Phylogenetic tree of <i>Anaplasma ovis</i> based on the partial <i>msp4</i> gene sequences available in GenBank. by Sumaira Sumaira (21453523)

Arctigenin decreased proliferation in colorectal cancer cells with no significant effect on normal cells. by Xiang-Fan Chen (13932983)

Table 1_Effect of decreased suspended sediment content on chlorophyll-a in Dongting Lake, China.docx by Le Zhang (88249)

The significant decrease in GLT-1 levels observed in the nucleus accumbens of rats that had consumed morphine for fifty-six days was completely reversed by the co-administration of... by María Elena Quintanilla (8068691)

BrdU incorporation is elevated in clrn1-/- zebrafish at 4 mpf and decreases with age. by Hannah J. T. Nonarath (20861735)

“…<p>Anti-BrdU (green) staining in paraffin sections from (a,a’) 4 mpf, (b,b’) 8 mpf, (c,c’) 12 mpf, and (d,d’) 20 mpf in wild-type and <i>clrn1</i>^<i>-/-</i> zebrafish retinas. …”

CRP interfering the interaction between NbPIRIN and NbRD21 to decrease the protease activity of NbRD21. by Kaili Zhong (298738)

Predicting pattern diversity decreases as a function of and . by Selim Haj Ali (21222613)

Effects of GJE extract treatment decreased accumulation of Col1a1. by Natnicha Suttawong (22367172)

Toxoplasma infection leads to a decrease in the concentration of EVs. by Emily Z. Tabaie (16630841)

Effects of GJE extract treatment decreased serum ALT and AST levels. by Natnicha Suttawong (22367172)

Skin marks is the S1 Fig title. by Mercedes Soto-González (20422078)

“…This effect was more pronounced at AB5 location (mean difference: 1.00mm, 95% CI: 0.97 to 1.89). Conventional exercises result in a reduction during resting condition (mean difference: 4.52mm, 95% CI: 2.62 to 6.79), whereas with hypopressive exercises, the reduction occurs during muscle contraction (mean difference: 3.43mm, 95% CI: 1.21 to 5.65).…”

Data Sheet 1_A synonymous mutation of rs1137070 cause the mice Maoa gene transcription and translation to decrease.pdf by Kai Xin Li (19696741)

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…In contrast, an in-depth examination of the H₂ activation pathway by <b>1</b>^<b>+</b> suggests that inducing ligand flexibility facilitates access to a reactive state through rehybridization at the phosphorus center. …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…In contrast, an in-depth examination of the H₂ activation pathway by <b>1</b>^<b>+</b> suggests that inducing ligand flexibility facilitates access to a reactive state through rehybridization at the phosphorus center. …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…In contrast, an in-depth examination of the H₂ activation pathway by <b>1</b>^<b>+</b> suggests that inducing ligand flexibility facilitates access to a reactive state through rehybridization at the phosphorus center. …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…In contrast, an in-depth examination of the H₂ activation pathway by <b>1</b>^<b>+</b> suggests that inducing ligand flexibility facilitates access to a reactive state through rehybridization at the phosphorus center. …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…In contrast, an in-depth examination of the H₂ activation pathway by <b>1</b>^<b>+</b> suggests that inducing ligand flexibility facilitates access to a reactive state through rehybridization at the phosphorus center. …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…In contrast, an in-depth examination of the H₂ activation pathway by <b>1</b>^<b>+</b> suggests that inducing ligand flexibility facilitates access to a reactive state through rehybridization at the phosphorus center. …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…In contrast, an in-depth examination of the H₂ activation pathway by <b>1</b>^<b>+</b> suggests that inducing ligand flexibility facilitates access to a reactive state through rehybridization at the phosphorus center. …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…In contrast, an in-depth examination of the H₂ activation pathway by <b>1</b>^<b>+</b> suggests that inducing ligand flexibility facilitates access to a reactive state through rehybridization at the phosphorus center. …”