Directional Noncovalent Interactions: Repulsion and Dispersion by Ahmed El Kerdawy (1866172)

“…The potential-energy hypersurfaces show two types of minima: (1) collinear with the dihalogen bond and (2) in a bridging position. The former represent the most stable minima for these systems, and their binding energies decrease in the order Br > Cl > F. …”

Compounds of Group 14 Elements with an Element–Element (E = Si, Ge, Sn) Bond: Effect of the Nature of the Element Atom by Kirill V. Zaitsev (1670158)

“…By UV/visible spectroscopy it is established that introduction of a tin atom results in a significant bathochromic absorption shift. …”

Compounds of Group 14 Elements with an Element–Element (E = Si, Ge, Sn) Bond: Effect of the Nature of the Element Atom by Kirill V. Zaitsev (1670158)

“…By UV/visible spectroscopy it is established that introduction of a tin atom results in a significant bathochromic absorption shift. …”

Directional Noncovalent Interactions: Repulsion and Dispersion by Ahmed El Kerdawy (1866172)

“…The potential-energy hypersurfaces show two types of minima: (1) collinear with the dihalogen bond and (2) in a bridging position. The former represent the most stable minima for these systems, and their binding energies decrease in the order Br > Cl > F. …”

Directional Noncovalent Interactions: Repulsion and Dispersion by Ahmed El Kerdawy (1866172)

“…The potential-energy hypersurfaces show two types of minima: (1) collinear with the dihalogen bond and (2) in a bridging position. The former represent the most stable minima for these systems, and their binding energies decrease in the order Br > Cl > F. …”

DataSheet_1_Genome-wide association analysis provides insights into the genetic basis of photosynthetic responses to low-temperature stress in spring barley.pdf by Ammar Elakhdar (14347608)

“…Genome-wide association studies (GWAS) were performed using a mixed linear model (MLM). We identified three major and putative genomic regions harboring 52 significant quantitative trait nucleotides (QTNs) on chromosomes 1H, 3H, and 6H for low-temperature tolerance. …”

Administration of TMG-123 improves glucose tolerance more than metformin and glibenclamide, and exerts additional efficacy in combination with metformin. by Yoshinori Tsumura (3753757)

Identification of ULK2 phosphorylation sites in mitosis. by Zhiyuan Li (205620)

The influence of ghrelin on the thyroid-stimulating hormone (TSH)-induced (0.1 IU/L) mRNA expression of four thyroid components. by Maria Barington (4449151)

PGF concentration in the medium after 24 hours of co-culture for all treatments for endometrial samples from pregnant (P+) and non-pregnant (NP) mares. by K. M. Klohonatz (6425279)

Insulin induced mTOR expression, glucose consumption and lactate production via miR-99a. by Wei Li (7081)

“…Data were presented by mean±SE (n = 3). **, indicates significant decrease compared to the control (p<0.01). (B) Cells were transfected with miR-99a or miR-SCR at 40 nM. …”

Table_1_Pediatric Obesity and Eating Disorders Symptoms: The Role of the Multidisciplinary Treatment. A Systematic Review.docx by Rachele De Giuseppe (6550565)

“…A statistical significant decrease in BMI, BMIz, BMISDS, and adjusted BMI was observed after all MTs, except one. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”

Hybrid Quantum/Classical Molecular Dynamics Simulations of the Proton Transfer Reactions Catalyzed by Ketosteroid Isomerase: Analysis of Hydrogen Bonding, Conformational Motions, a... by Dhruva K. Chakravorty (1420549)

“…Nuclear quantum effects of the transferring hydrogen increase the rates by a factor of ∼8, and dynamical barrier recrossings decrease the rates by a factor of 3−4. …”