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Global Patterns of Protein Domain Gain and Loss in Superkingdoms
Arshan Nasir
, Kyung Mo Kim
,
Gustavo Caetano-Anollés
Crop Sciences
Biomedical and Translational Sciences
Carl R. Woese Institute for Genomic Biology
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peer-review
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Keyphrases
Protein Domain
100%
Archaebacteria
100%
Eukarya
100%
Superkingdoms
100%
Global Patterns
100%
Proteome
75%
Bacterial Lineages
50%
Molecular Function
50%
Eukaryotes
50%
Evolutionary Adaptation
25%
Microbes
25%
Functional Annotation
25%
Free-living
25%
Metabolic Enzymes
25%
Stem Lineage
25%
Evolutionary Time
25%
Species Phylogeny
25%
Archaeal
25%
Species Evolution
25%
Evolutionarily Conserved
25%
Evolutionary Dynamics
25%
New Domains
25%
Domain-specific Architecture
25%
Cell Regulation
25%
Persistence Strategy
25%
Metabolic Flexibility
25%
Domain Loss
25%
Gain Loss
25%
Specific Domain
25%
Ancestral Domain
25%
Endosymbiosis
25%
Domain Discovery
25%
Organismal Complexity
25%
Immunological Mechanisms
25%
Immunological Cells
25%
Proteome Evolution
25%
Protein Domain Families
25%
Biochemistry, Genetics and Molecular Biology
Eukaryote
100%
Protein Tertiary Structure
100%
Proteome
66%
Archaeon
66%
Dynamics
33%
Enzyme
33%
Evolutionary Adaptation
16%
Microorganism
16%
Endosymbiosis
16%
Immunology and Microbiology
Eukaryote
100%
Protein Tertiary Structure
100%
Archaeon
66%
Lineages
50%
Dynamics
33%
Evolutionary Adaptation
16%
Endosymbiosis
16%
Microorganism
16%