcino... by Arizumi T. (3588833)

“…We retrospectively evaluated the association between decreased blood flow and the overall survival (OS) of HCC patients after the initiation of sorafenib therapy. …”

Experiment 1: Comparison of effort and delay discounting. by Miriam C. Klein-Flügge (713481)

“…The equations are as follows: hyperbolic: V = M/(1+kC), sigmoidal: V = M (1- (1/(1+exp(-k*(C-p)))- 1/(1+exp(k*p))) (1 + 1/exp(k*p))). …”

Table1_Metabolic dysregulation and decreased capillarization in skeletal muscles of male adolescent offspring rats exposed to gestational intermittent hypoxia.docx by Wirongrong Wongkitikamjorn (14394162)

“…Mother rats underwent IH from gestation day 7–21, and their 5-weeks-old male offspring were analyzed. All male offspring rats were born and raised under normoxia conditions. …”

Image2_Metabolic dysregulation and decreased capillarization in skeletal muscles of male adolescent offspring rats exposed to gestational intermittent hypoxia.JPEG by Wirongrong Wongkitikamjorn (14394162)

“…Mother rats underwent IH from gestation day 7–21, and their 5-weeks-old male offspring were analyzed. All male offspring rats were born and raised under normoxia conditions. …”

Image2_Metabolic dysregulation and decreased capillarization in skeletal muscles of male adolescent offspring rats exposed to gestational intermittent hypoxia.JPEG by Wirongrong Wongkitikamjorn (14394162)

“…Mother rats underwent IH from gestation day 7–21, and their 5-weeks-old male offspring were analyzed. All male offspring rats were born and raised under normoxia conditions. …”

Table1_Metabolic dysregulation and decreased capillarization in skeletal muscles of male adolescent offspring rats exposed to gestational intermittent hypoxia.docx by Wirongrong Wongkitikamjorn (14394162)

“…Mother rats underwent IH from gestation day 7–21, and their 5-weeks-old male offspring were analyzed. All male offspring rats were born and raised under normoxia conditions. …”

Image3_Metabolic dysregulation and decreased capillarization in skeletal muscles of male adolescent offspring rats exposed to gestational intermittent hypoxia.JPEG by Wirongrong Wongkitikamjorn (14394162)

“…Mother rats underwent IH from gestation day 7–21, and their 5-weeks-old male offspring were analyzed. All male offspring rats were born and raised under normoxia conditions. …”

Image1_Metabolic dysregulation and decreased capillarization in skeletal muscles of male adolescent offspring rats exposed to gestational intermittent hypoxia.jpg by Wirongrong Wongkitikamjorn (14394162)

“…Mother rats underwent IH from gestation day 7–21, and their 5-weeks-old male offspring were analyzed. All male offspring rats were born and raised under normoxia conditions. …”

Image1_Metabolic dysregulation and decreased capillarization in skeletal muscles of male adolescent offspring rats exposed to gestational intermittent hypoxia.jpg by Wirongrong Wongkitikamjorn (14394162)

“…Mother rats underwent IH from gestation day 7–21, and their 5-weeks-old male offspring were analyzed. All male offspring rats were born and raised under normoxia conditions. …”

Image3_Metabolic dysregulation and decreased capillarization in skeletal muscles of male adolescent offspring rats exposed to gestational intermittent hypoxia.JPEG by Wirongrong Wongkitikamjorn (14394162)

“…Mother rats underwent IH from gestation day 7–21, and their 5-weeks-old male offspring were analyzed. All male offspring rats were born and raised under normoxia conditions. …”

dsRNA knockdown of putative tsetse serpins results in decreased trypanosome prevalence in the tsetse midgut. by Cher-Pheng Ooi (682424)

“…A degree of cross-reactivity was observed with two genes, with knockdown of <i>GmmSRPN9</i> leading to a significant decrease in transcript level of two other serpins (<i>GmmSRPN5</i> and <i>GmmSRPN10</i>) and knockdown of <i>GmmSRPN3</i> leading to a significant increase in <i>GmmSRPN9</i>. …”

Effects of <em>fou8/fry1</em> Mutation on Sulfur Metabolism: Is Decreased Internal Sulfate the Trigger of Sulfate Starvation Response? by Bok-Rye Lee (157779)

“…The changes in sulfur metabolism in <em>fou8</em> correlated with massive increases in 3′-phosphoadenosine 5′-phosphate levels. The analysis of <em>fou8</em> thus revealed that sulfate starvation response is triggered by a decrease in internal sulfate as opposed to external sulfate availability and that the presence of desulfo-glucosinolates does not induce the glucosinolate synthesis network. …”

Single Muscle Immobilization Decreases Single-Fibre Myosin Heavy Chain Polymorphism: Possible Involvement of p38 and JNK MAP Kinases by Frédéric Derbré (3157917)

“…</p><p>Results</p><p>MHC distribution in immobilized PL was as follows: I = 0%, IIa = 11.8 ± 2.8%, IIx = 53.0 ± 6.1%, IIb = 35.3 ± 7.3% and I = 6.1 ± 3.9%, IIa = 22.1 ± 3.4%, IIx = 46.6 ± 4.5%, IIb = 25.2 ± 6.6% in contralateral muscle. …”