Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…The rapid initial condensation fills up the gap between the pillars, reducing the active surface area and leading to a gradual decrease and a plateau in the condensation rate. …”

Side angle tea picking. by Chunhua Yang (346871)

“…The experimental results demonstrate that when compared to YOLOv10, S-YOLOv10-ASI shows significant improvements across various metrics. Specifically, Bounding Box Regression Loss decreases by over 30% in the training set, while Classification Loss and Bounding Box Regression Loss drop by more than 60% in the validation set. …”

Representative liver histology of normal control (A), low-dose Olanzapine (B), negative control (C), test (D), and positive control (E) groups (Hematoxylin and Eosin stain, ×400 ma... by Elsie D. Oduor (22521785)

Oscillogram (bottom) and sound spectrogram (top) of <i>Physalaemus cicada</i> (A, B), <i>Scinax pachycrus</i> (C, D), and <i>Scinax x-signatus</i> (E, F). by Rogério Ferreira de Oliveira (11133750)

Subjects:

Point load strength apparatus: (a) before modification; (b) after modification. by Hong Zhang (25820)

Subjects:

Percentage inhibition of hemolysis by 6-shogaol-rich ginger extract (0–200 µg/mL) and ascorbic acid (AA; 100 µg/mL) in red blood cells obtained from thalassemia patients (A) and he... by Hataichanok Chuljerm (19144293)

Subjects:

Exploring Metalloproteome Remodeling in Calprotectin-Stressed Acinetobacter baumannii Using Chemoproteomics by Maximillian K. Osterberg (22514185)

“…A majority of the 2645 quantifiable Cys-containing peptides that show an increase in abundance-corrected Cys reactivity (150) are derived from known Zn-, Fe-, and Fe–S-cluster proteins, revealing a significant decrease in metal occupancy (undermetalation) across the proteome. …”

Exploring Metalloproteome Remodeling in Calprotectin-Stressed Acinetobacter baumannii Using Chemoproteomics by Maximillian K. Osterberg (22514185)

“…A majority of the 2645 quantifiable Cys-containing peptides that show an increase in abundance-corrected Cys reactivity (150) are derived from known Zn-, Fe-, and Fe–S-cluster proteins, revealing a significant decrease in metal occupancy (undermetalation) across the proteome. …”

Exploring Metalloproteome Remodeling in Calprotectin-Stressed Acinetobacter baumannii Using Chemoproteomics by Maximillian K. Osterberg (22514185)

“…A majority of the 2645 quantifiable Cys-containing peptides that show an increase in abundance-corrected Cys reactivity (150) are derived from known Zn-, Fe-, and Fe–S-cluster proteins, revealing a significant decrease in metal occupancy (undermetalation) across the proteome. …”

Bidimensional High-Low Frequency (HF, LF) plane representation of the interaction among Phase and High-Low Clarity Groups_: In the Low Clarity (LC) group there was a larg... by David Vagni (8060432)