1. Central Dogma
1.1. DNA Replication
1.1.1. Semiconservative
1.1.2. Proofreading
1.1.3. Highly stable
1.1.4. Process
1.1.4.1. Helicase
1.1.4.2. DNA poly III
1.1.4.3. Leading strand
1.1.4.4. Lagging strand
1.1.4.5. RNA Primer
1.1.4.6. DNA poly I
1.1.4.7. DNA ligase
1.2. Transcription
1.2.1. DNA to mRNA
1.2.2. Sigma factor
1.2.3. RNA polymerase
1.2.4. Stem-loop
1.2.5. Gene expression
1.2.5.1. Quorum sensing
1.3. Translation
1.3.1. Protein synthesis with ribosome and mRNA
1.3.2. Ribosome
1.3.2.1. Proteins and rRNA
1.3.3. tRNA
1.3.3.1. Transfer amino acids
1.3.4. Wobble position
2. Bacterial Growth
2.1. Binary fission
2.2. Life cycle
2.2.1. Lag
2.2.2. Exponential
2.2.3. Stationary
2.2.4. Death
2.3. Conditions
2.3.1. Acidity
2.3.2. Temperature
2.3.3. Nutrients
2.3.4. Moisture
2.3.5. Light
2.4. Lab Techniques
2.4.1. Chemostat
2.4.2. Sterilization
2.4.2.1. Autoclave
2.4.2.2. UV light
3. Ecology
3.1. Community
3.2. Population
3.3. Guild
3.4. Parasitism
3.5. Commensalism
3.6. Mutualism
4. Cell morphology
4.1. Cell size and volume
4.1.1. Mutation rate
4.1.2. Growth
4.1.3. Permeability
4.2. Cell wall
4.2.1. Gram-positive
4.2.2. Gram-negative
4.3. Mobility
4.3.1. Taxis
4.4. Spores
5. Metabolism
5.1. Catabolsm
5.1.1. Generates ATP
5.1.2. Glycolysis
5.1.2.1. 2 ATP/glucose
5.1.2.2. NAD+ to NADH
5.1.3. Fermentation
5.1.3.1. NADH to NAD+
5.1.4. Respiration
5.1.4.1. NADH to NAD+
5.1.4.2. Aerobic
5.1.4.3. Anaerobic
5.1.4.4. CAC
5.1.4.5. ETC
5.1.4.6. PMF
5.2. Anabolism
5.2.1. Molecule synthesis
5.2.2. Requires ATP
6. Bioinformatics
6.1. 16S gene sequencing
6.1.1. PCR
6.2. OTU clustersing
6.2.1. Closed
6.2.2. Open - 'de novo'
6.3. Information
6.3.1. Taxonomy
6.3.2. Alpha Diversity
6.3.3. Beta diversity