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36 Cards in this Set

  • Front
  • Back
photosynthesis
building sugar process
cellular respiration
breaking down sugars into ATP
formula for PSN and CR
6H20 + 6CO2 makes 6)2 + C6H12O6
(this can be reversed for either one)
ATP
energy storage
Redox Reaction
reduction of oxygen
Dehydrogenase
take away hydrogen enzyme
glycolysis
(glucose) sugar cutting
Citrid Acid Cycle
cutting carbons (Kreb's cycle)
Oxididative Phosphorylation
take away hydrogen to build phosphorus onto ADP
Pyruvate
glucose split into a 3 carbon molecule
photosynthesis
building sugar process
cellular respiration
breaking down sugars into ATP
formula for PSN and CR
6H20 + 6CO2 makes 6)2 + C6H12O6
(this can be reversed for either one)
ATP
energy storage
Redox Reaction
reduction of oxygen
Dehydrogenase
take away hydrogen enzyme
glycolysis
(glucose) sugar cutting
Citrid Acid Cycle
cutting carbons (Kreb's cycle)
Oxididative Phosphorylation
take away hydrogen to build phosphorus onto ADP
Pyruvate
glucose split into a 3 carbon molecule
NADH
hydrogen (electron) - conveying/used to shuttle electrons in redox reactions
PADH2
similar to ATP but carries less energy and is used to shuttle electrons
ADP
ATP before an extra phosphate is added
acetyl COA
formed from fragment of pyruvate attached to coenzyme (entry compound for citric acid cycle)
yield of ATP
34 to 36 ATPs you get this many out of the whole process
fermentation
making
mitochondria
ATP energy (keeper?)
chloroplast
makes sugar and ATP
alchoholic fermentation
making (alcohol or sugar)
lactic acid fermentation
when you body goes w/o oxygen
anaerobic
not breathing or not intaking oxygen
biosynthesis
body creates its own chemicals
ETC
electron transport chain
Calvin Cycle
building cycle (in plants)
light reaction
heating electrons in photocycle 2 and 1
FADH2
FADH2 is an energy-carrying molecule, because, if it is oxidized, it will regain aromaticity and release all the energy represented by this stabilization.