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Photosynthesis converts light energy to the chemical energy of food
produce their organic molecules from CO2 and other raw material from the environment.
Autotrophic
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absorbs sunlight and uses it to drive the synthesis of organic compounds from carbon dioxide and water.
Chloroplasts
A flattened membrane sac inside the chloroplast, used to convert light energy to chemical energy.
Thylakoids
The conversion of light energy to chemical energy that is stored in glucose or other organic compounds; occurs in plants, algae, and certain prokaryotes.
Photosynthesis
produce their own organic molecules from CO2
Autotrophs
An organism that obtains organic food molecules by eating other organisms or substances derived from them.
Heterotrophs
specialized for photosynthesis. In C3 and CAM plants, mesophyll cells are located between the upper and lower epidermis; in C4 plants, they are located between the bundle-sheath cells and the epidermis.
Mesophyll
pores on the leaf where O2 exits and CO2 enters
Stomata
The fluid of the chloroplast surrounding the thylakoid membrane; involved in the synthesis of organic molecules from carbon dioxide and water.
Stroma
A flattened, membranous sac inside a chloroplast. Thylakoids often exist in stacks called grana that are interconnected; their membranes contain molecular “machinery” used to convert light energy to chemical energy.
Thylakoids
A green pigment located in membranes within the chloroplasts of plants and algae and in the membranes of certain prokaryotes. Chlorophyll a participates directly in the light reactions, which convert solar energy to chemical energy.
Chlorophyll
light dependent and light independent
What are the two stages of photosynthesis
The first of two major stages in photosynthesis (preceding the Calvin cycle). These reactions, which occur on the thylakoid membranes of the chloroplast or on membranes of certain prokaryotes, convert solar energy to the chemical energy of ATP and NADPH, releasing oxygen in the process.
Light Reactions
The second of two major stages in photosynthesis (following the light reactions), involving fixation of atmospheric CO2 and reduction of the fixed carbon into carbohydrate.
Calvin cycle
Nicotinamide adenine dinucleotide phosphate, an electron acceptor that, as NADPH, temporarily stores energized electrons produced during the light reactions.
NADP
The process of generating ATP from ADP and phosphate by means of chemiosmosis, using a proton-motive force generated across the thylakoid membrane of the chloroplast or the membrane of certain prokaryotes during the light reactions of photosynthesis.
Photophosphorylation
The initial incorporation of carbon from CO2 into an organic compound by an autotrophic organism (a plant, another photosynthetic organism, or a chemoautotrophic prokaryote).
Carbon Fixation
An accessory pigment, either yellow or orange, in the chloroplasts of plants and in some prokaryotes. By absorbing wavelengths of light that chlorophyll cannot, carotenoids broaden the spectrum of colors that can drive photosynthesis.
Carotenoids
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Describe a chlorophyll molecule
A light-capturing unit located in the thylakoid membrane of the chloroplast or in the membrane of some prokaryotes, consisting of a reaction-center complex surrounded by numerous light-harvesting complexes. There are two types of photosystems, I and II; they absorb light best at different wavelengths.
Photosystem
A complex of proteins associated with a special pair of chlorophyll a molecules and a primary electron acceptor. Located centrally in a photosystem, this complex triggers the light reactions of photosynthesis. Excited by light energy, the pair of chlorophylls donates an electron to the primary electron acceptor, which passes an electron to an electron transport chain.
Reaction-center complex
A complex of proteins associated with pigment molecules (including chlorophyll a, chlorophyll b, and carotenoids) that captures light energy and transfers it to reaction-center pigments in a photosystem.
Light harvesting complex
In the thylakoid membrane of a chloroplast or in the membrane of some prokaryotes, a specialized molecule that shares the reaction-center complex with a pair of chlorophyll a molecules and that accepts an electron from them.
Primary electron acceptor
One of two light-capturing units in a chloroplast’s thylakoid membrane or in the membrane of some prokaryotes; it has two molecules of P680 chlorophyll a at its reaction center.
Photo system II
A light-capturing unit in a chloroplast’s thylakoid membrane or in the membrane of some prokaryotes; it has two molecules of P700 chlorophyll a at its reaction center.
Photosystem I
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10.3 The Calvin Cycle uses the chemical energy of ATP and NADPH to reduce CO2 to sugar
A three-carbon carbohydrate that is the direct product of the Calvin cycle; it is also an intermediate in glycolysis.
Glyceraldehyde 3-phosphate (G3P)
Carbon Fixation
Energy Consumption and Redox
Release of G3P; Regeneration of RuBP
What are the three phases of The Calvin cycle?
A plant that uses the Calvin cycle for the initial steps that incorporate CO2 into organic material, forming a three-carbon compound as the first stable intermediate.
C3 plants
A metabolic pathway that consumes oxygen and ATP, releases carbon dioxide, and decreases photosynthetic output. Photorespiration generally occurs on hot, dry, bright days, when stomata close and the O2/CO2 ratio in the leaf increases, favoring the binding of O2 rather than CO2 by rubisco.
Photorespiration
A plant in which the Calvin cycle is preceded by reactions that incorporate CO2 into a four-carbon compound, the end product of which supplies CO2 for the Calvin cycle.
C4 Plants
In C4 plants, a type of photosynthetic cell arranged into tightly packed sheaths around the veins of a leaf.
Bundle-sheath cells
An enzyme that adds CO2 to phosphoenolpyruvate (PEP) to form oxaloacetate in mesophyll cells of C4 plants. It acts prior to photosynthesis.
PEP carboxylase
A plant that uses crassulacean acid metabolism, an adaptation for photosynthesis in arid conditions. In this process, carbon dioxide entering open stomata during the night is converted to organic acids, which release CO2 for the Calvin cycle during the day, when stomata are closed.
CAM plants
H2O → NADPH → Calvin cycle
Which of the following sequences correctly represents the flow of electrons during photosynthesis?
NADPH → chlorophyll → Calvin cycle
H2O → NADPH → Calvin cycle
NADPH → O2 → CO2
NADPH → electron transport chain → O2
H2O → photosystem I → photosystem II
Autotrophs, but not heterotrophs, can nourish themselves beginning with CO2 and other nutrients that are inorganic.
Which of the following statements is a correct distinction between autotrophs and heterotrophs?
Autotrophs, but not heterotrophs, can nourish themselves beginning with CO2 and other nutrients that are inorganic.
Only heterotrophs require oxygen.
Cellular respiration is unique to heterotrophs.
Only heterotrophs have mitochondria.
Only heterotrophs require chemical compounds from the environment.
release of oxygen
Which of the following does not occur during the Calvin cycle?
release of oxygen
regeneration of the CO2 acceptor
oxidation of NADPH
consumption of ATP
carbon fixation
removal of electrons from chlorophyll molecules
Which process is most directly driven by light energy?
creation of a pH gradient by pumping protons across the thylakoid membrane
removal of electrons from chlorophyll molecules
reduction of NADP+ molecules
ATP synthesis
carbon fixation in the stroma
ATP and NADPH.
The light reactions of photosynthesis supply the Calvin cycle with
In both cases, rubisco is not used to fix carbon initially.
How is photosynthesis similar in C4 plants and CAM plants?
oxidative phosphorylation in cellular respiration.
In mechanism, photophosphorylation is most similar to
6CO2 + 6H2O → C6H12O6 + 6O2
Photosynthesis requires carbon dioxide and water for the production of sugar and oxygen.
Which of the following equations represents photosynthesis?
6CO2 + 6O2 → C6H12O6 + 6H2O
6H2O + 6O2 → C6H12O6 + 6CO2
C6H12O6 + 6O2 → 6CO2 + 6H2O
C6H12O6 + 6CO2 → 6O2 + 6H2O
6CO2 + 6H2O → C6H12O6 + 6O2
Chloroplast
Chloroplasts use energy from light to transform carbon dioxide and water into sugar and oxygen.
In which of the following organelles does photosynthesis take place?
Chloroplast
Mitochondrion
Ribosome
Central vacuole
Nucleus
An electron transport chain
What connects the two photosystems in the light reactions?
Chlorophyll
A thylakoid
An electron transport chain
A chain of glucose molecules
The Calvin cycle
ATP and NADPH
ATP and NADPH are both products of the light reactions and are used to power the Calvin cycle.
What two molecules are produced by the light reactions and used to power the Calvin cycle?
CO2 and O2
C6H12O6 and O2
C6H12O6 and RuBP
ATP and NADPH
G3P and H2O
H2O
Electrons are stripped from water in the light reactions of photosynthesis. Light provides the energy to excite electrons.
What provides electrons for the light reactions?
CO2
The Calvin cycle
H2O
Light
O2
Carbon dioxide (CO2)
Carbon dioxide provides the carbon atoms that are incorporated into sugars in photosynthesis. Carbon dioxide initially combines with RuBP, and RuBP is regenerated to continue the Calvin cycle.
What provides the carbon atoms that are incorporated into sugar molecules in the Calvin cycle?
Sucrose (C12H22O11)
RuBP
Carbon dioxide (CO2)
Glucose (C6H12O6)
G3P (C3H6O3)
NADPH
NADPH is an electron carrier that picks up electrons in the light reactions and releases them in the Calvin cycle. An electron transport chain conveys electrons from one photosystem to the other within the light reactions.
What transports electrons from the light reactions to the Calvin cycle?
NADH
NADPH
An electron transport chain
FADH2
Chlorophyll
thylakoids; stroma
Within the chloroplast, the light reactions take place in the flattened sacs called thylakoids and the Calvin cycle takes place in the thick fluid called the stroma.
The light reactions take place in the _________ and the Calvin cycle takes place in the _________.
stroma; thylakoids
thylakoids; stroma
inner membrane; outer membrane
chloroplasts; mitochondria
mitochondria; chloroplasts
The Calvin cycle is a complex series of chemical reactions carried out in the stroma.
Where does the Calvin Cycle take place?
Three molecules of carbon dioxide are added to three molecules of a five-carbon sugar abbreviated RuBP. These molecules are then rearranged to form six molecules called 3-PGA, which have three carbons each.
Describe Carbon Fixation in the Calvin Cycle
