Buchnerabbp search page protein id: Example: bbp001 protein description word: Example: ATP gene id: Example: g_bbp001 gene name: Examples: gidA, tRNA Functional Class: 1. Small-Molecule Metabolism 1.1 Degradation 1.1.1 Carbon compounds 1.1.2 Amino acids and amines 1.1.3 Fatty acids 1.1.4 Phosphorus compounds 1.2 Energy metabolism 1.2.1 Glycolysis 1.2.2 Pyruvate dehydrogenase 1.2.3 Tricarboxylic acid cycle 1.2.4 Pentose phosphate pathway 1.2.5 Entner-Doudoroff pathway 1.2.6 Respiration 1.2.7 Fermentation 1.2.8 ATP-proton motive force 1.3 Central intermediary metabolism 1.3.1 General 1.3.2 Gluconeogenesis 1.3.3 Sugar-nucleotides 1.3.4 Amino sugars 1.3.5 Sulfur metabolism 1.4 Amino acid biosynthesis 1.4.1 Glutamte family 1.4.2 Aspartate family 1.4.3 Serine family 1.4.4 Aromatic amino acid family 1.4.5 Histidine 1.4.6 Pyruvate family 1.4.7 Branched-chain family 1.5 Polyamine biosynthesis 1.5.0 Polyamine biosynthesis 1.6 Purines, pyrimidines, nucleosides, and nucleotides 1.6.1 Purine ribonucleotide biosynthesis 1.6.2 Pyrimidine ribonucleotide biosynthesis 1.6.3 2'-Deoxyribonucleotide metabolism 1.6.4 Salvage of nucleosides and nucleotides 1.6.5 Miscellaneous nucleoside/nucleotide reactions 1.7 Biosynthesis of cofactors, prosthetic groups, and carriers 1.7.1 Biotin 1.7.2 Folic acid 1.7.3 Lipoate 1.7.4 Molybdopterin 1.7.5 Pantothenate 1.7.6 Pyridoxine 1.7.7 Pyridine nucleotide 1.7.8 Thiamine 1.7.9 Riboflavin 1.7.11 Menaquinone and ubiquinone 1.7.12 Heme and porphirin 1.7.13 Cobalamin (incomplete in K-12) 1.7.14 Enterochelin 1.8 Fatty acid biosynthesis 1.8.0 Fatty acid biosynthesis 2. Broad Regulatory Functions 2.0 Broad regulatory functions 2.0.0 Broad regulatory functions 3. Macromolecule Metabolism 3.1 Synthesis and modification of macromolecules 3.1.1 rRNA and "stable" RNAs 3.1.2 Ribosomal protein synthesis and modification 3.1.3 Ribosome maturation and modification 3.1.4 tRNAs 3.1.5 Aminoacyl tRNA synthetases and their modification 3.1.6 Nucleoproteins 3.1.7 DNA replication, restriction/modification, and recombination 3.1.8 Protein translation and modification 3.1.9 RNA synthesis, RNA modification, and DNA transcription 3.1.10 Polysaccharides (cytoplasmic) 3.1.11 Phospholipids 3.2 Degradation of macromolecules 3.2.1 RNA 3.2.2 DNA 3.2.3 Proteins, peptides, and glycopeptides 3.2.4 Polysaccharides 3.3 Cell envelope 3.3.1 Membranes, lipoproteins, and porins 3.3.2 Surface polysaccharides, lipopolysaccharides, and antigens 3.3.3 Surface structures 3.3.4 Murein sacculus and peptidoglycan 4. Cell Processes 4.1 Transport/binding proteins 4.1.1 Amino acids and amines 4.1.2 Cations 4.1.3 Carbohydrates, organic acids, and alcohols 4.1.4 Nucleosides, purines, and pyrimidines 4.1.5 Anions 4.1.6 Other 4.2 Chaperones 4.2.0 Chaperones 4.3 Cell division 4.3.0 Cell division 4.4 Chemotaxis and mobility 4.4.0 Chemotaxis and mobility 4.5 Protein and peptide secretion 4.5.0 Protein and peptide secretion 4.6 Osmotic adaptation 4.6.0 Osmotic adaptation 4.7 Detoxification 4.7.0 Detoxification 4.8 Cell killing 4.8.0 Cell killing 5. Other 5.1 Phage-related functions and prophage 5.1.0 Phage-related functions and prophage 5.2 Colicin-related functions 5.2.0 Colicin-related functions 5.3 Plasmid-related functions 5.3.0 Plasmid-related functions 5.4 Drug/analog sensitivity 5.4.0 Drug/analog sensitivity 5.5 Radiation sensitivity 5.5.0 Radiation sensitivity 5.6 Adaptations and atypical conditions 5.6.0 Adaptations and atypical conditions 5.7 Other unclassified 5.7.0 Other unclassified