MAF1 protein expression by patient race and age. by Stephanie Cabarcas-Petroski (9631636)

MAF1 protein expression by stage and tumor histology. by Stephanie Cabarcas-Petroski (9631636)

Fig 4 - by Sang-Eon Park (2178200)

Structure of matrices for engineered lamina propria. by Wichurat Sakulpaptong (12042002)

Study design and RIC model of the study. by Junjun Jia (704682)

EEG markers of behavioral patterns in the emotional cognitive tasks. by Sang-Eon Park (2178200)

Test apparatus. by Sara Hintze (3216885)

Ablation of CHOP protein in P30 T17M <b><i>RHO</i></b><b> retinas led to modulation of the PERK and IRE1 pathways of the UPR.</b> by Sonali Nashine (408442)

“…<p>A: We analyzed T17M <i>RHO</i> and T17M <i>RHO</i> CHOP−/− retinas (N = 4) and found that the expression of phosphorylated eIF2α protein was increased by over 8 fold in T17M <i>RHO</i> CHOP−/− mice (0.5±0.1 a.u.vs. 0.04±0.1 a.u., <i>P</i> = 0.01). …”

Association of glycemic control and chronic kidney disease with hospitalization in type 2 diabetes in a cross-sectional study in Region Halland by Bertin Magamba (22755273)

Summary graph of this study. by Niu Zi-chang (19421796)

“…The combination of GS and metoprolol decreased autophagy in myocardial cells by reducing the levels of autophagy-related proteins (LC3, p62, Beclin1, and Atg5) and increasing the ratios of p-PI3K/PI3K, p-Akt/Akt, and p-mTOR/mTOR.…”

S1 Raw data - by Niu Zi-chang (19421796)

“…The combination of GS and metoprolol decreased autophagy in myocardial cells by reducing the levels of autophagy-related proteins (LC3, p62, Beclin1, and Atg5) and increasing the ratios of p-PI3K/PI3K, p-Akt/Akt, and p-mTOR/mTOR.…”

VANGL2 interacts with NLRP3. by Huaji Jiang (16907514)

An illustration of the healthy-specific subnetwork. by Noël Malod-Dognin (8677110)

Toward Sustainable Li–S Battery Using Scalable Cathode and Safe Glyme-Based Electrolyte by Vittorio Marangon (9706225)

“…The electrolytes are characterized by low flammability, a thermal stability of ∼200 °C, ionic conductivity exceeding 10^–3 S cm^–1 at 25 °C, a Li⁺ transference number of ∼0.5, electrochemical stability window from 0 to ∼4.4 V vs Li⁺/Li, and a Li stripping-deposition overpotential of ∼0.02 V. …”

Toward Sustainable Li–S Battery Using Scalable Cathode and Safe Glyme-Based Electrolyte by Vittorio Marangon (9706225)

“…The electrolytes are characterized by low flammability, a thermal stability of ∼200 °C, ionic conductivity exceeding 10^–3 S cm^–1 at 25 °C, a Li⁺ transference number of ∼0.5, electrochemical stability window from 0 to ∼4.4 V vs Li⁺/Li, and a Li stripping-deposition overpotential of ∼0.02 V. …”

Toward Sustainable Li–S Battery Using Scalable Cathode and Safe Glyme-Based Electrolyte by Vittorio Marangon (9706225)

“…The electrolytes are characterized by low flammability, a thermal stability of ∼200 °C, ionic conductivity exceeding 10^–3 S cm^–1 at 25 °C, a Li⁺ transference number of ∼0.5, electrochemical stability window from 0 to ∼4.4 V vs Li⁺/Li, and a Li stripping-deposition overpotential of ∼0.02 V. …”

Toward Sustainable Li–S Battery Using Scalable Cathode and Safe Glyme-Based Electrolyte by Vittorio Marangon (9706225)

“…The electrolytes are characterized by low flammability, a thermal stability of ∼200 °C, ionic conductivity exceeding 10^–3 S cm^–1 at 25 °C, a Li⁺ transference number of ∼0.5, electrochemical stability window from 0 to ∼4.4 V vs Li⁺/Li, and a Li stripping-deposition overpotential of ∼0.02 V. …”

SH3KBP1 promotes K63-linked polyubiquitination of RIG-I by recruiting TRIM25. by Jiaoyang Li (2862269)

Training effects on G-scores. by Sang-Eon Park (2178200)

Our data-integration framework. by Noël Malod-Dognin (8677110)