KEGG  Biosynthesis of cofactors - Homo sapiens (human)

Option
Scale: 100%
ID search
Color
Module
  • Pathway modules
    • Carbohydrate metabolism
      • Other carbohydrate metabolism
        • M00129 Ascorbate biosynthesis, animals
        • M00114 Ascorbate biosynthesis, plants
    • Energy metabolism
      • Methane metabolism
        • M00358 Coenzyme M biosynthesis
        • M00608 2-Oxocarboxylic acid chain extension
        • M00378 F420 biosynthesis, archaea
        • M00935 Methanofuran biosynthesis
    • Nucleotide metabolism
      • Purine metabolism
        • M00049 Adenine ribonucleotide biosynthesis
      • Pyrimidine metabolism
        • M00051 De novo pyrimidine biosynthesis
        • M00052 Pyrimidine ribonucleotide biosynthesis
    • Amino acid metabolism
      • Other amino acid metabolism
        • M00118 Glutathione biosynthesis
    • Metabolism of cofactors and vitamins
      • Cofactor and vitamin metabolism
        • M00127 Thiamine biosynthesis, prokaryotes
        • M00895 Thiamine biosynthesis, prokaryotes
        • M00896 Thiamine biosynthesis, archaea
        • M00897 Thiamine biosynthesis, plants
        • M00898 Thiamine biosynthesis
        • M00125 Riboflavin biosynthesis, plants and bacteria
        • M00911 Riboflavin biosynthesis, fungi
        • M00124 Pyridoxal-P biosynthesis
        • M00916 Pyridoxal-P biosynthesis
        • M00115 NAD biosynthesis
        • M00912 NAD biosynthesis
        • M00119 Pantothenate biosynthesis
        • M00913 Pantothenate biosynthesis
        • M00120 Coenzyme A biosynthesis
        • M00914 Coenzyme A biosynthesis, archaea
        • M00572 Pimeloyl-ACP biosynthesis, BioC-BioH pathway
        • M00123 Biotin biosynthesis
        • M00950 Biotin biosynthesis, BioU pathway
        • M00573 Biotin biosynthesis, BioI pathway
        • M00577 Biotin biosynthesis, BioW pathway
        • M00881 Lipoic acid biosynthesis, plants and bacteria
        • M00882 Lipoic acid biosynthesis, eukaryotes
        • M00883 Lipoic acid biosynthesis, animals and bacteria
        • M00884 Lipoic acid biosynthesis
        • M00126 Tetrahydrofolate biosynthesis
        • M00840 Tetrahydrofolate biosynthesis, mediated by ribA and trpF
        • M00841 Tetrahydrofolate biosynthesis, mediated by PTPS
        • M00842 Tetrahydrobiopterin biosynthesis
        • M00843 L-threo-Tetrahydrobiopterin biosynthesis
        • M00880 Molybdenum cofactor biosynthesis
        • M00140 C1-unit interconversion, prokaryotes
        • M00141 C1-unit interconversion, eukaryotes
        • M00846 Siroheme biosynthesis
        • M00868 Heme biosynthesis, animals and fungi
        • M00121 Heme biosynthesis, plants and bacteria
        • M00926 Heme biosynthesis, bacteria
        • M00847 Heme biosynthesis, archaea
        • M00924 Cobalamin biosynthesis, anaerobic
        • M00925 Cobalamin biosynthesis, aerobic
        • M00122 Cobalamin biosynthesis
        • M00836 Coenzyme F430 biosynthesis
        • M00117 Ubiquinone biosynthesis, prokaryotes
        • M00128 Ubiquinone biosynthesis, eukaryotes
        • M00116 Menaquinone biosynthesis
        • M00930 Menaquinone biosynthesis, futalosine pathway
        • M00931 Menaquinone biosynthesis, modified futalosine pathway
        • M00932 Phylloquinone biosynthesis
        • M00112 Tocopherol/tocotorienol biosynthesis
        • M00933 Plastoquinone biosynthesis
Reaction module
  • Reaction modules
    • Carboxylic acid metabolism
      • 2-Oxocarboxylic acid chain extension
        • RM001 2-Oxocarboxylic acid chain extension by tricarboxylic acid pathway
      • Fatty acid synthesis and degradation
        • RM021 Fatty acid synthesis using malonyl-CoA
    • Nucleotide sugar metabolism
      • Nucleotide sugar biosynthesis
        • RM023 Nucleotide sugar biosynthesis, type 2
        • RM039 Nucleotide sugar biosynthesis, type 3
      • Sugar conversion
        • RM040 Sugar activation and nucleotide sugar interconversion
        • RM041 Inversion of the carbon chain