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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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

“…The results indicate that initial condensation rates on surfaces with intermediate <i>p/d</i> ratios (e.g., 1.2–1.3) are significantly higher due to increased active surface area and droplet cluster formations. …”

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. …”

Patient demographics. by Katrine Carlsen (5477300)

Subjects:

Alpha diversity measures across all 727 samples. by Katrine Carlsen (5477300)

Subjects:

STORMS microbiome reporting checklist. by Katrine Carlsen (5477300)

Subjects:

Alterations of Ceramides, Acylcarnitines, GlyceroLPLs, and Amines in NSCLC Tissues by Jie Zhang (64655)

Subjects: