Heterogeneity of PTGDR mRNA expression levels in laser microdissected adenoma and tumor samples. by Sándor Spisák (123726)

“…Genes were considered to be downregulated with values lower than 0.5 (50% decrease, horizontal dotted line) (A) Expression value distribution of the 215894_at probeset (for <i>PTGDR</i> gene) in the GSE8671 (B) and GSE18105 (C) GEO data sets. …”

Altered outer retinal morphology in chick retinal detachment. by Colleen M. Cebulla (308735)

“…(b–f) There is shortening of the outer segments and flattening of the RPE in areas of RD. Later there is a decrease in cell bodies in the outer nuclear layer (f). …”

The influence of the emotion prime on target detection depends on the stimulus onset asynchrony (SOA), and specifically for T2 report. by Nicolas Vermeulen (140588)

“…A significant (<i>t</i>₁₇<i> = </i>−4.50, <i>P</i><.001) decrease (−19.9%) in correct identification of targets was observed following the processing of fear primes as compared to disgust primes. …”

AAA does not inhibit KA-induced protease expression. by Bhagyalaxmi S. Ganesh (353895)

“…At 24, 48 and 72 h after injection, proteins were extracted from the retinas, and aliquots containing an equal amount of protein (50 ug) were subjected to zymography assays (A). …”

Multiscale modeling of layer formation in epidermis - Fig 2 by Huijing Du (106942)

“…(<b>B</b>) Immunofluorescence images showing a mild decrease in the size of the K14-positive compartment in <i>Ovol2</i>-overexpressing epidermis at E18.5. …”

CTR 1 silencing inhibits VEGF 165. by Gomathy Narayanan (456259)

“…CTR1 si 1 at 10 nM concentration decreased the VEGF expression by 50% when compared to Cu (*<i>p</i> = 0.015), P 800 µM showed a mild decrease when compared with Cu, whereas Ssi 10 nM did not show any significant change B. …”

EBOV/Mak-C05 Surface Persistence in Simulated Vomit at Three Different Environments. by Michael Schuit (2155819)

“…The microtitration assay limit of detection (0.7 Log TCID₅₀/mL) is indicated by a gray bar at the bottom of each graph.…”

SU86.86 cells exhibit phenotypic and genotypic changes following selection by IH. by Daniel Verduzco (712932)

“…A significant decrease in expression of E-cadherin (A) and p53 (B) was detected by quantitative Real-Time PCR. …”

DataSheet1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.docx by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

Presentation2_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

Presentation1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

DataSheet1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.docx by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

DataSheet1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.docx by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

Presentation2_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

Presentation3_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

Presentation1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

Presentation1_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

Presentation2_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

Presentation3_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”

Presentation3_Bridging Size and Charge Effects of Mesoporous Silica Nanoparticles for Crossing the Blood–Brain Barrier.PPTX by Yi-Ping Chen (530619)

“…A series of MSNs with various charges and two different sizes of 50 and 200 nm were synthesized, which showed a uniform mesoporous structure with various surface zeta potentials ranging from +42.3 to −51.6 mV. …”