Interpretation of bidirectional MR. by Laurence J. Howe (5579186)

Subjects:

Downregulation of G9a induces autophagy and decreases tumorigenicity in neuroblastoma cells. by Xiao-Xue Ke (626989)

HCV infection decreases L1 retrotransposition frequency. by Anja Schöbel (10668438)

Liability threshold model for nsCL/P. by Laurence J. Howe (5579186)

Subjects:

A typical metaboliser prevalence for CYP2D6 and CYP2C19 across diverse ancestry groups. These are genetically predicted based on data published by PharmGKB and CPIC. We have define... by Emma F. Magavern (20947928)

Subjects:

α-TEA decreased Bcl-2 and c-FLIP (L) protein levels via caspase-8 dependent ER stress-mediated JNK/CHOP/DR5 pathway. by Richa Tiwary (363014)

HLA-C expression levels increase and exon 1 skipping decreases as NK cells mature. by Hongchuan Li (375905)

Subjects:

Local inhibition of nitrergic activity in tenotomized rats accelerates muscle regeneration by increasing fiber area and decreasing central core lesions by A.D. Seabra (6515330)

“…<div><p>Muscular atrophy is a progressive degeneration characterized by muscular proteolysis, loss of mass and decrease in fiber area. …”

Removal of <i>Mcs5c</i> TCE copies results in decreased <i>Pappa</i> expression <i>in vitro</i>. by Amanda N. Henning (3043851)

<i>crh-1</i> mutants exhibit a decrease of <i>daf-7</i> expression in the ASI neurons. by JiSoo Park (11133976)

Panel (a) shows ensemble mean global mean near-surface air temperature in historical and RCP simulations from CanESM2 by Nathan P Gillett (557010)

“…In CanESM2 simulations, we find that under the RCP 2.6 scenario, which includes the fastest decrease in aerosol and aerosol precursor emissions, the contribution of aerosol reductions to warming between 2000 and 2040 is around 30%. …”

Brain uptake rate of [¹⁴C]docosahexaenoic acid (DHA) in the whole brain and each brain region. by Takuro Iwao (14636741)

Subjects:

Suppression of endogenous human TRAM expression decreases R848 mediated <i>CCL5</i> and <i>IFN-β</i>, but not <i>TNF-α</i> expression. by Enda Shevlin (628477)

(A) Decreasing CaMKII activity by KN-93 (high-3 µmol/L, low-0.5 µmol/L), AIP (high-10 µmol/L, low-2 µmol/L), or decreasing calmodulin activity by W-7 (high-50 µmol/L, low-20 µmol/L) decreases spontaneous AP firing rate (n = 10 for each drug), cAMP (n = 4 for each drug) and ATP (n = 5 for each drug). by Yael Yaniv (162548)

“…<p>The inactive KN-93 analog, KN-92 (3 µmol/L), has no significant effect on these measurements. A decrease in the spontaneous AP firing rate is associated with a decrease in cAMP that is linked to a decrease in ATP (B). …”

shRNA-mediated knockdown of SNAP23 decreases expression of KCa2.3 in HeLa cells. by Claudia A. Bertuccio (309866)

“…Knockdown of SNAP23 resulted in a decrease in both PM expression of KCa2.3 (top blot and panel <b>(B)</b>), as well as total KCa2.3 (middle blot and panel <b>(C)</b>). …”

Novel chromobox 2 inhibitory peptide decreases tumor progression by Lindsay W. Brubaker (15099942)

PI+ total immune cells are decreased at days 2, 5, and 14 following IR, and PI+ neutrophils are increased at day 30. by Jordan A. Gunning (18143970)

A low dose of BTZ decreases proteasome activity with no effect on cell viability. by A. L. Furfaro (2587792)

Ligand-Controlled Magnetic Interactions in Mn₄ Clusters by Erik Kampert (2330428)

“…Experimentally measured magnetic moments in high magnetic fields show that, upon electron density withdrawal, the main antiferromagnetic exchange constant <i>J</i>₁ decreases from −2.2 K for the [Mn₄(OAc)₄] cluster to −1.9 K for the [Mn₄(H₅C₆COO)₄] cluster and −0.6 K for the [Mn₄(F₃CCOO)₄] cluster, while <i>J</i>₂ decreases from −1.1 K to nearly 0 K and <i>J</i>₃ changes to a small ferromagnetic coupling. …”

Ligand-Controlled Magnetic Interactions in Mn₄ Clusters by Erik Kampert (2330428)

“…Experimentally measured magnetic moments in high magnetic fields show that, upon electron density withdrawal, the main antiferromagnetic exchange constant <i>J</i>₁ decreases from −2.2 K for the [Mn₄(OAc)₄] cluster to −1.9 K for the [Mn₄(H₅C₆COO)₄] cluster and −0.6 K for the [Mn₄(F₃CCOO)₄] cluster, while <i>J</i>₂ decreases from −1.1 K to nearly 0 K and <i>J</i>₃ changes to a small ferromagnetic coupling. …”