VIII. tracking carbons through glycolysis and the citric acid cycle due April 29, 2010

• trace the path of each carbon in one glucose molecule until its release as CO₂
• be sure to indicate (label) and track each carbon individually
• how many "rounds" of the TCA cycle are required until all the carbons of a single glucose molecule are released as CO₂ ? Be sure you can back up your answer

IX.  regulation of the glycolysis pathway due April 29, 2010

• include each step of glycolysis
• for each regulated step, show the reaction that is requlated
• include any molecule involved in the regulation
• show which reaction (or component of a reaction) is up- or down-regulated
• make clear which moleucles up- or down-regulate which step (and in which direction)

X.  regulation of the Krebs cycle due April 29, 2010

• include each step of the TCA cycle
• for each regulated step, show the reaction that is requlated
• include any molecule involved in the regulation
• show which reaction (or component of a reaction) is up- or down-regulated
• make clear which molecules up- or down-regulate which step (and in which direction)
  

XI.  other molecules that feed into glycolysis and/or the TCA cycle due May 1, 2010

• include each step in both pathways
• include any molecule entering or leaving the pathway as a reactant or product
• indicate where each amino acid, nitrogenous base, and lipid derivative can enter the pathway
• include each step in both pathways
• include any molecule entering or leaving the pathway as a reactant or product
• indicate where each amino acid, nitrogenous base, and lipid derivative is derived from the pathway (the exit point)

XII.  other molecules that derive from glycolysis and/or the TCA cycle due May 1, 2010

• include each step in both pathways
• include any molecule entering or leaving the pathway as a reactant or product
• indicate where each amino acid, nitrogenous base, and lipid derivative can enter the pathway
• include each step in both pathways
• include any molecule entering or leaving the pathway as a reactant or product
• indicate where each amino acid, nitrogenous base, and lipid derivative is derived from the pathway (the exit point)

XIII.  catabolism of lipids: fatty acids and glycerol due  May 6, 2010

XIV. anabolism of lipids: fatty acids and glycerol due May 6, 2010

• include each step
• write the molecular form for each component
• include any molecule entering or leaving the pathway as a reactant or product
• include one or two-headed arrows designating reversible or "irreversible" reactions, as appropriate
• highlight (in some fashion) each step in which "high energy" molecules - and which ones (include high phosphoryl transfer potential and redox types) - are consumed or generated