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How can proteomics overhaul our understanding of Leishmania biology?
Paul W Denny,
Karunakaran Kalesh
SHLS Life Sciences
National Horizons Centre
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Keyphrases
Alternative Splicing
33%
Biological Sciences
33%
Cellular Physiology
33%
Cellular Processes
33%
Co-translational
33%
Disease Development
33%
Disease Mechanisms
33%
Drug Target
33%
Enzyme Catalysis
33%
Functional Expression
33%
Genetic Aspects
33%
Human Disease
33%
Leishmania
100%
Life Development
33%
Modification Localization
33%
Molecular Mechanism
33%
Molecular-level Characterization
33%
Narrow Scope
33%
Per Genes
33%
Post-translational Modification
100%
Postgenomics
33%
Protein Expression
33%
Protein Isoforms
33%
Protein Level
33%
Protein-protein Interaction
33%
Proteolytic Cleavage
33%
Proteomics
100%
Single Amino Acid Substitution
33%
Somatic Recombination
33%
Subcellular Localization
33%
Transcriptomics
66%
Biochemistry, Genetics and Molecular Biology
Alternative Splicing
33%
Amino Acids
33%
Enzymatic Activity
33%
Enzyme
66%
Genetics
33%
Genomics
100%
Leishmania
100%
Mitotic Recombination
33%
Posttranslational Modification
100%
Protein Isoform
33%
Protein-Protein Interaction
33%
Proteomics
100%
Subcellular Localization
33%
Transcriptomics
66%
Immunology and Microbiology
Alternative RNA Splicing
33%
Cellular Distribution
33%
Leishmania
100%
Mitotic Recombination
33%
Protein Processing
100%
Protein Protein Interaction
33%
Transcriptomics
66%