HPK1-IN-3 decreased T lymphocyte activation. by Min Jeong Ahn (18886882)

Introduction of the F region decreases the amount of extracellular PSMs and increases the amount of extracellular FnbA. by Chikara Kaito (230958)

LPS decreases only T cell proliferative response to OKT3. by Fanny Poujol (834338)

Modifying pregnenolone to decrease its lipophilicity results in decreased cellular uptake. by Jeffrey M. McManus (7512926)

The decrease in hBMVEC death is associated with reduced activation of Caspase-3. by Simona F. Spampinato (773594)

siRNA-mediated knock-down significantly decreases MLL fusion expression levels. by Marieke H. van der Linden (706995)

Mean reaction times in ms to select the infant or the adult target (± SEM). by Sarah K. C. Holtfrerich (3353693)

Cortisone (500 nM, 24 h, black) and cortisol (500 nM, 24 h, dark grey) decrease lipogenesis in differentiated Chub-S7 cells. by Laura L. Gathercole (341979)

Prolonged treatment with oxytocin does not decrease the neural stem cell pool. by Arvind Palanisamy (3159156)

Mean platelet volume and neutrophil to lymphocyte ratio decrease in patients with depression with antidepressant treatment by AHMET ÖZTÜRK (8077292)

miR-105 results in decreased Cdk6 expression at both the mRNA and protein levels. by D. Rice Honeywell (442714)

LPS dose-dependently decreases T cell proliferative response to OKT3. by Fanny Poujol (834338)

Decreased type I IFN response in B cells carrying the MS-protective class I alleles. by Christian Lundtoft (4068679)

Data_Sheet_1_Switching to second line MS disease-modifying therapies is associated with decreased relapse rate.PDF by James John Marriott (16935942)

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

Evidence of Formation of 1–10 nm Diameter Ice Nanotubes in Double-Walled Carbon Nanotube Capillaries by Yuan Liu (88411)

“…However, the single-walled INTs reported in the literature all possess subnanometer diameters (<1 nm). Herein, based on systematic and large-scale molecular dynamics simulations, we demonstrate the spontaneous freezing transition of liquid water to single-walled INTs with diameters reaching ∼10 nm when confined to capillaries of double-walled carbon nanotubes (DW-CNTs). …”

Evidence of Formation of 1–10 nm Diameter Ice Nanotubes in Double-Walled Carbon Nanotube Capillaries by Yuan Liu (88411)

“…However, the single-walled INTs reported in the literature all possess subnanometer diameters (<1 nm). Herein, based on systematic and large-scale molecular dynamics simulations, we demonstrate the spontaneous freezing transition of liquid water to single-walled INTs with diameters reaching ∼10 nm when confined to capillaries of double-walled carbon nanotubes (DW-CNTs). …”

Evidence of Formation of 1–10 nm Diameter Ice Nanotubes in Double-Walled Carbon Nanotube Capillaries by Yuan Liu (88411)

“…However, the single-walled INTs reported in the literature all possess subnanometer diameters (<1 nm). Herein, based on systematic and large-scale molecular dynamics simulations, we demonstrate the spontaneous freezing transition of liquid water to single-walled INTs with diameters reaching ∼10 nm when confined to capillaries of double-walled carbon nanotubes (DW-CNTs). …”

Evidence of Formation of 1–10 nm Diameter Ice Nanotubes in Double-Walled Carbon Nanotube Capillaries by Yuan Liu (88411)

“…However, the single-walled INTs reported in the literature all possess subnanometer diameters (<1 nm). Herein, based on systematic and large-scale molecular dynamics simulations, we demonstrate the spontaneous freezing transition of liquid water to single-walled INTs with diameters reaching ∼10 nm when confined to capillaries of double-walled carbon nanotubes (DW-CNTs). …”

Evidence of Formation of 1–10 nm Diameter Ice Nanotubes in Double-Walled Carbon Nanotube Capillaries by Yuan Liu (88411)

“…However, the single-walled INTs reported in the literature all possess subnanometer diameters (<1 nm). Herein, based on systematic and large-scale molecular dynamics simulations, we demonstrate the spontaneous freezing transition of liquid water to single-walled INTs with diameters reaching ∼10 nm when confined to capillaries of double-walled carbon nanotubes (DW-CNTs). …”