Virucidal activity of LA, SCFA, and succinic acid combinations associated with an optimal vaginal microbiota or BV, representing a non-optimal vaginal microbiota. by Muriel Aldunate (22411177)

Subjects:

Analysis of L-LA on gp120 protein conformation and rCD4 binding. by Muriel Aldunate (22411177)

Subjects:

Data set. by Muriel Aldunate (22411177)

Subjects:

Degradation of virion-associated RNA following acid treatment. by Muriel Aldunate (22411177)

Subjects:

LA has minimal impact on HIV-1 virion integrity and surface levels of gp120 envelope protein. by Muriel Aldunate (22411177)

Subjects:

Protocol for our RNA-seq. by Sabih Rashid (5618807)

Transcriptomic analysis of AMPK and HZL-1 mutants reveals widespread gene expression differences predominantly in the germ line. by Sabih Rashid (5618807)

Analysis of DCX⁺ cells showing migratory morphology (cells with small, oval/fusiform cell soma – less than 9 µm – and an unbranched leading process) in the amygdala of a... by Marco Ghibaudi (16701750)

This is the raw data used for this study. by James M. Friedman (22522150)

“…Occipital headaches decreased from 66% to 6%. Rotator cuff impingement decreased from 87% to 10%. …”

Pre-operative versus post-operative symptoms. by James M. Friedman (22522150)

“…Occipital headaches decreased from 66% to 6%. Rotator cuff impingement decreased from 87% to 10%. …”

Patient Demographics. by James M. Friedman (22522150)

“…Occipital headaches decreased from 66% to 6%. Rotator cuff impingement decreased from 87% to 10%. …”

Diagnostic Criteria for Human Disharmony Loop. by James M. Friedman (22522150)

“…Occipital headaches decreased from 66% to 6%. Rotator cuff impingement decreased from 87% to 10%. …”

Canopy effects from biomass utilization on the Priest River Experimental Forest by Ina S. Miller (19658593)

“…To explore these objectives, we installed research sites at several locations and studied management at the small plot scale. The Priest River Experimental Forest (PREF) which is in the northern panhandle of Idaho approximately 12 kilometers (km) (7 miles (mi)) northeast of Priest River, Idaho, was chosen as one research study area because biomass removal projects had been completed in years past. …”

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)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

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)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

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)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

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)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

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)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

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)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

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)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”