SOCS3 mRNA level is decreased in Daudi cells after 48 h exposure to doxorubicin, IL-6 antibody, and ionizing radiations. by Angélique Gougelet (256624)

Porosity and Mean pore size of porous NiTi alloy samples. by Yu-Tao Jian (750145)

“…From group A to E the MPS decreases with the descending size of the added NH₄HCO₃.…”

Population-level mean antibody (Ab) responses for the protein microarray data. by John Joseph Valletta (564020)

“…<p>A: Mean antibody responses stratified by age (2-10y vs. 18-25y, top) or immune status (protected vs. susceptible, bottom) and sorted by decreasing intensity of one of the strata (old individuals, top, and protected individuals, bottom); each dot represents the mean response to an individual antigen. …”

Predicted targets of miR-337-3p decrease in mRNA expression on over-expression of miR-337-3p. by Liqin Du (158175)

“…(E) Proportional Venn diagram showing the relationship among the genes that decrease ≥2 fold in expression and contain one or more of the five 7-mers corresponding to the mature miR-337-3p sequences.…”

The mean dN/dS of core orthologues plotted against dS. by Santiago Castillo-Ramírez (33485)

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. …”

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). …”

Comparative levels of differentially expressed genes over time in a murine staphylococcal SSTI model. by Rebecca A. Brady (408084)

“…Transcripts that are common to multiple time points are shown by the overlap. (A) Significantly increased transcripts in infected ears compared to non-infected ears from the same challenged mice (local response); (B) Significantly decreased transcripts in infected ears compared to non-infected ears from the same challenged mice (local response); (C) Significantly increased transcripts in the non-infected ears of challenged mice compared to naïve mice (systemic response); (D) Significantly decreased transcripts in the non-infected ears of challenged mice compared to naïve mice (systemic response).…”

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. …”