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The Solar-Powered Cell
Pigment Power
Light-Dependent Reactions
The Calvin Cycle
Integration & Disruptions
100

This is the ultimate source of energy for nearly all living cells. 

A) Glucose 

B) The Sun

C) ATP 

D) CO2

B) The Sun

100

This is the primary pigment in plants that can act directly to convert light energy into chemical energy. 

A) Carotenoids 

B) Chlorophyll b 

C) Chlorophyll a 

D) Phycobiliproteins

C) Chlorophyll a 

100

This process in Photosystem II replaces lost electrons by splitting water and releasing oxygen as a byproduct. 

A) Chemiosmosis 

B) Carbon fixation 

C) Photolysis (Oxidation of water) 

D) Beta-oxidation

C) Photolysis (Oxidation of water) 

100

This enzyme, the most abundant on Earth, catalyzes the attachment of CO2 to a 5-carbon sugar. 

A) Hexokinase 

B) ATP Synthase 

C) Rubisco 

D) Pyruvate Dehydrogenase

C) Rubisco 

100

The overall chemical equation for photosynthesis is the exact reverse of the equation for this process. 

A) Fermentation 

B) Cellular Respiration 

C) Dehydration synthesis 

D) Active transport

B) Cellular Respiration 

200

Photosynthesis is categorized as this type of reaction because it requires an input of energy from sunlight to proceed. 

A) Exergonic 

B) Endergonic 

C) Catabolic 

D) Spontaneous

B) Endergonic

200

Most plants appear green to the human eye for this specific reason. 

A) Chlorophyll absorbs green light efficiently 

B) Chlorophyll reflects (does not absorb) green light 

C) Green light is converted directly into glucose 

D) Chlorophyll is destroyed by green light

B) Chlorophyll reflects (does not absorb) green light 

200

These two molecules are the high-energy products of the light reactions used to power the Calvin Cycle. 

A) Glucose and Oxygen 

B) ATP and NADPH 

C) CO2 and Water 

D) NADP+ and ADP

B) ATP and NADPH 

200

This is the 3-carbon sugar that is the direct output of the Calvin Cycle used to build larger carbohydrates. 

A) Glucose 

B) RuBP 

C) G3P (Glyceraldehyde 3-phosphate) 

D) Oxaloacetate

C) G3P (Glyceraldehyde 3-phosphate) 

200

If the thylakoid membrane becomes leaky and permeable to protons, this is the most direct consequence. 

A) Oxygen production will increase 

B) The proton gradient will collapse, stopping ATP synthesis 

C) NADPH production will double 

D) Carbon fixation will speed up

B) The proton gradient will collapse, stopping ATP synthesis 

300

In eukaryotic plants, these are the primary organelles responsible for carrying out photosynthesis. 

A) Mitochondria 

B) Ribosomes 

C) Chloroplasts 

D) Nuclei

C) Chloroplasts 

300

The energy content of a photon is related to the wavelength of light in this specific way. 

A) Directly proportional 

B) Inversely proportional 

C) Equal to the wavelength 

D) Unrelated to the wavelength

B) Inversely proportional 

300

The reaction center of Photosystem I is specifically referred to by this name. 

A) P680 

B) P700 

C) Rubisco 

D) ATP Synthase

B) P700 

300

To produce a single molecule of glucose, the Calvin Cycle must turn this many times. 

A) One 

B) Two 

C) Three 

D) Six

D) Six

300

This complex of the photosystem collects light energy and funnels it toward the reaction center via excited electrons. 

A) F0 complex 

B) Antenna complex 

C) Cytochrome b6-f 

D) NADP reductase

B) Antenna complex 

400

These flattened structures inside the chloroplast are organized into columns called grana. 

A) Stroma 

B) Thylakoid disks 

C) Mesophyll 

D) Matrix

B) Thylakoid disks 

400

These accessory pigments absorb wavelengths chlorophyll cannot and protect the cell by scavenging reactive oxygen species. 

A) Anthocyanins 

B) Carotenoids 

C) Ribozymes 

D) Phospholipids

B) Carotenoids 

400

As electrons move through the b6-f complex, energy is used to pump protons from the stroma into this location. 

A) Outer membrane 

B) Thylakoid space (lumen) 

C) Mitochondrial matrix 

D) Cytoplasm

B) Thylakoid space (lumen) 

400

During the carbon fixation phase, CO2 is combined with this 5-carbon acceptor molecule. 

A) 3-PGA 

B) RuBP (Ribulose 1,5-bisphosphate) 

C) Citrate 

D) ATP

B) RuBP (Ribulose 1,5-bisphosphate) 

400

While plants have chloroplasts for photosynthesis, they also contain these organelles to perform respiration at night. 

A) Lysosomes 

B) Vacuoles 

C) Mitochondria 

D) Peroxisomes

C) Mitochondria 

500

This semiliquid compartment outside the thylakoid membrane contains the enzymes needed for carbon fixation. 

A) Thylakoid lumen 

B) Cytoplasm 

C) Stroma 

D) Intermembrane space

C) Stroma 

500

In the fall, leaves change color from green to orange or red because of this process. 

A) Chlorophyll a is converted into glucose 

B) Carotenoids are manufactured more rapidly 

C) Chlorophyll production ceases, revealing previously masked pigments

D) The plant begins anoxygenic photosynthesis

C) Chlorophyll production ceases, revealing previously masked pigments

500

In noncyclic photophosphorylation, this molecule acts as the final electron acceptor. 

A) Oxygen 

B) Water 

C) NADP+ 

D) RuBP

C) NADP+ 

500

These are the three distinct phases of the Calvin Cycle in their correct order. 

A) Oxidation, Reduction, Synthesis 

B) Fixation, Reduction, Regeneration 

C) Light absorption, ETC, Chemiosmosis 

D) Glycolysis, Citric Acid Cycle, ETC

B) Fixation, Reduction, Regeneration 

500

If a plant is exposed to light but denied CO2, which phase of photosynthesis is directly limited first? 

A) Photolysis in PSII 

B) Proton pumping in the ETC 

C) Carbon fixation in the Calvin Cycle 

D) Light absorption by chlorophyll

C) Carbon fixation in the Calvin Cycle