Schematic representation of the molecular mechanism by which iRF decreases the aggressiveness of B16F10 cells. by Daisy Machado (288559)

Subjects:

Decreased Brain Levels of Vitamin B12 in Aging, Autism and Schizophrenia by Yiting Zhang (391974)

“…Total Cbl was significantly lower in older control subjects (> 60 yrs of age), primarily reflecting a >10-fold age-dependent decline in the level of MeCbl. …”

NF/MNC injection at early time points post-MI decreases infarct size. by Ming-Yao Chang (700415)

Acute myocardial infarction changes bone marrow cell composition and decreases endothelial differentiation capability. by Ming-Yao Chang (700415)

“…<p><b>(A)</b> CD14 positive cells increased at day 1 post-MI while the CD16 positive cell decreased at day 4 and day 7 after infarction in <b>B</b> with n ≥3 per groups. …”

TLR4 expression decreases in B16-OVA tumors. by Andrés H. Rossi (739124)

YTX treatment decreases tumour development in the B16F10 melanoma mouse model. by Araceli Tobío (3545306)

Rdh10a deficient embryos have decreased RA signaling. by Enrico D’Aniello (798447)

Inhibition of TMEM16A decreased SW620 cell migration and invasion. by Yujie Sui (549090)

Gradual decreases in tyrosinase expression detected by Western blotting. by Shuji Nakamura (230936)

<b>Glucagon Clearance is Decreased in Chronic Kidney Disease, but Preserved in Liver Cirrhosis</b> by Magnus F. G. Grøndahl (19160825)

Image_10_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIF by Rohit Moudgil (540119)

Deletion of TXNIP decreases nitrative stress under normoxia and hyperoxia. by Mohammed A. Abdelsaid (287140)

ShakB(N+16) increases, and ShakB(N) decreases, NB coupling. by Sami H. Jezzini (650703)

TMEM16A knockdown induced a decrease in proliferation of SW620 cells. by Yujie Sui (549090)

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Glucose inhibition decreases IL-1β levels and tumor progression in the B16F10 mouse model. by Yunseo Woo (6157307)