4.2 Link reaction and Krebs cycle Flashcards
The link reaction
Where does it occur? (how does pyruvate from glycolysis get there?
Process:
- ? (2)
- ?
- ?(2)
Equation?
Occurs in mitochondrial matrix (pyruvate actively transported from cytoplasm)
1. Oxidation Hydrogen removed Accepted by NAD to form NADH 2. CO2 molecule formed 3. 2-carbon acetyl group formed Combines with coenzyme A = acetylcoenzymeA.
Pyruvate + NAD +coA —-> acetylcoA + NADH + carbon dioxide.
The Krebs cycle
Where does it occur? What phosphorylation? Process: 1. ? 2. ? (1) 3. ? (1)
Mitochondrial matrix
Oxidative phosphorylation
- 2-carbon acetylcoenzymeA combines with 4-carbon molecule to form 6-carbon molecule.
- 6-carbon molecule loses carbon dioxides and hydrogens (accepted by coenzymes)
Gives one 4-carbon molecule and one ATP - Regeneration
4-carbon molecule combines with new acetylcoenzymeA molecule
Energy yields (from link and Krebs):
(3)
*Yield from one glucose molecule = ? because?
1 ATP molecule
3 CO2 molecules (waste product)
Reduced coenzymes - NADH, FADH (have potential to produce ATP)
Double quantities above, x2 pyruvate
Coenzymes:
Define coenzyme Function? Describe where each is important: NAD? (2) FAD? NADP?
= molecules that some enzymes require in order to function.
Carry H atoms from one molecule to another
Throughout respiration
-Works with dehydrogenase enzymes
-Involved in oxidative phosphorylation
Krebs cycle
Photosynthesis
Significance of Krebs cycle:
Breaks down? into?
Produces…carried by…to…for oxidative phosphorylation…produced
Regenerates…that would?
Source for cells to make? e.g.?(3)
Breaks down macromolecules into smaller ones
Produces hydrogen atoms, carried by NAD to electron transport chain, for oxidative phosphorylation, ATP produced
Regenerates 4-carbon molecule that would otherwise accumulate.
Source for cells to make substances (e.g. amino acids, fatty acids, chlorophyll)
