Structure Sensitivity of Methanol Electrooxidation Pathways on Platinum:  An On-Line Electrochemical Mass Spectrometry Study by Tom H. M. Housmans (2639395)

“…In 0.5 M H₂SO₄, introducing steps in the (111) plane increases the total reaction rate, while the relative importance of the direct pathway decreases considerably. …”

FOXD3 overexpression suppressed proliferation and enhanced starvation-induced apoptosis in U87MG cells. by Wei Du (88790)

FOXD3 silencing promoted proliferation and inhibited starvation-induced apoptosis in SW1080 cells. by Wei Du (88790)

Quantification of cell apoptosis and survival by flow cytometry in CsA-treated HK-2 cells: Effect of MAGEH1 knockdown. by Gyu-Tae Shin (5819249)

Effects (mean ln R and 95% CI) of live, dead, artificial crab spiders (model), past predation events (PPE) and objects that do no resemble predators on pollinator visitation rate o... by Gustavo Q. Romero (217663)

Inverted Region in Electrochemical Reduction of CO₂ Induced by Potential-Dependent Pauli Repulsion by Leyu Liu (16275714)

“…We then identify that the barrier of the electron-transfer step in the SEPT mechanism exhibits an inverted region as <i>U</i> decreases, which originates from the rapidly rising Pauli repulsion in the physisorption of CO₂ with decreasing <i>U</i>. …”

Evaluation results of eye detection approaches. by Verdzekov Emile Tatinyuy (19959261)

“…<div><p>This study presents a novel multi-stage hierarchical approach to optimize key selection on virtual keyboards using eye gaze. …”

Shows the block diagram of ResNet34. by Verdzekov Emile Tatinyuy (19959261)

“…<div><p>This study presents a novel multi-stage hierarchical approach to optimize key selection on virtual keyboards using eye gaze. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…Here, we use β-phosphoglucomutase (βPGM) to investigate the relationship between binding a phosphodianion group in a distal site, the adoption of a closed enzyme form, and catalytic proficiency. βPGM catalyzes the isomerization of β-glucose 1-phosphate to glucose 6-phosphate via phosphoryl transfer reactions in the proximal site, while coordinating a phosphodianion group of the substrate(s) in a distal site. βPGM has one of the largest catalytic proficiencies measured and undergoes significant domain closure during its catalytic cycle. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…Here, we use β-phosphoglucomutase (βPGM) to investigate the relationship between binding a phosphodianion group in a distal site, the adoption of a closed enzyme form, and catalytic proficiency. βPGM catalyzes the isomerization of β-glucose 1-phosphate to glucose 6-phosphate via phosphoryl transfer reactions in the proximal site, while coordinating a phosphodianion group of the substrate(s) in a distal site. βPGM has one of the largest catalytic proficiencies measured and undergoes significant domain closure during its catalytic cycle. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…Here, we use β-phosphoglucomutase (βPGM) to investigate the relationship between binding a phosphodianion group in a distal site, the adoption of a closed enzyme form, and catalytic proficiency. βPGM catalyzes the isomerization of β-glucose 1-phosphate to glucose 6-phosphate via phosphoryl transfer reactions in the proximal site, while coordinating a phosphodianion group of the substrate(s) in a distal site. βPGM has one of the largest catalytic proficiencies measured and undergoes significant domain closure during its catalytic cycle. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…Here, we use β-phosphoglucomutase (βPGM) to investigate the relationship between binding a phosphodianion group in a distal site, the adoption of a closed enzyme form, and catalytic proficiency. βPGM catalyzes the isomerization of β-glucose 1-phosphate to glucose 6-phosphate via phosphoryl transfer reactions in the proximal site, while coordinating a phosphodianion group of the substrate(s) in a distal site. βPGM has one of the largest catalytic proficiencies measured and undergoes significant domain closure during its catalytic cycle. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…Here, we use β-phosphoglucomutase (βPGM) to investigate the relationship between binding a phosphodianion group in a distal site, the adoption of a closed enzyme form, and catalytic proficiency. βPGM catalyzes the isomerization of β-glucose 1-phosphate to glucose 6-phosphate via phosphoryl transfer reactions in the proximal site, while coordinating a phosphodianion group of the substrate(s) in a distal site. βPGM has one of the largest catalytic proficiencies measured and undergoes significant domain closure during its catalytic cycle. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…Here, we use β-phosphoglucomutase (βPGM) to investigate the relationship between binding a phosphodianion group in a distal site, the adoption of a closed enzyme form, and catalytic proficiency. βPGM catalyzes the isomerization of β-glucose 1-phosphate to glucose 6-phosphate via phosphoryl transfer reactions in the proximal site, while coordinating a phosphodianion group of the substrate(s) in a distal site. βPGM has one of the largest catalytic proficiencies measured and undergoes significant domain closure during its catalytic cycle. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…Here, we use β-phosphoglucomutase (βPGM) to investigate the relationship between binding a phosphodianion group in a distal site, the adoption of a closed enzyme form, and catalytic proficiency. βPGM catalyzes the isomerization of β-glucose 1-phosphate to glucose 6-phosphate via phosphoryl transfer reactions in the proximal site, while coordinating a phosphodianion group of the substrate(s) in a distal site. βPGM has one of the largest catalytic proficiencies measured and undergoes significant domain closure during its catalytic cycle. …”

An Enzyme with High Catalytic Proficiency Utilizes Distal Site Substrate Binding Energy to Stabilize the Closed State but at the Expense of Substrate Inhibition by Angus J. Robertson (11535072)

“…Here, we use β-phosphoglucomutase (βPGM) to investigate the relationship between binding a phosphodianion group in a distal site, the adoption of a closed enzyme form, and catalytic proficiency. βPGM catalyzes the isomerization of β-glucose 1-phosphate to glucose 6-phosphate via phosphoryl transfer reactions in the proximal site, while coordinating a phosphodianion group of the substrate(s) in a distal site. βPGM has one of the largest catalytic proficiencies measured and undergoes significant domain closure during its catalytic cycle. …”

White matter volume and DTI measures within the patient group associating with inflammatory measures. by Teemu Mäntylä (738589)

Simulated example for the calculation of the Potential of death induction (<i>P</i>_<i>death</i>). by Irina Veith (10499821)

“…From t = 12 h there is no more memory of the first death, hence only the last two death zones remain whose distance is larger than that of the two death zones involved in t = 9 h and 11 h, thus causing a decrease in potential.…”

Table1_Changing Characteristics of Pharmaceutical Prices in China Under Centralized Procurement Policy: A Multi-Intervention Interrupted Time Series.DOCX by Hongfei Long (13102752)

“…<p>Objective: National centralized drug procurement organized by the Chinese government currently represents the largest group purchasing organization worldwide, to establish a reasonable price formation mechanism. …”

CA-induced MTT and crystal violet reduction and protection by Ber in N2a cells. by Xiaofeng Liu (35910)

“…<p>CA decreased cell viability in a dose-dependent manner as determined by MTT and crystal violet assay (<b>A</b>) and Ber increased cell viability in a dose-dependent manner until to 25 μg/ml in 2.5 nmol/L CA-treated cells (<b>B</b>). 25 μg/ml Ber showed significant protection of the cells from CA-induced lesions. …”