Validation of epigenetic mechanisms regulating gene expression in canine B-cell lymphoma: An <i>in vitro</i> and <i>in vivo</i> approach by Silvia Da Ros (607525)

“…CLBL-1 cells were treated with two hypomethylating drugs (HDs; IC_50, 50% inhibitory concentration), i.e. azacytidine and decitabine (DEC), either alone or in combination with three histone deacetylase inhibitors (HDACis; IC₂₀), i.e. valproic acid, trichostatin and vorinostat. …”

Data_Sheet_1_Drivers of Natural Variation in Water-Use Efficiency Under Fluctuating Light Are Promising Targets for Improvement in Sorghum.docx by Charles P. Pignon (9019526)

Genetic screen in haploid ESCs for PMP resistance identifies Anoikis modulators. by Giulio Di Minin (4768200)

“…<b>(B)</b> SAG and PMP decrease survival of ESCs treated for 48 hours with SΗΗ (50 to 500 ng/ml), SAG (0.5 to 5 μM), PMP (1 to 10 μM), Cyclopamine-KAAD (1 to 5 μM), and SANT-1 (10 to 50 μM). …”

Data_Sheet_1_miR-212 and miR-132 Are Downregulated in Neurally Derived Plasma Exosomes of Alzheimer’s Patients.PDF by Diana J. Cha (8041226)

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Assessment of quality of life in type II diabetic patients using the modified diabetes quality of life (MDQoL)-17 questionnaire by Vivek Bhanubhai Prajapati (12848338)

“…As the number of complications increased, there was a decrease in the QoL. The presence of comorbidity also decreased the QoL. …”

Effects of 40 mg·kg⁻¹ wogonin on TLR4 expresssion. by Chien-Cheng Chen (207053)

“…Bar graphs of densitometry analysis of protein bands showed a significant decrease in TLR4 protein levels in the ipsilateral hemispheres of wogonin-treated mice at day 1 post-TBI compared with vehicle-treated mice. …”

Rhodopsin characterization in adult WT and <i>Fmr1</i> KO mice retinas. by Rafaëlle Rossignol (621196)

“…(<b>B</b>) Rhodopsin protein decrease is confirmed by spectrophotometric quantification (n = 6 per group). …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Table_1_Application of lymphoplasmapheresis in the treatment of severe myasthenia gravis.DOCX by Weiwei Duan (5940539)

“…After treatment, the mean QMGS of patients decreased significantly, from 23.40 ± 4.25 points before treatment to 17.93 ± 5.61 points after treatment, a decrease of 5.47 ± 4.16 points. 75.6% of patients experienced remission of clinical symptoms. …”

Regulation of macroscopic Cx46 currents by external Ca and Mg by Vytas K. Verselis (53583)

“…(A) Representative current–voltage (I-V) relationships (top) at different external Ca concentrations ranging from nominal (0 added) to 1.8 mM were obtained by applying slow (3 min) voltage ramps from +50 to −100 mV to a Cx46-expressing oocyte. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”

Superior Hard but Quickly Reversible Si–O–Si Network Enables Scalable Fabrication of Transparent, Self-Healing, Robust, and Programmable Multifunctional Nanocomposite Coatings by Yi Hou (148620)

“…The highly cross-linked continuous network endows the coating with a hardness (<i>H</i> = 0.83 GPa) higher than those of most polymers (<i>H</i> < 0.3 GPa), while the uniformly dispersed micelles decrease the Young’s modulus (<i>E</i> = 5.89 GPa) to a value as low as that of common plastics, resulting in excellent hardness and flexibility, with an <i>H</i>/<i>E</i> of 14.1% and an elastic recovery rate (<i>W</i>_e) of 86.3%. …”