SHIP-1 decreases NOD1-induced NF-κB activation in monocytes/macrophages and interacts with XIAP in the course of NOD1 signaling. by Claude Condé (150801)

Image_5_Mining for Perchlorate Resistance Genes in Microorganisms From Sediments of a Hypersaline Pond in Atacama Desert, Chile.TIF by Jorge Díaz-Rullo (11175171)

(a) Schematic of the confocal lifetime imaging system. Excitation light is provided by a laser diode (λ = 637nm, 170 mW maximum power, which is collimated by a convex lens (L1) and travels through the objective for illumination. It is focused onto the cranial window by a 10×magnification objective (Obj), which is directed to the specific points using galvanometric scanners (xy). Emitted phosphorescence light is separated from excitation light using a beam splitter (BS2) and filter (F) and detected with an avalanche photodiode (APD). The system is controlled by a computer through a data acquisition card (DAQ). (b) In vivo measurements of pO₂vs mean counts per millisecond as controlled by the diode laser power. Higher laser powers correlate with higher consumption of O₂ leading to a significant decrease of pO₂ estimates over time (seen in the first point when average counts exceed 10000).... by Cong Zhang (582922)

“…Higher laser powers correlate with higher consumption of O₂ leading to a significant decrease of pO₂ estimates over time (seen in the first point when average counts exceed 10000). …”

Metronidazole-treated <i>Tg(Inta11:NTR)</i> larvae show defects in median fin fold mesenchyme migration, a reduction in median and pectoral fin fold size and a reduction in endoske... by Robert L. Lalonde (4840260)

“…Inta11: NTR + MTZ larvae show a decrease in pectoral fin fold area at 72hpf, and 7dpf, as well as a reduction in endoskeletal disc size at 7dpf (J). …”

KAIST low-speed wind tunnel and its components. by Elliott Donghyun Kim (19469973)

“…Mie scattering, known for effectively decreasing short-wave infrared light, was employed by utilizing water aerosols having a diameter of 1 to 5 μm. …”

Scattering efficiency by particle diameter. by Elliott Donghyun Kim (19469973)

“…Mie scattering, known for effectively decreasing short-wave infrared light, was employed by utilizing water aerosols having a diameter of 1 to 5 μm. …”

Relative transmission rate by wavelength. by Elliott Donghyun Kim (19469973)

“…Mie scattering, known for effectively decreasing short-wave infrared light, was employed by utilizing water aerosols having a diameter of 1 to 5 μm. …”

Visualization of quantitative variables (a) and individuals (b) from a Multiple Factor Analysis (MFA) describing the relationship between support for conservation, individual, and... by Thaïs A. Bernos (3193842)

“…<p>On Fig 4A, Individual attributes (IN) include age (young/old), gender (woman/man), association membership (asso/noasso), attachment to fishing (att/noatt), dependence on fisheries (dep/nodep); perceptions related to ecological degradation (ED) include distance to fishing sites (dist/nodist), fish size (size/nosize), fish numbers (num/nonum), and local disapearance (disp/nodisp); perceptions related to underling causes (Co) associated with local fishing (fish/nofish); local assets (LA) include shops (sho/no), hotels (hot/nohot), leisures (leis/noleis), and lagoons (lag/nolag); coping mechanisms include realized (CR) to observed changes (continue/decrease/adapt) and hypothetical (CH) to further changes (continue/decrease/adapt). …”

Failure mode of the sample. by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

Positions of AE probes and strain gauges. by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

Sampling site. by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

Received AE waves. by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

Test schemes for soft rocks. by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

Failure mode of the sample. by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

S1 Table - by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

AE monitoring system. by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

MTS-370.25 fatigue resting system. by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

Schematic diagram of the AE testing system. by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

Strain at different positions of the sample. by Zhenhua Wang (426041)

“…At the same temperature, shear strength increases at a rate of 5.6 MPa/°C with increasing confining pressure; as freezing temperature decreases, the shear strength increases at 0.34 MPa/°C, and cohesion increases at 0.6 MPa/°C. …”

KYNA and zaprinast decrease the [Ca²⁺]i plateau phase following an IP3-mediated stimulus in mouse cortical astrocytes. by Rolando Berlinguer-Palmini (491113)

“…<p><b>A</b>) A typical example of KYNA and zaprinast-induced decrease in somatic fluo-3 fluorescence time course measured in three different astrocytes in cultures: control (<i>upper panels</i>), in the presence of 10 μM KYNA (<i>middle panels</i>) or zaprinast 1 µM (<i>lower panels</i>). …”