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MICROBIAL METABOLISM Schematic-description-of-microbial-metabolism…
MICROBIAL METABOLISM
Microbial Nutrients and Nutrient Uptake
Feeding the Microbe: Cell Nutrition
Carbon, Nitrogen, and Other Macronutrients
Chemical Make Up of A Cell
Micronutrients: Trace Metals and Growth Factors
Transporting Nutrients Into The Cell
Simple Transporters and Group Translocation
Active Transport and Transporters
Energetics,Enzymes, and Redox
Catalysis and Enzymes
Enzymes
Enzyme Catalysis
Electron Donors and Acceptors
Reduction Potentials and Redox Couples
Redox Reactions
The Redox Tower and Its Relationship to △G⁰'
Electron Carriers and NAD+/NADH Cycling
Principles of Bioenergetics
Free Energy of Formation and Calculating Free-Energy Changes (△G⁰')
Basic Bioenergetics
△G⁰' versus △G
Energy-Rich Compounds
Coenzyme A
Energy Storage
Adenosine Triphosphate
Energy Classes of Microorganism
Heterotrophs and Autotrophs
Chemoorganotrophs, Chemolithotrophs, and Phototrophs
Catabolism: Fermentation and Respiration
Gycolysis and Fermentation
Glycolysis Step
Redox happened (Energy + 2 phyruvat molecule)
Equivalent Redox & Product Fermentation
Redox preparation (No Realease Energy)
Uses Fermentation for Humans
Cake Base Material
Fermentet Drink
Lactat Acid
Fermentation and Respiration
Respiration: Catabolism aerobic/anaerobic
Aerobic: O2 & Other Compound as Electron Acceptor
Fermentation: Catabolism anaerobic
Anaerobic: Take and Give Electron to Equal Redox
Biosynthesis and Citric Acid Cycle
Function
Have important role in cells
Produce new cell material
Burn Pyruvat to CO2
oksa osalat & α-ketoglutarat
Amino Acid & Suksinil KoA Percusor
Build Chlorophyll
Convert to phosphoenol phyruvat
CAC
Glucosa Respiration
Biosynthesis Metabolit
Glikolitik
Use For Next Glyco Cycle
