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

Subjects:

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

Subjects:

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

Subjects:

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

Subjects:

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

Subjects:

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

Subjects:

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

Subjects:

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

Subjects:

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

Subjects:

EHD2 siRNA treated HUVEC showed decreased NO generation and cytosolic Ca²⁺ response. by Claudia Matthaeus (7485782)

SDG decreases iron-induced inflammatory cytokine gene expression in H9c2 cells. by Stephanie Puukila (568109)

SDG decreases iron-induced caspase 3/7 activity in H9c2 cells. by Stephanie Puukila (568109)

Aspirin-Triggered Resolvin D1 does not rescue barrier function in IL-1β-treated A549 cells. by Ruan Cox Jr. (789575)

VEGFa, VEGFR1 and VEGFR2 mRNA levels following A2E incubation and/or light exposure. by Mélanie Marie (7535228)

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

Bidirectional Optical Control of Proton Motive Force in Escherichia coli Using Microbial Rhodopsins by Kotaro Nakanishi (3389300)

“…Tethered cell experiments revealed that, upon illumination, the torque of the flagellar motor decreased to nearly zero (28 pN nm) with <i>Rm</i>XeR, while it increased to 1170 pN nm with AR3. …”

Bidirectional Optical Control of Proton Motive Force in Escherichia coli Using Microbial Rhodopsins by Kotaro Nakanishi (3389300)

“…Tethered cell experiments revealed that, upon illumination, the torque of the flagellar motor decreased to nearly zero (28 pN nm) with <i>Rm</i>XeR, while it increased to 1170 pN nm with AR3. …”

Bidirectional Optical Control of Proton Motive Force in Escherichia coli Using Microbial Rhodopsins by Kotaro Nakanishi (3389300)

“…Tethered cell experiments revealed that, upon illumination, the torque of the flagellar motor decreased to nearly zero (28 pN nm) with <i>Rm</i>XeR, while it increased to 1170 pN nm with AR3. …”

Bidirectional Optical Control of Proton Motive Force in Escherichia coli Using Microbial Rhodopsins by Kotaro Nakanishi (3389300)

“…Tethered cell experiments revealed that, upon illumination, the torque of the flagellar motor decreased to nearly zero (28 pN nm) with <i>Rm</i>XeR, while it increased to 1170 pN nm with AR3. …”

Differential gene sets associated with the transcriptional host response to SARS-CoV-2 infection across serially collected samples. by Vasanthi Avadhanula (259546)