Ppk1 levels are not affected by decreasing dendrite arbor size but are reduced when dendrite length increases. by Josephine W. Mitchell (17364781)

Elevated IDO activity in HD mouse brains is decreased by <i>ex-vivo</i> iron chelation. by David W. Donley (3111198)

“…<p>Mouse pups were supplemented with carbonyl iron from postnatal days 10–17 and then were sacrificed at 14 weeks of age. <b>A.</b> Striatal IDO activity is increased in N171-82Q HD mice and significantly decreased by <i>ex vivo</i> iron (III) chelation (50 μM deferoxamine). …”

Stepped-wedge study design. by James P. Reynolds (7954610)

Definitions of the features selected [50]. by Yu Zhang (12946)

Cell population dynamics for the multi-step model. by Anshul Saini (11320669)

Flowchart of the analysis steps and methods used in the study (see details in sections 2.1 to 2.5). by Juan David Gutiérrez (6511763)

Results of the step-by-step filling test on the coarse aggregates. by Zhijun Liu (35566)

Overview of pipeline steps and study design. by Alireza Talesh Jafadideh (14227404)

Table of step height. by Jianbo Jia (717814)

“…Finally, by making corresponding test blocks, it was found that the peak value of forward resistance when the 10.5°test block crossed the steps of 1mm, 2mm and 3mm height decreased by 19.8%, 25.0% and 13.9% respectively, and the mean value decreased by 30.8%, 27.2% and 24.1% respectively, which was close to the simulation results, and verified the accuracy of the finite element analysis results.…”

The well wall step. by Jianbo Jia (717814)

“…Finally, by making corresponding test blocks, it was found that the peak value of forward resistance when the 10.5°test block crossed the steps of 1mm, 2mm and 3mm height decreased by 19.8%, 25.0% and 13.9% respectively, and the mean value decreased by 30.8%, 27.2% and 24.1% respectively, which was close to the simulation results, and verified the accuracy of the finite element analysis results.…”

Simulated regional mean wetland seasons. by Nic Gedney (19762301)

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”

Recombination of Autodissociated Water Ions in a Nanoscale Pure Water Droplet by Soonho Kwon (1402972)

“…We found that the self-diffusion of water dramatically decreases in droplets with a diameter below 2.2 nm. …”