Difference between revisions of "Sandbox"
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− | + | '''All genes are grouped in one or more categories. These categories help to identify genes/proteins with common function, regulation or properties. | |
− | |||
− | |||
− | + | To see additional subcategories, please go to the pages for the six top-level categories. | |
− | |||
− | == | + | ''' |
− | + | ==1. [[Cellular processes]]== | |
+ | * 1.1. Cell envelope and cell division | ||
+ | ** 1.1.1. [[Cell wall synthesis]] | ||
+ | ** 1.1.2. [[Cell shape]] | ||
+ | ** 1.1.3. [[Cell wall degradation/ turnover]] | ||
+ | ** 1.1.4. [[Capsule biosynthesis and degradation]] | ||
+ | ** 1.1.5. [[Cell wall/ other]] | ||
+ | ** 1.1.6. [[Membrane dynamics]] | ||
+ | ** 1.1.7. [[Cell division]] | ||
+ | * 1.2. Transporters | ||
+ | ** 1.2.1. [[ABC transporters]] | ||
+ | ** 1.2.2. [[Phosphotransferase systems]] | ||
+ | ** 1.2.3. [[Transporters/ other]] | ||
+ | * 1.3. Homeostasis | ||
+ | ** 1.3.1. [[Metal ion homeostasis (K, Na, Ca, Mg)]] | ||
+ | ** 1.3.2. [[Trace metal homeostasis (Cu, Zn, Ni, Mn, Mo)]] | ||
+ | ** 1.3.3. [[Acquisition of iron]] | ||
+ | ** 1.3.4. [[pH homeostasis]] | ||
− | == | + | ==2. [[Metabolism]]== |
− | + | * 2.1. Electron transport and ATP synthesis | |
− | + | ** 2.1.1. [[Regulators of electron transport]] | |
+ | ** 2.1.2. [[Respiration]] | ||
+ | ** 2.1.3. [[Electron transport/ other]] | ||
+ | ** 2.1.4. [[ATP synthesis]] | ||
+ | * 2.2. Carbon metabolism | ||
+ | ** 2.2.1. [[Carbon core metabolism]] | ||
+ | ** 2.2.2. [[Utilization of specific carbon sources]] | ||
+ | * 2.3. Amino acid/ nitrogen metabolism | ||
+ | ** 2.3.1. [[Biosynthesis/ acquisition of amino acids]] | ||
+ | ** 2.3.2. [[Utilization of amino acids]] | ||
+ | ** 2.3.3. [[Utilization of nitrogen sources other than amino acids]] | ||
+ | ** 2.3.4. [[Putative amino acid transporter]] | ||
+ | * 2.4. Lipid metabolism | ||
+ | ** 2.4.1. [[Utilization of lipids]] | ||
+ | ** 2.4.2. [[Biosynthesis of lipids]] | ||
+ | ** 2.4.3. [[Lipid metabolism/ other]] | ||
+ | * 2.5. Nucleotide metabolism | ||
+ | ** 2.5.1. [[Utilization of nucleotides]] | ||
+ | ** 2.5.2. [[Biosynthesis/ acquisition of nucleotides]] | ||
+ | ** 2.5.3. [[Metabolism of signalling nucleotides]] | ||
+ | ** 2.5.4. [[Nucleotide metabolism/ other]] | ||
+ | * 2.6. Additional metabolic pathways | ||
+ | ** 2.6.1. [[Biosynthesis of cell wall components]] | ||
+ | ** 2.6.2. [[Biosynthesis of cofactors]] | ||
+ | ** 2.6.3. [[Phosphate metabolism]] | ||
+ | ** 2.6.4. [[Sulfur metabolism]] | ||
+ | ** 2.6.5. [[Iron metabolism]] | ||
+ | ** 2.6.6. [[Miscellaneous metabolic pathways]] | ||
− | == | + | ==3. [[Information processing]]== |
− | + | * 3.1. Genetics | |
+ | ** 3.1.1. [[DNA replication]] | ||
+ | ** 3.1.2. [[DNA condensation/ segregation]] | ||
+ | ** 3.1.3. [[DNA restriction/ modification]] | ||
+ | ** 3.1.4. [[DNA repair/ recombination]] | ||
+ | ** 3.1.5. [[Genetic competence]] | ||
+ | ** 3.1.6. [[Genetics/ other]] | ||
+ | * 3.2. RNA synthesis and degradation | ||
+ | ** 3.2.1. [[Transcription]] | ||
+ | ** 3.2.2. [[RNA chaperones]] | ||
+ | ** 3.2.3. [[DEAD-box RNA helicases]] | ||
+ | ** 3.2.4. [[RNases]] | ||
+ | * 3.3. Protein synthesis, modification and degradation | ||
+ | ** 3.3.1. [[Translation]] | ||
+ | ** 3.3.2. [[Chaperones/ protein folding]] | ||
+ | ** 3.3.3. [[Protein modification]] | ||
+ | ** 3.3.4. [[Protein secretion]] | ||
+ | ** 3.3.5. [[Proteolysis]] | ||
+ | * 3.4. Regulation of gene expression | ||
+ | ** 3.4.1. [[Sigma factors and their control]] | ||
+ | ** 3.4.2. [[Two-component regulatory systems and their control]] | ||
+ | ** 3.4.3. [[DNA binding transcription factors and their control]] | ||
+ | ** 3.4.4. [[Trigger enzymes]] | ||
+ | ** 3.4.5. [[PRD-type regulators]] | ||
+ | ** 3.4.6. [[RNA binding regulators]] | ||
− | == | + | [[Transcription factors and their control]] |
+ | |||
+ | ==4. [[Lifestyles]]== | ||
+ | * 4.1. Exponential and early post-exponential lifestyles | ||
+ | ** 4.1.1. [[Motility and chemotaxis]] | ||
+ | ** 4.1.2. [[Biofilm formation]] | ||
+ | ** 4.1.3. [[Genetic competence]] | ||
+ | '''** 4.1.4. [[Transition state regulators]] | ||
+ | ** 4.1.5. [[Quorum sensing]]''' | ||
+ | * 4.2. Sporulation and Germination | ||
+ | ** 4.2.1. [[Sporulation proteins]] | ||
+ | ** 4.2.2. [[Phosphorelay]] | ||
+ | ** 4.2.3. [[Sporulation/ other]] | ||
+ | ** 4.2.4. [[Germination]] | ||
+ | * 4.3. Coping with stress | ||
+ | ** 4.3.1. [[General stress proteins (controlled by SigB)]] | ||
+ | ** 4.3.2. [[Cell envelope stress proteins (controlled by SigM, W, X, Y)]] | ||
+ | ** 4.3.3. [[Acid stress proteins (controlled by YvrI-YvrHa)]] | ||
+ | ** 4.3.4. [[Heat shock proteins]] | ||
+ | ** 4.3.5. [[Cold stress proteins]] | ||
+ | ** 4.3.6. [[Coping with hyper-osmotic stress]] | ||
+ | ** 4.3.7. [[Coping with hypo-osmotic stress]] | ||
+ | ** 4.3.8. [[Resistance against oxidative and electrophile stress]] | ||
+ | ** 4.3.9. [[Resistance against other toxic compounds (nitric oxide, phenolic acids, flavonoids, oxalate)]] | ||
+ | ** 4.3.10.[[ Resistance against toxic metals]] | ||
+ | ** 4.3.11.[[ Resistance against toxins/ antibiotics]] | ||
+ | ** 4.3.12.[[ Biosynthesis of antibacterial compounds]] | ||
+ | ** 4.3.13.[[ Toxins, antitoxins and immunity against toxins]] | ||
+ | * 4.4. [[Lifestyles/ miscellaneous]] | ||
+ | |||
+ | ==5. [[Prophages and mobile genetic elements]]== | ||
+ | * 5.1. Prophages | ||
+ | ** 5.1.1. [[PBSX prophage]] | ||
+ | ** 5.1.2. [[SPß prophage]] | ||
+ | ** 5.1.3. [[Skin element]] | ||
+ | ** 5.1.4. [[Phage-related functions]] | ||
+ | * 5.2. [[Mobile genetic elements]] | ||
+ | |||
+ | ==6. [[Groups of genes]]== | ||
+ | * 6.1. [[Essential genes]] | ||
+ | * 6.2. [[Membrane proteins]] | ||
+ | * 6.3. [[GTP-binding proteins]] | ||
+ | * 6.4. [[Phosphoproteins]] | ||
+ | * 6.5. [[Universally conserved proteins]] | ||
+ | * 6.6. [[Poorly characterized/ putative enzymes]] | ||
+ | * 6.7. [[Proteins of unknown function]] | ||
+ | * 6.8. [[Short peptides]] | ||
+ | * 6.9. [[ncRNA]] | ||
+ | * 6.10. [[Pseudogenes]] | ||
+ | '''* 6.11. [[Regulators of core metabolism]]''' |
Revision as of 16:48, 29 March 2011
All genes are grouped in one or more categories. These categories help to identify genes/proteins with common function, regulation or properties.
To see additional subcategories, please go to the pages for the six top-level categories.
Contents
1. Cellular processes
- 1.1. Cell envelope and cell division
- 1.1.1. Cell wall synthesis
- 1.1.2. Cell shape
- 1.1.3. Cell wall degradation/ turnover
- 1.1.4. Capsule biosynthesis and degradation
- 1.1.5. Cell wall/ other
- 1.1.6. Membrane dynamics
- 1.1.7. Cell division
- 1.2. Transporters
- 1.2.1. ABC transporters
- 1.2.2. Phosphotransferase systems
- 1.2.3. Transporters/ other
- 1.3. Homeostasis
- 1.3.1. Metal ion homeostasis (K, Na, Ca, Mg)
- 1.3.2. Trace metal homeostasis (Cu, Zn, Ni, Mn, Mo)
- 1.3.3. Acquisition of iron
- 1.3.4. pH homeostasis
2. Metabolism
- 2.1. Electron transport and ATP synthesis
- 2.1.1. Regulators of electron transport
- 2.1.2. Respiration
- 2.1.3. Electron transport/ other
- 2.1.4. ATP synthesis
- 2.2. Carbon metabolism
- 2.2.1. Carbon core metabolism
- 2.2.2. Utilization of specific carbon sources
- 2.3. Amino acid/ nitrogen metabolism
- 2.4. Lipid metabolism
- 2.4.1. Utilization of lipids
- 2.4.2. Biosynthesis of lipids
- 2.4.3. Lipid metabolism/ other
- 2.5. Nucleotide metabolism
- 2.6. Additional metabolic pathways
- 2.6.1. Biosynthesis of cell wall components
- 2.6.2. Biosynthesis of cofactors
- 2.6.3. Phosphate metabolism
- 2.6.4. Sulfur metabolism
- 2.6.5. Iron metabolism
- 2.6.6. Miscellaneous metabolic pathways
3. Information processing
- 3.1. Genetics
- 3.1.1. DNA replication
- 3.1.2. DNA condensation/ segregation
- 3.1.3. DNA restriction/ modification
- 3.1.4. DNA repair/ recombination
- 3.1.5. Genetic competence
- 3.1.6. Genetics/ other
- 3.2. RNA synthesis and degradation
- 3.2.1. Transcription
- 3.2.2. RNA chaperones
- 3.2.3. DEAD-box RNA helicases
- 3.2.4. RNases
- 3.3. Protein synthesis, modification and degradation
- 3.3.1. Translation
- 3.3.2. Chaperones/ protein folding
- 3.3.3. Protein modification
- 3.3.4. Protein secretion
- 3.3.5. Proteolysis
- 3.4. Regulation of gene expression
- 3.4.1. Sigma factors and their control
- 3.4.2. Two-component regulatory systems and their control
- 3.4.3. DNA binding transcription factors and their control
- 3.4.4. Trigger enzymes
- 3.4.5. PRD-type regulators
- 3.4.6. RNA binding regulators
Transcription factors and their control
4. Lifestyles
- 4.1. Exponential and early post-exponential lifestyles
- 4.1.1. Motility and chemotaxis
- 4.1.2. Biofilm formation
- 4.1.3. Genetic competence
** 4.1.4. Transition state regulators
- 4.1.5. Quorum sensing
- 4.2. Sporulation and Germination
- 4.2.1. Sporulation proteins
- 4.2.2. Phosphorelay
- 4.2.3. Sporulation/ other
- 4.2.4. Germination
- 4.3. Coping with stress
- 4.3.1. General stress proteins (controlled by SigB)
- 4.3.2. Cell envelope stress proteins (controlled by SigM, W, X, Y)
- 4.3.3. Acid stress proteins (controlled by YvrI-YvrHa)
- 4.3.4. Heat shock proteins
- 4.3.5. Cold stress proteins
- 4.3.6. Coping with hyper-osmotic stress
- 4.3.7. Coping with hypo-osmotic stress
- 4.3.8. Resistance against oxidative and electrophile stress
- 4.3.9. Resistance against other toxic compounds (nitric oxide, phenolic acids, flavonoids, oxalate)
- 4.3.10.Resistance against toxic metals
- 4.3.11.Resistance against toxins/ antibiotics
- 4.3.12.Biosynthesis of antibacterial compounds
- 4.3.13.Toxins, antitoxins and immunity against toxins
- 4.4. Lifestyles/ miscellaneous
5. Prophages and mobile genetic elements
- 5.1. Prophages
- 5.1.1. PBSX prophage
- 5.1.2. SPß prophage
- 5.1.3. Skin element
- 5.1.4. Phage-related functions
- 5.2. Mobile genetic elements
6. Groups of genes
- 6.1. Essential genes
- 6.2. Membrane proteins
- 6.3. GTP-binding proteins
- 6.4. Phosphoproteins
- 6.5. Universally conserved proteins
- 6.6. Poorly characterized/ putative enzymes
- 6.7. Proteins of unknown function
- 6.8. Short peptides
- 6.9. ncRNA
- 6.10. Pseudogenes
* 6.11. Regulators of core metabolism