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Comparable system-level organization of Archaea and Eukaryotes
J. Podani
, Z. N. Oltvai
, H. Jeong
, B. Tombor
, A. L. Barabási
, E. Szathmáry
Research output
:
Contribution to journal
›
Article
›
peer-review
63
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Scopus citations
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Keyphrases
System Level
100%
Archaebacteria
100%
Eukaryotes
100%
Metabolic Enzymes
100%
Evolutionary Relationship
100%
Archaeal
100%
Adaptation
50%
Metabolic
50%
Multivariate Analysis
50%
Natural Selection
50%
Evolutionary Theory
50%
Proteome
50%
Surrounding Environment
50%
Reaction Pathway
50%
Evolutionary Change
50%
Nucleotide Sequence
50%
Gene Content
50%
Metabolic Network
50%
Information Transfer
50%
Close Relationships
50%
Biological Variation
50%
Bacterial Origin
50%
Transfer Path
50%
Eukaryote Evolution
50%
Innate Characteristics
50%
Symbiotic Evolution
50%
Biochemical Reactions
50%
Sequence Content
50%
Biochemistry, Genetics and Molecular Biology
Eukaryote
100%
Archaeon
100%
Enzyme
66%
Multivariate Analysis
33%
Metabolic Network
33%
Content Analysis
33%
Proteome
33%
Natural Selection
33%
Biological Variation
33%
Nucleotide Sequence
33%
Immunology and Microbiology
Eukaryote
100%
Archaeon
100%
Natural Selection
33%
Biological Variation
33%
Content Analysis
33%
Nucleotide Sequence
33%