Biochemistry, Genetics and Molecular Biology
Actin Polymerization
25%
Adenosine Diphosphate
25%
Adenosine Triphosphate
75%
Amino Acid Metabolism
25%
Amino Acid Repeat
25%
Anabolism
25%
Autotransporter
25%
Cell Culture
25%
Comparative Genomics
25%
Cytochrome C Oxidase
25%
Enzyme
50%
Essential Gene
25%
Gene Order
25%
Lipogenesis
25%
Metabolic Pathway
25%
Mitochondrial Membrane Transport Protein
25%
Noncoding DNA
50%
Nucleotide Metabolism
25%
Origin of Replication
25%
Outer Membrane Protein
25%
Pseudogene
75%
Rickettsia
100%
Rickettsia prowazekii
100%
Rickettsia typhi
100%
Translocase
25%
Type IV Secretion System
25%
Virulence Factor
25%
Keyphrases
Actin Polymerization
11%
Adhesin
11%
Amino Acid Metabolism
11%
Amino Acid Repeats
11%
Autotransporter
11%
Avirulent Strain
11%
Cell Culture
11%
Comparative Genomics
11%
Cytochrome c Oxidase
11%
Gene Content
11%
Gene number
11%
Gene Order
11%
Genome Analysis
100%
Genome Decay
11%
Intracellular Survival
11%
Large Inversion
11%
Lipid Biosynthesis
11%
LPS Biosynthesis
11%
Membranolytic Activity
11%
Non-coding DNA
22%
Nucleotide Synthesis
11%
OmpA
11%
OmpB
22%
Outer Membrane Protein
11%
PldA
11%
Pseudogene
33%
Repeating Unit
11%
Repetitive Sequences
11%
Replication Origin
11%
Rickettsia
33%
Rickettsia Conorii
33%
Rickettsia Prowazekii
100%
Rickettsia Typhi
100%
Rickettsial
100%
Similar Genes
11%
Small Genome
11%
Spinocerebellar Ataxia
11%
Spotted Fever Group Rickettsiae
11%
Sugar Metabolism
11%
T4SS
11%
TlyA
11%
Tricarboxylic Acid Cycle (TCA cycle)
11%
Type IV Secretion System
11%
Typhus
11%
Unique Genes
11%
Virulence Factors
11%
Virulent Strain
11%
Immunology and Microbiology
Actin Polymerization
25%
Amino Acid Metabolism
25%
Amino Acid Repeat
25%
Cell Culture
25%
DNA Replication Origin
25%
Essential Gene
25%
Gene Order
25%
Lipogenesis
25%
Nucleotide Metabolism
25%
Outer Membrane
25%
Pseudogene
75%
Rickettsia
100%
Rickettsia prowazekii
100%
Rickettsia typhi
100%
Type IV Secretion System
25%
Virulence Factor
25%