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SNPeffect: identifying functional roles of SNPs using metabolic networks
Debolina Sarkar
,
Costas D. Maranas
Chemical Engineering
Huck Institutes of the Life Sciences
Research output
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Contribution to journal
›
Article
›
peer-review
32
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Scopus citations
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Dive into the research topics of 'SNPeffect: identifying functional roles of SNPs using metabolic networks'. Together they form a unique fingerprint.
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Keyphrases
Functional Role
100%
Single nucleotide Polymorphism
100%
Metabolic Network
100%
Energy Partitioning
66%
Functional Single nucleotide Polymorphism
66%
Carbon Partitioning
66%
Growth Rate
33%
Lignin Biosynthesis
33%
Genome-wide Association Study
33%
Confounding
33%
Adaptive Process
33%
Genome-scale Metabolic Model
33%
Populus Trichocarpa
33%
Biological Interpretation
33%
Cellulose Synthesis
33%
Systematic Bias
33%
Genetic Background
33%
Genetic Source
33%
Phenotypic Variation
33%
Population Structure
33%
Differential Growth
33%
Genotype-phenotype
33%
Metabolic Model
33%
Plant Studies
33%
Thaliana
33%
Metabolite Accumulation
33%
Coding Genes
33%
Mechanistic Interpretation
33%
Amino Acid Metabolism
33%
Breeding Strategy
33%
Polygenic Traits
33%
Agricultural Yield
33%
P. Trichocarpa
33%
Target Pathways
33%
Nucleotide Biosynthesis
33%
Biochemistry, Genetics and Molecular Biology
Single-Nucleotide Polymorphism
100%
Metabolic Network
100%
Genotyping
20%
Metabolite
20%
Genetics
20%
Enzyme
20%
Anabolism
20%
Genome-Wide Association Study
20%
Cellulose
20%
Populus trichocarpa
20%
Genetic Background
20%
Growth
20%
Population Structure
20%
Amino Acid Metabolism
20%
Phenotypic Variation
20%
Nucleotide Metabolism
20%
Agricultural and Biological Sciences
Single Nucleotide Polymorphism
100%
Metabolic Network
100%
Genotyping
20%
Phenotypic Variation
20%
Perennials
20%
Genetic Background
20%
Metabolite
20%
Genome-Wide Association Study
20%
Amino Acid Metabolism
20%
Populus trichocarpa
20%
Population Structure
20%
Immunology and Microbiology
Single Nucleotide Polymorphism
100%
Metabolite
20%
Genome-Wide Association Study
20%
Population Structure
20%
Genetic Background
20%
Phenotypic Variation
20%
Populus trichocarpa
20%
Amino Acid Metabolism
20%
Growth
20%
Nucleotide Metabolism
20%