Immunology and Microbiology
Yersinia pseudotuberculosis
100%
Mouse
89%
Bacterial Population
87%
Host Tissue
76%
Infectious Agent
63%
Peptidoglycan
60%
Yersinia
52%
Antibiotic Sensitivity
37%
Lysozyme
35%
Streptococcus Pneumoniae
34%
Macrophage
31%
Secretion (Process)
30%
Virulence Factor
27%
Bacterial Cell
24%
Gene Expression
24%
Immunocompetent Cell
23%
Bacterial Survival
22%
Host Cell
22%
Inflammation Response
22%
Bacterial Growth
18%
Spine
18%
Immune System
17%
Mouse Model
16%
Coinfection
15%
Mycobacteria
15%
Metabolic Rate
15%
Wild Type
15%
Influenza Virus
15%
Microorganism
15%
Innate Immune Response
15%
interferon
15%
Intestine Function
15%
Lymphadenopathy
15%
Pneumococcus
15%
Microflora
15%
Colony Forming Unit S
15%
Cell Membrane Permeability
15%
Innate Immune System
15%
Perciform
15%
Infectious Disease
15%
Salmonella
15%
Intestine
15%
Cell Division
15%
Germinal Center
15%
Surface Property
14%
Cell Interaction
13%
Antibody Response
12%
B Cell
12%
Methicillin-Resistant Staphylococcus Aureus
11%
Inhibitory Concentration
11%
Keyphrases
Yersinia Pseudotuberculosis
71%
Nitric Oxide
54%
Bacterial Population
52%
Host Tissues
37%
Microcolony
31%
Peptidoglycan
30%
Deep Tissue
20%
Individual Cells
20%
Lysozyme
20%
Yersinia
20%
NOD2
20%
Macrophage Clearance
17%
Peptidoglycan Modification
17%
Streptococcus Pneumoniae
17%
Doxycycline
15%
Bacterial Proteins
15%
Bacterial Disease
15%
Spleen
15%
Co-infection
15%
Mouse Spleen
15%
Social Behavior
15%
Bacterial Replication
15%
Doxycycline Treatment
15%
S. Pneumoniae
15%
Single-cell Methods
15%
Synthetic Reconstruction
15%
Translocated
15%
Host Innate Immune Response
15%
Macrophage Recruitment
15%
Secretion Systems
15%
Timer
15%
Permeability Modification
15%
Virulence
15%
One-for-All
15%
Bacterial Cells
15%
Facilitated Modelling
15%
Bacterial Heterogeneity
15%
Spatial Regulation
15%
Cell Division Rate
15%
Influenza Virus
15%
Nuchequula nuchalis
15%
Innate Inflammatory Response
15%
Yellow Fluorescent Protein
15%
Community Behavior
15%
Type I Interferon
15%
Light Organ
15%
Bioluminescent Symbiosis
15%
Leiognathidae
15%
Phenotypic Adaptation
15%
Type I IFN
15%