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Paper Details

Biclique extension as an effective approach to identify missing links in metabolic compound-protein interaction networks.
Bioinform Adv
4
2022
Author NameAffiliation
Dirk WaltherMax Planck Institute of Molecular Plant Physiology
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Datasets

KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink
KEGGKyoto encyclopedia of genes and genomes: databases on genes, proteins, and metabolic pathwaysLink