Shell colour luminance variation of six phenotypic groups according to background colour and spiral band categories of <i>Polymita muscarum</i>. by Mario Juan Gordillo-Pérez (20565248)

Fig 1 - by Mario Juan Gordillo-Pérez (20565248)

Virucidal activity of vaginal acids against HSV-2 and HPV-16. by Muriel Aldunate (22411177)

LA is a more potent inhibitor of HIV-1 virion-associated RT activity compared to acetic acid or low pH (HCl) alone. by Muriel Aldunate (22411177)

Virucidal activity of equimolar levels of the protonated form of vaginal LA, SCFAs, and succinic acid. by Muriel Aldunate (22411177)

LA has minimal impact on HIV-1 virion integrity and surface levels of gp120 envelope protein. by Muriel Aldunate (22411177)

Degradation of virion-associated RNA following acid treatment. by Muriel Aldunate (22411177)

Analysis of L-LA on gp120 protein conformation and rCD4 binding. by Muriel Aldunate (22411177)

The <i>ENT2</i> knockout effects on CRC proliferation and survival. by Safaa M. Naes (22075434)

“…Data are presented as means ± SD and expressed as % relative to control cells. * indicates a significant difference between NTC vs. …”

Virucidal activity of LA, SCFA, and succinic acid combinations associated with an optimal vaginal microbiota or BV, representing a non-optimal vaginal microbiota. by Muriel Aldunate (22411177)

PERCOM, an unbiased and easily-accessible protein-centric analysis workflow. by Brian Foo (19273132)

PEDV and PDCoV infection impairs the cilium. by Tenghan Zhuang (22238809)

“…Notably, infection by either porcine epidemic diarrhea virus (PEDV) or porcine deltacoronavirus (PDCoV) resulted in a significant decrease in both the percentage of cells with cilium and the average ciliary length across all three porcine cell lines (<i>C-D, F-G, and I-J</i>). …”

Comparison curves of snow. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Comparison of simulation results. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Displacement vector diagram of snow. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Description of the selected nodes. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

MDPC material parameters for snow. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Description of the selected nodes. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Finite Element Model of Tire and Snow Runway. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”

Yield Function of the MDPC Model [24]. by Hanqing Guo (12451176)

“…The compaction rate initially increases and then decreases with different snow thicknesses; beyond the tread depth, the load significantly affects the maximum compaction rate, which reaches 504 mm/s. …”