Image1_Seawater temperature drives the diversity of key cyanobacteria (Synechococcus and Prochlorococcus) in a warming sea.tiff by Alexandra Coello-Camba (6489533)

“…It is anticipated that ocean warming may cause decreased biodiversity in marine tropical areas, as increasing temperatures may lead to the development of a new thermal niche in these regions. …”

The Patient Global Impression of Change as a complementary tool to account for neurobehavioral and mental health symptom improvement for patients with concussion by Rosemay A. Remigio-Baker (7864583)

“…</p> <p>Higher PGIC scores were related to a higher prevalence of clinically-relevant <i>decrease</i> in NSI, PCL-5 or PHQ-8 scores. …”

<i>IRF1</i> impacts VACV replication in glucose/IFN-γ primed but not galactose conditions. by Tyron Chang (9922533)

Image 1_Phage (cocktail)-antibiotic synergism: a new frontier in addressing Klebsiella pneumoniae resistance.tif by Chandrasekar Karthika (21255878)

“…<p>Phages, which play a crucial role in regulating bacterial populations and evolution, have gained renewed attention as potential therapeutic agents especially in the face of rising antimicrobial resistance, such as in Klebsiella pneumoniae– a MDR pathogen with significant clinical implications for immunocompromised individuals. …”

Image 5_Phage (cocktail)-antibiotic synergism: a new frontier in addressing Klebsiella pneumoniae resistance.tif by Chandrasekar Karthika (21255878)

“…<p>Phages, which play a crucial role in regulating bacterial populations and evolution, have gained renewed attention as potential therapeutic agents especially in the face of rising antimicrobial resistance, such as in Klebsiella pneumoniae– a MDR pathogen with significant clinical implications for immunocompromised individuals. …”

Table 2_Phage (cocktail)-antibiotic synergism: a new frontier in addressing Klebsiella pneumoniae resistance.doc by Chandrasekar Karthika (21255878)

“…<p>Phages, which play a crucial role in regulating bacterial populations and evolution, have gained renewed attention as potential therapeutic agents especially in the face of rising antimicrobial resistance, such as in Klebsiella pneumoniae– a MDR pathogen with significant clinical implications for immunocompromised individuals. …”

Image 3_Phage (cocktail)-antibiotic synergism: a new frontier in addressing Klebsiella pneumoniae resistance.tif by Chandrasekar Karthika (21255878)

“…<p>Phages, which play a crucial role in regulating bacterial populations and evolution, have gained renewed attention as potential therapeutic agents especially in the face of rising antimicrobial resistance, such as in Klebsiella pneumoniae– a MDR pathogen with significant clinical implications for immunocompromised individuals. …”

Image 6_Phage (cocktail)-antibiotic synergism: a new frontier in addressing Klebsiella pneumoniae resistance.tif by Chandrasekar Karthika (21255878)

“…<p>Phages, which play a crucial role in regulating bacterial populations and evolution, have gained renewed attention as potential therapeutic agents especially in the face of rising antimicrobial resistance, such as in Klebsiella pneumoniae– a MDR pathogen with significant clinical implications for immunocompromised individuals. …”

Image 2_Phage (cocktail)-antibiotic synergism: a new frontier in addressing Klebsiella pneumoniae resistance.tif by Chandrasekar Karthika (21255878)

“…<p>Phages, which play a crucial role in regulating bacterial populations and evolution, have gained renewed attention as potential therapeutic agents especially in the face of rising antimicrobial resistance, such as in Klebsiella pneumoniae– a MDR pathogen with significant clinical implications for immunocompromised individuals. …”

Table 1_Phage (cocktail)-antibiotic synergism: a new frontier in addressing Klebsiella pneumoniae resistance.xls by Chandrasekar Karthika (21255878)

“…<p>Phages, which play a crucial role in regulating bacterial populations and evolution, have gained renewed attention as potential therapeutic agents especially in the face of rising antimicrobial resistance, such as in Klebsiella pneumoniae– a MDR pathogen with significant clinical implications for immunocompromised individuals. …”

Image 4_Phage (cocktail)-antibiotic synergism: a new frontier in addressing Klebsiella pneumoniae resistance.tif by Chandrasekar Karthika (21255878)

“…<p>Phages, which play a crucial role in regulating bacterial populations and evolution, have gained renewed attention as potential therapeutic agents especially in the face of rising antimicrobial resistance, such as in Klebsiella pneumoniae– a MDR pathogen with significant clinical implications for immunocompromised individuals. …”

Ingenuity pathway analysis of tonic ISG subclasses. by Tyron Chang (9922533)

Crossing Barriers<i>: In Vitro</i> Cancer Model for Studying Monocyte Migration across Endothelial Barriers by Mandeep K. Marway (21734690)

“…The endothelial vessel wall plays a significant role in the migration, activation, and polarization of these monocytes. …”

Crossing Barriers<i>: In Vitro</i> Cancer Model for Studying Monocyte Migration across Endothelial Barriers by Mandeep K. Marway (21734690)

“…The endothelial vessel wall plays a significant role in the migration, activation, and polarization of these monocytes. …”

Crossing Barriers<i>: In Vitro</i> Cancer Model for Studying Monocyte Migration across Endothelial Barriers by Mandeep K. Marway (21734690)

“…The endothelial vessel wall plays a significant role in the migration, activation, and polarization of these monocytes. …”

Analysis of host and interferon-induced responses in glucose/galactose infected with vaccinia virus. by Tyron Chang (9922533)

Vaccinia virus and VSV infections of <i>STAT1</i> and <i>IRF1</i> KO cells grown in glucose/galactose with and without IFN-γ priming. by Tyron Chang (9922533)

Glucose but not galactose culturing of IFN-γ primed cells reduces VACV and HSV-1 replication. by Tyron Chang (9922533)

Glucose/galactose selectively alters ISG protein not RNA levels in interferon-primed cells. by Tyron Chang (9922533)

LLL12B, APTO-253, and VK-1727 inhibit cell growth and induce apoptosis in LCL. by Huanzhou Xu (8129922)