CaMKKβ is involved in ST2-104-regulated decrease in autophagy. by Yingshi Ji (9013004)

CaMKKβ contributes to the decrease in apoptosis conferred by ST2-104. by Yingshi Ji (9013004)

ST2-104 decreases the Aβ_25-35-mediated increase in intracellular Ca²⁺. by Yingshi Ji (9013004)

Fig 26 - by Piotr Popik (292215)

Loss of RBM-26 causes mitochondria dysfunction in PLM. by Tamjid A. Chowdhury (14149846)

An increase in MOI decreases neuronal dendrite numbers. by Emily Z. Tabaie (16630841)

Loss of RBM-26 function causes a reduction in the density of mitochondria in the PLM axon. by Tamjid A. Chowdhury (14149846)

Whole genome sequencing map of the intron 25-exon 26 transition of the murine <i>Tg</i> locus. by Wendy J. Bailey (14926392)

C-terminal tagging of NCAPH2 can either increase or decrease protein expression. by Gillian C. A. Taylor (3909568)

Comparison of ALT (A), AST (B), and Fib-4 index (C) before and after imeglimin treatment in ALT ≥ 25 IU/L and ALT < 25IU/L groups. by Naruyoshi Gyoutoku (22537831)

Subjects:

Networks favouring more connected individuals results in a significant decrease to the likelihood of network recovery. by Adam Lee Miles (14123916)

Loss of MALS-1 function suppresses the mitochondrial and axon degeneration phenotypes that are caused by loss of RBM-26 function. by Tamjid A. Chowdhury (14149846)

“…(D) Loss of RBM-26 protein expression causes a decrease in mitoribosome expression, which was assayed with the MitoRibo-Tag system consisting of the MRPL-58 mitoribosomal protein tagged at its C-terminus with 3XFLAG (MRPL-58::3XFLAG). …”

Table 1_Increased frequencies of human Th-17 CD4+ T-cells and decreased T-regulatory cells in patients with early and advanced metabolic dysfunction-associated steatotic liver dise... by Elżbieta Supruniuk (16736637)

Table 2_Increased frequencies of human Th-17 CD4+ T-cells and decreased T-regulatory cells in patients with early and advanced metabolic dysfunction-associated steatotic liver dise... by Elżbieta Supruniuk (16736637)

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Lower ratios of guest inclusion decreased the electrical conductivity by 10-fold in <b>1</b>(ClBQ)_0.18, while <b>1</b>(MN)_0.25 and <b>1</b>(BTD)_0.41 were nonconductive (10^–9 S cm^–1). …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Lower ratios of guest inclusion decreased the electrical conductivity by 10-fold in <b>1</b>(ClBQ)_0.18, while <b>1</b>(MN)_0.25 and <b>1</b>(BTD)_0.41 were nonconductive (10^–9 S cm^–1). …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Lower ratios of guest inclusion decreased the electrical conductivity by 10-fold in <b>1</b>(ClBQ)_0.18, while <b>1</b>(MN)_0.25 and <b>1</b>(BTD)_0.41 were nonconductive (10^–9 S cm^–1). …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Lower ratios of guest inclusion decreased the electrical conductivity by 10-fold in <b>1</b>(ClBQ)_0.18, while <b>1</b>(MN)_0.25 and <b>1</b>(BTD)_0.41 were nonconductive (10^–9 S cm^–1). …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Lower ratios of guest inclusion decreased the electrical conductivity by 10-fold in <b>1</b>(ClBQ)_0.18, while <b>1</b>(MN)_0.25 and <b>1</b>(BTD)_0.41 were nonconductive (10^–9 S cm^–1). …”

Charge-Transfer-Driven Electrical Conductivity in Single Crystals of Assembled Triphenylamine Bis-urea Macrocycles by Fahidat A. Gbadamosi (22123930)

“…Lower ratios of guest inclusion decreased the electrical conductivity by 10-fold in <b>1</b>(ClBQ)_0.18, while <b>1</b>(MN)_0.25 and <b>1</b>(BTD)_0.41 were nonconductive (10^–9 S cm^–1). …”