INIS
mutants
100%
pathogenesis
100%
strains
100%
genetics
33%
mutagenesis
33%
biology
25%
in vitro
25%
fluorescence
25%
genes
16%
libraries
16%
randomness
16%
mice
16%
proteins
16%
plasmids
16%
rickettsiae
8%
typhus
8%
macrophages
8%
vaccines
8%
bioluminescence
8%
sorting
8%
bacteria
8%
zoonosis
8%
cell cultures
8%
growth
8%
antibiotics
8%
in vivo
8%
mortality
8%
dynamics
8%
investigations
8%
immunology
8%
foundations
8%
tools
8%
infectivity
8%
diseases
8%
transposons
8%
applications
8%
failures
8%
solids
8%
communities
8%
kinetics
8%
codons
8%
Keyphrases
Orientia Tsutsugamushi
100%
Mutant Strains
100%
Random mutagenesis
12%
Genetic Manipulation
12%
Mutant Library
12%
Himar1
12%
High Mortality
6%
Immunology
6%
Macrophage Cells
6%
Fluorescent Protein
6%
Rickettsia Conorii
6%
Endothelial Cells
6%
Immune Response
6%
CD-1 Mice
6%
Severe Infection
6%
Molecular Investigation
6%
Focus Assay
6%
Live Imaging
6%
Genetic Contribution
6%
Tsutsugamushi Triangle
6%
Zoonosis
6%
Transformant
6%
Gram-negative Bacteria
6%
Dynamic Response
6%
Infectivity
6%
C57BL
6%
Plaque Assay
6%
Self-replication
6%
Bacterial Dissemination
6%
Genome-wide mutagenesis
6%
Mariner
6%
Rickettsiaceae
6%
Scrub Typhus
6%
Protein Domain Analysis
6%
Amicability
6%
Growth Kinetics
6%
Electroporation
6%
Codon Optimization
6%
Antibiotics
6%
Transposon
6%
Cell Sorting
6%
Mouse Model
6%
Plasmid
6%
Bioluminescence
6%
Polycistronic
6%
Replication Dynamics
6%
Mutagenesis
6%
Primary Cell Culture
6%
Solid Foundation
6%
Vascular Dysfunction
6%
Living Cells
6%
Cell Culture in Vitro
6%
Disease Pathogenesis
6%
Replicating Plasmid
6%
Bacterial Replication
6%
Multiple Organ Failure
6%
Immunology and Microbiology
Orientia tsutsugamushi
100%
Mutagenesis
25%
Mouse Model
12%
Genetic Manipulation
12%
Plasmid
12%
CD-1 Mouse
6%
Electroporation
6%
Zoonosis
6%
Vaccine Efficacy
6%
Rickettsia conorii
6%
Bioluminescence
6%
Transposon
6%
Immune Response
6%
Immunology
6%
Macrophage
6%
Cell Selection
6%
Codon
6%
Rickettsiaceae
6%
Dynamics
6%
Protein Domain
6%
Gram-Negative Bacteria
6%
Primary Cell Culture
6%