How Does the Cholera Bacterium Cause Diarrhea at the Cellular Level?

What are the three phases of cellular respiration? Where in the cell does glycolysis take place? Where in the cell does the Citric Acid Cycle take place? Where in the cell does the electron transport chain take place in cellular respiration? How many ATP are made without oxygen per cycle in cellular respiration? How many ATP are made with oxygen present in cellular respiration? In which phase of cellular respiration is carbon dioxide made? In which phase of cellular respiration is water made? Cellular respiration in the absence of oxygen is called what respiration? Most of the ATP is produced in what stage of cellular respiration? What is the final electron "acceptor molecule" at the end of the electron transport chain (when water is formed)?

Three Phases of Cellular Respiration

The three phases of cellular respiration are: glycolysis, the Citric Acid Cycle, and the electron transport chain.

Glycolysis Location

Glycolysis takes place in the cytoplasm of the cell.

Citric Acid Cycle Location

The Citric Acid Cycle takes place in the mitochondria of the cell.

Electron Transport Chain Location

The electron transport chain takes place in the inner mitochondrial membrane.

ATP Production

Without oxygen: 2 ATP are made per cycle.
With oxygen present: An additional 34-36 ATP are made per cycle.

CO2 and Water Production

Carbon dioxide: is made in the Citric Acid Cycle.
Water: is made in the electron transport chain.

Cellular Respiration without Oxygen

Cellular respiration in the absence of oxygen is called anaerobic respiration.

ATP Production Stage

Most of the ATP is produced in the electron transport chain stage of cellular respiration.

Final Electron Acceptor Molecule

The final electron "acceptor molecule" at the end of the electron transport chain is oxygen, which forms water.

Cholera Bacterium and Diarrhea at the Cellular Level

The cholera bacterium causes diarrhea at the cellular level by producing a toxin called cholera toxin. This toxin affects the cells lining the intestines, specifically the epithelial cells. The toxin binds to receptors on the surface of the epithelial cells, triggering the activation of an enzyme called adenylate cyclase. Adenylate cyclase converts ATP into cyclic AMP (cAMP), which disrupts the normal ion transport process in the intestinal cells.

Increased cAMP levels activate the CFTR protein, leading to the efflux of chloride ions into the intestinal lumen. This creates an osmotic imbalance, causing the secretion of water into the intestine and resulting in watery diarrhea.

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