Catégories : Tous - photosynthesis - glycolysis - electron - fermentation

par Nicholas Chochan Il y a 7 mois

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Unit 4 - Metabolism and Energy concept map

This text outlines the processes involved in cellular respiration and photosynthesis, focusing on the breakdown and conversion of molecules to produce energy. In aerobic respiration, glucose undergoes glycolysis in the cytoplasm, yielding pyruvate, which is further oxidized to Acetyl-CoA in the mitochondrial matrix, releasing CO2 and generating NADH.

 Unit 4 - Metabolism and Energy concept map

Unit 4 - Metabolism and Energy concept map

Cell respiration

Anaerobic respiration
Fermentation

Ethanol Fermentation - Conversion of pyruvate to ethanol and CO2 - Common in yeast and some bacteria - Used in the production of alcoholic beverages

Lactate Fermentation - Conversion of pyruvate to lactate - Regeneration of NAD+ for glycolysis - Common in muscle cells during intense exercise

Aerobic respiration
Electron Transport Chain (ETC) - Series of protein complexes on the inner mitochondrial membrane - Electrons transferred, creating a proton gradient - Oxygen is the final electron acceptor - ATP produced through oxidative phosphorylation - Chemiosmosis and ATP synthase involved
Krebs Cycle (Citric Acid Cycle) - Further breakdown of Acetyl-CoA - Takes place in the mitochondrial matrix - Generates NADH, FADH2, and ATP
Pyruvate Oxidation - Conversion of pyruvate to Acetyl-CoA - Takes place in the mitochondrial matrix - Releases CO2 and generates NADH
Glycolysis - Breakdown of glucose into pyruvate - Occurs in the cytoplasm - Generates ATP and NADH

Photosynthesis

Light Independent/Dark Reactions (Calvin Cycle) - Occurs in Stroma of chloroplasts
Role of CO2 and O2 in Calvin Cycle - Importance of carbon dioxide fixation - Oxygen as a byproduct
Calvin Cycle Steps - Carbon fixation (RuBisCO enzyme) - Reduction of 3-phosphoglycerate to form G3P - Regeneration of RuBP - Overall production of glucose and other carbohydrates
Overview of the process - Utilizes ATP and NADPH produced in the light-dependent reactions - Carbon fixation - Reduction and regeneration phases
Light dependent - Occurs in thylakoid
Role of Photosystems in Electron Transport - Absorption of light energy and excitation of electrons - Movement of electrons through the chain - Final electron acceptor: NADP+
Photosystem I and Photosystem II - Electron transport chain between them - Formation of a proton gradient
Overview of the process - Light absorption by chlorophyll - Water splitting (photolysis) - Generation of ATP and NADPH

Biochemical pathways

Redox reactions
Redox Regulation - Maintaining cellular redox balance - Significance in metabolic regulation
Role in Energy Transfer - Electron carriers (NAD+/NADH, FAD/FADH2) - Electron transport chain in cellular respiration
Overview of Oxidation-Reduction Reactions - Role of electron transfer in energy transfer - Oxidizing agents and reducing agents
Catabolic pathways - Breaking complex molecules
Relationships with other pathways - Interplay with anabolic pathways for energy and precursors - Regulation through feedback mechanisms
Other Catabolic Processes - Fatty acid oxidation - Amino acid degradation
Krebs Cycle - Citric acid cycle reactions - Energy and product generation
Glycolysis - Overview and key steps - Energy and product generation
Anabolic pathways - Building complex molecules
Nucleic Acid Synthesis - DNA replication - RNA synthesis
Protein Synthesis - Transcription and translation processes - Role of ribosomes and tRNA
Relationships with other pathways - Integration with catabolic pathways for precursor molecules - Regulation through feedback mechanisms

Energy Transfer

Cellular Respiration and ATP Production - ATP generation in glycolysis, Krebs cycle, and electron transport chain - Role of ATP in oxidative phosphorylation.
ATP Coupling - Linking energy-releasing reactions with energy-consuming reactions - Maintaining energy balance within the cell
ATP in Metabolism - Involvement in anabolic reactions (energy input) - Involvement in catabolic reactions (energy release)
Energy Storage and Release - ATP as a short-term energy storage molecule - Hydrolysis of ATP to ADP and inorganic phosphate for energy release
Formation of ATP - Adenosine Triphosphate (ATP) structure - ATP synthesis during cellular respiration and photosynthesis

Concept of metabolism

Cellular Metabolism -Metabolic processes occurring within cells -Production of energy for cellular activities
Metabolic Diversity in Organisms -Variation in metabolic pathways among different species -Specialized adaptations for specific environments
Metabolic Homeostasis -Maintaining a balance in metabolic processes -Adaptations to varying energy needs
Regulation of Metabolism -Enzymes and their role -Feedback mechanisms
Definition of Metabolism -Sum of all chemical reactions in a living organism -Involves catabolic and anabolic pathways
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