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Biology Notes (Part 13) Photosynthesis, Photosystems, and the Calvin Cycle
Photosynthesis
Photosynthesis is the conversion of light to chemical energy.
It takes place in the chloroplasts.
Light is part of the electromagnetic spectrum.
Radiations travel in waves and particles.
Pigments are light-absorbing molecules. Pigments found in land plants are Chlorophyll A and Chlorophyll B.
Each pigment has a specific absorption spectrum. ATP is an energy source.
Pigments are light absorbers.
NADPH are electron carriers.
Wavelengths that are not absorbed are reflected/transmitted.
The formula for photosynthesis is CO2 +12H20 light→ C6H12O6 + 6O2 + 6H20
Autotrophs make their own food and heterotrophs take food from outside sources.
Photosynthesis consists of two reactions: light reactions and carbon-fixation reactions.
Light reactions describe light energy being used to form ATP and NADPH. Light reactions are composed of photosystems (groupings of proteins and pigment molecules).
Photosystems I and II
Photosystem I happens last, and Photosystems II occurs first.
In Photosystem I, NADPH is produced.
In Photosystem II, water molecules are split to produce oxygen (O2). The Electron Transport Chain powers the synthesis of ATP.
Carbon-fixation reactions (Calvin Cycle) describe how ATP and NADPH used to synthesize carbohydrates.
Calvin Cycle
The Calvin Cycle uses ATP and NADPH to synthesize carbohydrates.
The Calvin Cycle is a cyclical pathway.
RUBP (ribulose - 1, 5 - biphosphate) is the starting and ending compound of the cycle.
Co2 enters plants through an opening in the leaves called “stomata.”
The Calvin Cycle occurs in three stages: carbon fixation, reduction, and regeneration.
In the Carbon Fixation stage, CO2 (a gas) is converted to a solid form (a carbohydrate). This is the main purpose of the Calvin Cycle.
The Carbon Fixation stage is catalyzed by carboxylase (rubisco).
Carbon is attached to RUBP.
The result is two 3-carbon molecules (3PC).
In the Reduction Phase, 3PG is reduced by NADPH with energy from the breakdown of ATP.
This results in the formation of 2 3PG (glyceraldehyde - 3 - phosphate) molecules.
G3P is the starting molecule for many plant cell metabolic pathways.
In the Regeneration Cycle, there are three turns of the Calvin Cycle which generate six molecules of G3P.
RUBP is regenerated using 5 molecules of G3P.
The remaining G3P molecules used to synthesize carbohydrates and other necessary molecules.
Biology Notes (Part 13) Photosynthesis, Photosystems, and the Calvin Cycle
Photosynthesis
Photosynthesis is the conversion of light to chemical energy.
It takes place in the chloroplasts.
Light is part of the electromagnetic spectrum.
Radiations travel in waves and particles.
Pigments are light-absorbing molecules. Pigments found in land plants are Chlorophyll A and Chlorophyll B.
Each pigment has a specific absorption spectrum. ATP is an energy source.
Pigments are light absorbers.
NADPH are electron carriers.
Wavelengths that are not absorbed are reflected/transmitted.
The formula for photosynthesis is CO2 +12H20 light→ C6H12O6 + 6O2 + 6H20
Autotrophs make their own food and heterotrophs take food from outside sources.
Photosynthesis consists of two reactions: light reactions and carbon-fixation reactions.
Light reactions describe light energy being used to form ATP and NADPH. Light reactions are composed of photosystems (groupings of proteins and pigment molecules).
Photosystems I and II
Photosystem I happens last, and Photosystems II occurs first.
In Photosystem I, NADPH is produced.
In Photosystem II, water molecules are split to produce oxygen (O2). The Electron Transport Chain powers the synthesis of ATP.
Carbon-fixation reactions (Calvin Cycle) describe how ATP and NADPH used to synthesize carbohydrates.
Calvin Cycle
The Calvin Cycle uses ATP and NADPH to synthesize carbohydrates.
The Calvin Cycle is a cyclical pathway.
RUBP (ribulose - 1, 5 - biphosphate) is the starting and ending compound of the cycle.
Co2 enters plants through an opening in the leaves called “stomata.”
The Calvin Cycle occurs in three stages: carbon fixation, reduction, and regeneration.
In the Carbon Fixation stage, CO2 (a gas) is converted to a solid form (a carbohydrate). This is the main purpose of the Calvin Cycle.
The Carbon Fixation stage is catalyzed by carboxylase (rubisco).
Carbon is attached to RUBP.
The result is two 3-carbon molecules (3PC).
In the Reduction Phase, 3PG is reduced by NADPH with energy from the breakdown of ATP.
This results in the formation of 2 3PG (glyceraldehyde - 3 - phosphate) molecules.
G3P is the starting molecule for many plant cell metabolic pathways.
In the Regeneration Cycle, there are three turns of the Calvin Cycle which generate six molecules of G3P.
RUBP is regenerated using 5 molecules of G3P.
The remaining G3P molecules used to synthesize carbohydrates and other necessary molecules.
NoteStudied by 55 peopleNoteStudied by 2 peopleNoteStudied by 41 peopleNoteStudied by 51 peopleNoteStudied by 14 peopleNoteStudied by 9 people