Deck 16: Photosynthesis

A) chloroplast outer membrane
B) chloroplast inner membrane
C) stroma
D) thylakoid lumen
E) thylakoid membrane

A) 400-500; 600-700; 500-600
B) 300-400; 600-700; 400-600
C) 400-600; 700-800; 600-700
D) 300-400; 700-800; 400-700
E) none of the above

A) thylakoid
B) granum
C) light-harvesting complex
D) reaction center
E) lamella

A) a reaction center can only be excited by direct absorption of a photon of light
B) excitation can occur by any of the antenna pigments in direct contact with the reaction center
C) excitation occurs when an antenna fluoresces so that the photon of light can be captured by a reaction center
D) any antenna of the light harvesting complex can transfer an electron to the reaction center by exciton transfer
E) transfer of heat energy from antenna to reaction center allows for excitation

A) two chlorophylls
B) two carotenoids
C) one chlorophyll and one phycocyanin
D) one chlorophyll and one carotenoid
E) one carotenoid and one phycocyanin

A) -1.15 V
B) -0.815 V
C) +0.77 V
D) +0.83 V
E) +1.15 V

A) it cannot transfer protons to the stroma
B) it contains proteins that prevent oxygen from binding to it
C) its reduction potential is exactly equal to that of oxygen
D) it is a very good reducing agent
E) it is not a strong enough oxidizing agent

A) H₂O $\rarr$ P700 $\rarr$ plastoquinone $\rarr$ cytochrome b₆f $\rarr$ plastocyanin $\rarr$ P680 $\rarr$ ferredoxin $\rarr$ NADP⁺
B) H₂O $\rarr$ P680 $\rarr$ plastocyanin $\rarr$ cytochrome b₆f $\rarr$ plastoquinone $\rarr$ P700 $\rarr$ ferredoxin $\rarr$ NADP⁺
C) H₂O $\rarr$ P680 $\rarr$ plastoquinone $\rarr$ ferredoxin $\rarr$ plastocyanin $\rarr$ P700 $\rarr$ cytochrome b₆f $\rarr$ NADP⁺
D) H₂O $\rarr$ P680 $\rarr$ plastoquinone $\rarr$ cytochrome b₆f $\rarr$ plastocyanin $\rarr$ P700 $\rarr$ ferredoxin $\rarr$ NADP⁺
E) H₂O $\rarr$ P680 $\rarr$ ferredoxin $\rarr$ plastoquinone $\rarr$ P700 $\rarr$ cytochrome b₆f $\rarr$ plastocyanin $\rarr$ NADP⁺

A) photosystem I absorbs light but not photosystem II
B) protons are pumped into the lumen by cytochrome b₆f
C) electrons are transferred from photosystem I $\rarr$ ferredoxin $\rarr$ cytochrome b₆f $\rarr$ plastocyanin, then back to photosystem I
D) there is no production of NADPH or oxygen
E) all of the above

A) 4; 8; 2
B) 4; 12; 4
C) 8; 8; 4
D) 8; 12; 3
E) 8; 16; 4

A) thylakoid lumen
B) thylakoid membrane
C) stroma
D) space between inner and outer chloroplast membrane
E) cytosol

A) consumes ATP
B) consumes NADPH
C) produces CO₂
D) consumes oxygen
E) all of the above

A) rubisco; glyceraldehyde-3-phosphate dehydrogenase
B) phosphoglycerate kinase; glyceraldehyde-3-phosphate dehydrogenase
C) phosphoribulokinase; 3-phosphoglycerate dehydrogenase
D) phosphofructokinase; pyruvate dehydrogenase
E) phosphoglycerate kinase; 3-phosphoglycerate dehydrogenase

A) no changes need to be made since there is more ATP available from the light reactions than actually needed for carbon fixation
B) no cyclic photophosphorylation can occur
C) more cyclic photophosphorylation must occur
D) oxygen production must be increased at photosystem II
E) oxygen production must be decreased at photosystem II

A) no changes need to be made since there is more ATP available from the light reactions than actually needed for carbon fixation
B) no cyclic photophosphorylation can occur
C) more cyclic photophosphorylation must occur
D) more NADPH must be made
E) none of the above