Keyphrases
Nuclear Pore Complex
100%
Xenobiotics
85%
Suramin
85%
Nuclear Envelope
85%
African Trypanosomes
85%
Spike Glycoprotein
85%
Lineage-specific
28%
Eukaryotic Cells
23%
Evolutionary Origin
23%
Nucleoplasm
23%
Molecular Evolution
14%
Endomembrane
14%
Gene Loss
14%
Nutrient Accumulation
14%
Large Cohort
14%
Universal Characteristic
14%
Environmental Sensing
14%
Mediate Function
14%
Repurposing
14%
Proteomic Response
14%
Immune Evasion
14%
Innate Immune Response
14%
CRISPR-Cas9 Knockout
14%
Common Origin
14%
Nuclear Activity
14%
Attenuation
14%
Antigenic Variation
14%
Biophysical Analysis
14%
Drug Interactions
14%
Endoplasmic Reticulum
14%
Structural Class
14%
Proteome
14%
Trypanosomatids
14%
Bilayer Lipid Membrane
14%
Surface Proteins
14%
Pore Continuity
14%
Backfill
14%
Resistance Evolution
14%
Novel Genes
14%
Parasitic Protozoa
14%
Null Cell
14%
Trypanocidal Compounds
14%
Drug Potential
14%
Intracellular Compartments
14%
Endomembrane System
14%
Nuclear Function
14%
Distinct Mechanism
14%
Naphthol
14%
Conserved Protein
14%
Comparative Analysis
14%
Immunology and Microbiology
Nuclear Pore Complex
100%
Xenobiotic
85%
Trypanosoma
85%
Glycoprotein
85%
Nuclear Pore
85%
Lineages
66%
Trypanosomatid
28%
Innate Immune System
28%
Protozoa
28%
Immune Evasion
28%
Null Cell
28%
Antigenic Variation
28%
Drug Interaction
28%
CRISPR/Cas9
28%
Eukaryotic Cell
23%
Evolution
23%
Molecular Evolution
14%
Endoplasmic reticulum
14%
Paralogy
14%
Gene Loss
14%
Lipid Bilayer
14%
Taxon
9%
Eukaryote
9%
Protista
9%
Biochemistry, Genetics and Molecular Biology
Suramin
85%
Glycoprotein
85%
Nuclear Membrane
85%
Trypanosoma
85%
Nuclear Pore
85%
Proteome
28%
Lipid Bilayer
14%
Trypanosomatidae
14%
CRISPR/Cas9
14%
Gene Loss
14%
Nuclear Pore Complex
14%
Nucleoplasm
14%
Immune Evasion
14%
Protozoon
14%
Cell Surface Protein
14%
Molecular Evolution
14%
Drug Interaction
14%
Innate Immunity
14%
Endomembrane System
14%
Antigenic Variation
14%
Paralogy
14%
Evolution
14%