Precision, recall, specificity, negative predictive value (NPV), and Brier score loss for the models which we used for prediction. by Mohamed Abdalla (10100115)

Pharmacological inhibition and/or siRNA silencing of EP2 receptor in EP2S cells decrease claudin-4 expression. by Manigandan Lejeune (458492)

Mental health group common bigram words (Top 50) before and after pandemic. by Yuxuan Cai (19226202)

50 WT 5′ and 3′ terminal nts of the S1 gene are sufficient to package a non-MRV gene into infectious virions. by Debarpan Dhar (724473)

<i>Vps13</i> mutant flies show a decreased life span, age dependent impairment of locomotor function and neurodegeneration. by Jan J. Vonk (3686662)

Titanate Nanosheets/Cellulose Composite Showing Improved Crystallinity and Decreased Water Wettability by Gamma-Irradiation by Yaowaluk Tariwong (22630109)

Decrease in activity of transcriptional factor NRF2 in MCF-7 cells exposed to gDNA^OX at final concentrations of 50 ng/mL for 2 hours. by Svetlana V. Kostyuk (473354)

Decreased 5-hmC expression was associated with <i>TET2</i> downregulation. by Xuejiao Shi (1684186)

HSF2 regulates ORF50 expression in an RTA independent manner. by Lorenza Cutrone (21144285)

Localized schematic of ball valves with different openings (a) 25%; (b) 50%; (c) 75%; (d) 100%. by Weiqing Xu (1279959)

Distribution of hydrogen volume fraction at different openings (a) 25%; (b) 50%; (c) 75%; (d) 100%. by Weiqing Xu (1279959)

The synchronous activity of SGN fiber populations is disrupted and their response to sound is decreased with increasing levels of <i>L</i>_<i>u</i> heterogeneity. by Maral Budak (6680351)

IQG-607 decreases the infection of macrophages by <i>L</i>. <i>braziliensis</i> amastigotes. by Camila F. Amorim (676792)

Decreased pMHC avidity and CD8β-independence for functional avidity of D^bNPN3A-primed T cells for D^bNP₃₆₆. by Sophie A. Valkenburg (176257)

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”

Chloro Half-Sandwich Osmium(II) Complexes:  Influence of Chelated N,N-Ligands on Hydrolysis, Guanine Binding, and Cytotoxicity by Anna F. A. Peacock (1297842)

“…The Os^II complexes hydrolyze up to 100 times more slowly than their Ru^II analogues. The p<i>K</i>*_a of the aqua adducts decreased with a similar trend (p<i>K</i>*_a = 6.3 and 5.8 for en and phen adducts, respectively). …”