- 1 Small molecule metabolism
- 1.A Degradation [35]
- 1.B Energy metabolism
- 1.B.1 Glycolysis [15]
- 1.B.10 Glyoxylate bypass [4]
- 1.B.2 Pyruvate dehydrogenase [5]
- 1.B.3 Tricarboxylic acid cycle [16]
- 1.B.5 Pentose phosphate pathway [2]
- 1.B.5.a Oxidative branch
- 1.B.5.b Non-oxidative branch [5]
- 1.B.6 Entner-Doudoroff pathway [3]
- 1.B.7 Respiration
- 1.B.8 Fermentation [16]
- 1.B.9 ATP-proton motive force [2]
- 1.C Central intermediary metabolism [77]
- 1.C.1 General
- 1.C.2 Gluconeogenesis [4]
- 1.C.3 Sugar nucleotides [12]
- 1.C.4 Amino sugars [4]
- 1.C.5 Sulphur metabolism [19]
- 1.D Amino acid biosynthesis [1]
- 1.D.1 Glutamate family [19]
- 1.D.2 Aspartate family [26]
- 1.D.3 Serine family [9]
- 1.D.4 Aromatic amino acid family [24]
- 1.D.5 Histidine [9]
- 1.D.6 Pyruvate family [21]
- 1.D.7 Branched chain family
- 1.E Polyamine synthesis [8]
- 1.F Purines, pyrimidines, nucleosides and nucleotides
- 1.F.1 Purine ribonucleotide biosynthesis [21]
- 1.F.2 Pyrimidine ribonucleotide biosynthesis [10]
- 1.F.3 2'-deoxyribonucleotide biosynthesis [8]
- 1.F.4 Salvage of nucleosides and nucleotides [23]
- 1.F.5 Miscellaneous nucleoside/nucleotide reactions [11]
- 1.G Biosynthesis of cofactors, prosthetic groups and carriers
- 1.G.1 Biotin [8]
- 1.G.10 Thioredoxin [11]
- 1.G.11 Menaquinone and ubiquinine [16]
- 1.G.12 Heme and porphyrin [15]
- 1.G.13 Cobalamin [21]
- 1.G.14 Iron uptake and storage [6]
- 1.G.2 Folic acid [9]
- 1.G.3 Lipoate [3]
- 1.G.4 Molybdopterin [11]
- 1.G.5 Pantothenate [4]
- 1.G.6 Pyridoxine [4]
- 1.G.7 Pyridine nucleotide [5]
- 1.G.8 Thiamine [12]
- 1.G.9 Riboflavin [5]
- 1.H Fatty acid biosynthesis [22]
- 2 Broad regulatory functions [250]
- 2.1 Signal transduction
- 3 Macromolecule metabolism
- 3.A Synthesis and modification of macromolecules [1]
- 3.A.1 rRNA and stable RNAs
- 3.A.10 Polysaccharides (cytoplasmic) [8]
- 3.A.11 Phospholipids [11]
- 3.A.2 Ribosomal protein synthesis and modification [60]
- 3.A.3 Ribosome maturation and modification [9]
- 3.A.5 Aminoacyl tRNA synthetases and their modification [47]
- 3.A.6 Nucleoproteins
- 3.A.7 DNA replication, restriction/modification, recombination and repair [94]
- 3.A.8 Protein translation and modification [51]
- 3.A.9 RNA synthesis, RNA modification and DNA transcription [25]
- 3.B Degradation of macromolecules
- 3.B.1 RNA [12]
- 3.B.2 DNA [22]
- 3.B.3 Proteins, peptides and glycopeptides [32]
- 3.B.4 Polysaccharides [8]
- 3.C Cell envelope [30]
- 4 Cell processes
- 4.A Transport/binding proteins [201]
- 4.A.1 Amino acids and amines [56]
- 4.A.2 Cations [29]
- 4.A.3 Carbohydrates, organic acids and alcohols [80]
- 4.A.4 Nucleosides, purines and pyrimidines
- 4.A.5 Anions [16]
- 4.A.6 Other [62]
- 4.B Chaperones, chaperonins, heat shock [15]
- 4.C Cell division [28]
- 4.D Chemotaxis and mobility [15]
- 4.E Protein and peptide secretion
- 4.G Detoxification [22]
- 4.H Cell killing [5]
- 4.I Pathogenicity [328]
- 5 Other
- 5.A IS elements, Phage-related functions and prophage [50]
- 5.B Colicin-related functions [8]
- 5.C Plasmid related functions
- 5.D Drug/analogue sensitivity [33]
- 5.F Adaptions and atypical conditions [24]
- 5.G Antibiotic resistance
- 5.H Conserved hypothetical protein
- 5.H.a Hypothetical protein (conserved in Escherichia coli) [214]
- 5.H.b Hypothetical protein (conserved in organism(s) other than Escherichia coli) [396]
- 5.I Unknown [471]
- 6.A Misc
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Last Modified Wed Oct 22 14:43:43 2003
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