This is also known as photoautotrophic nutrition.
Carbon dioxide is an energy poor compound which is reduced during photosynthesis
There are two main stages:
1. The light dependent reactions that occur on the granal membranes. Pigments are required to absorb and transduce the light energy. Membrane proteins act as electron carriers.
2. The light independent reactions that occur in the stroma of the chloroplast.
Chlorophyll and other pigments are grouped together to form a photosystem.
There are two photosystems, photosystem II(P700) and photosystemI(P680)
Each photosystem acts as a light harvesting system; light energy is passed from the accessory pigments to the chlorophyll in the reaction centre of the photosystem.
Light energy strikes the chloroplast.
The energy is channelled towards the chlorophyll molecule in the reaction centre of the photosystem. Two electrons from the chlorophyll in the reaction centre of photosystem II are ‘excited’ and raised to a higher energy level (the chlorophyll is oxidised)
The electrons are accepted by an electron carrier.
The excited electrons from photosystem II are accepted by a carrier and pass down a series of electron carriers losing energy.
The energy ‘lost’ is used to synthesise ATP from ADP + iP.
The electrons pass into photosystem 1
Water is broken up using light energy into protons, electrons and oxygen which is evolved.
The electrons released from the water replace those lost from photosystem II.
Light energy strikes photosystem I at the same time as it strikes photosystem II and the energy is passed from the accessory pigments to the chlorophyll in the reaction centre of photosystem I.
Two electrons from the chlorophyll in the reaction centre of photosystem I are raised to a higher energy level (the chlorophyll is oxidised)
The electrons passing along the carriers from PSII replace those lost from PSI.
The electrons ‘lost’ from PSI pass to an electron acceptor and pass down a series of carriers
These electrons and the protons from the breakdown of the water combine with NADP to form reduced NADP
This sequence of events is called
Non cyclic photophosphorylation
Sometimes the electrons ‘lost’ from PSI pass along carriers back into PSI
This generates more ATP and is called cyclic photophosphorylation
One of the electron carriers is a proton pump
The energy ‘lost’ by the electrons is used to actively transport protons across the thylakoid membrane into the thylakoid space
The concentration of protons in the thylakoid space increases
The protons now pass through a membrane protein that is the enzyme ATP synthase
The protons make the enzyme rotate releasing energy
The energy is used to synthesise ATP
Tutorial 8.2 Photophosphorylation http://highered.mcgraw-hill.com/olc/dl/120072/bio13.swf The reduced NADP and the ATP are required for the light independent reactions. (Calvin Cycle)
The ATP has two functions:
It provides the energy needed to reduce Glycerate 3 phosphate (GP) to triose phosphate (TP)
It provides iP to convert ribulose phosphate to ribulose bisphosphate
The reduced NADP provides the hydrogen needed to reduce GP to TP
You May Also Find These Documents Helpful
-
The process of photosynthesis occurs when six carbon dioxide molecules (CO2), six water molecules (H2O), and light energy are added together and result in glucose (C6H12O6) and six oxygen (O2) molecules. There are two stages to this process; light reactions and dark reactions. Light reactions start with chloroplast which absorbs the light. Inside the chloroplast are thylakoids that contain pigments which absorb certain wavelengths of light. Each cluster of pigments is called a photosystem. Photosystem I and II obtain some of the light’s energy. Light first enters chlorophyll A in photosystem II and the electrons inside become excited enough to leave it. Some of the electrons, which just left, enter a chain of reactions called the electron transport chain and it produces ATP. The electrons that couldn’t fit into the ETC move onto photosystem I. Those electrons then get excited by light energy and enter the ETC where they add a hydrogen atom to NADP to form NADPH.…
- 411 Words
- 3 Pages
Good Essays -
WATER SPLITTING 20. ELECTRONS ARE PASSED DOWN DEPENDENT REACTIONS Lab 5 1. a. What is the name of the pigment that captures light? (2 points)…
- 4104 Words
- 17 Pages
Good Essays -
A molecule of chlorophyll increases in potential energy: when one of its electrons is boosted to a higher-energy excited state upon being struck by a photon of light…
- 500 Words
- 2 Pages
Good Essays -
● Chlorophyll takes in light energy. Other photosynthetic pigments like carotenoids and phycobilins indirectly participate in the photosynthesis by trapping photons from different wavelength of light and passing it to chlorophylls for photosynthesis as they are not capable of this function.…
- 1029 Words
- 5 Pages
Satisfactory Essays -
When light is emitted, its due to the electrons going for an excited state to a non-excited state. The amount of energy released in this light is:…
- 281 Words
- 2 Pages
Satisfactory Essays -
7. Photosystem II has a special pair of chlorophyll a molecules called P680 at its reaction…
- 1037 Words
- 4 Pages
Good Essays -
We all learned in elementary school that the suns provide nutrients and components that help plans grow. “As the name implies, photosynthesis is a process that uses light energy to synthesize something.” (Mauseth, 2014) That process is called photosynthesis. Photosynthesis is the process where plants use light energy from the sun. If we break the word up photo has the definition of light and synthesis means putting together. It provides the necessary sources of energy that both animals and plants need to survive. There are important factors that help photosynthesis, water, light and carbon dioxide. Throughout this essay we will discuss the equation that is associated with photosynthesis, main energy carrying molecule, reactants and products of light reactions and photosynthesis in the Calvin cycle.…
- 760 Words
- 3 Pages
Good Essays -
Photosynthesis is the process by which green plants, algae and some bacteria absorb light energy and use it to synthesize organic compounds. In green plants, photosynthesis occurs in chloroplasts, that contain the photosynthetic pigments. Photosynthesis occurs by slightly different processes in C3 and C4 plants. Factors which can affect this are the stomata. Plants can regulate the movements of water vapor, O2 and CO2 through the leaf surface. This is accomplished by opening and closing the stomata, usually found on the bottom…
- 709 Words
- 3 Pages
Good Essays -
2. Chlorophyll a absorbs mainly blue violet and red light. It participates directly in the light reactions.…
- 757 Words
- 3 Pages
Good Essays -
Electrons are transferred to the coenzyme NAD+ and the two molecules formed are NADH and ATP.…
- 1212 Words
- 6 Pages
Good Essays -
This excites electrons causing them to gain energy. As the electrons gain energy they are moved into higher energy levels. Naturally, electrons want to move back to their original state. As the electrons move down from higher energy levels, a photon is emitted. A photon is a particle of light. The absorption of energy, and the energy of the energy emitted is quantized. Electrons can take one big step as it reaches its base state and release one photon. Electrons could also take many little steps as it travels to its base state, emitting a photon at each level. To determine the energy of the emitted photon we have to look at the difference in energy of the excited state and the relaxed state. This energy determines the light emitted.…
- 548 Words
- 3 Pages
Good Essays -
Greater loss of carbon dioxide from test tubes closer to the light and containing sprigs supports the…
- 1317 Words
- 6 Pages
Good Essays -
In cellular respiration and photosynthesis, the reactants flow through pathways to become products in very different ways. Respiration is catabolic, breaking glucose down, while photosynthesis is an anabolic reaction, building glucose. When respiration breaks glucose down, energy is released in small increments. The released energy is used to synthesize ATP, NADH, and FADH2. The NADH and FADH2 go through oxidative phosphorylation to produce ATP and H2O. Photosynthesis uses light reactions to provide energy to build glucose. Inside the thylakoids, where the light reactions take place, there are two types of photosystems, II and I. Photosystem II utilizes light…
- 478 Words
- 2 Pages
Good Essays -
Photosynthesis depends on an interaction between two sets of reactions: the light reactions and the Calvin cycle. Chlorophyll and the other molecules responsible for the light reactions are built into the thylakoid membranes. The enzymes that catalyze the Calvin cycle are located in the stroma. Beginning with the absorption of light by chlorophyll, the light reactions convert light energy into chemical energy in the form of ATP and NADPH. The ATP provides the energy, and the NADPH supplies the electrons for the Calvin cycle, which converts carbon dioxide to sugar. The ADP and NADP+ that result from the Calvin cycle shuttle back to the light reactions, which regenerate ATP and NADPH. Photosynthesis depends on an interaction between two sets of reactions: the light reactions and the Calvin cycle. Chlorophyll and the other molecules responsible for the light reactions are built into the thylakoid membranes. The enzymes that catalyze the Calvin cycle are located in the stroma. Beginning with the absorption of light by chlorophyll, the light reactions convert light energy into chemical energy in the form of ATP and NADPH. The ATP provides the energy, and the NADPH supplies the electrons for the Calvin cycle, which converts carbon dioxide to sugar. The ADP and NADP+ that result from the Calvin cycle shuttle back to the light reactions, which regenerate ATP and NADPH. Photosynthesis depends on an interaction between two sets of reactions: the light reactions and the Calvin cycle. Chlorophyll and the other molecules responsible for the light reactions are built into the thylakoid membranes. The enzymes that catalyze the Calvin cycle are located in the stroma. Beginning with the absorption of light by chlorophyll, the light reactions convert light energy into chemical energy in the form of ATP and NADPH. The ATP provides the energy, and the NADPH supplies the electrons for the Calvin cycle, which converts carbon dioxide to sugar. The ADP and NADP+ that result from the…
- 17734 Words
- 43 Pages
Good Essays -
Plants are able to produce ATP during the light dependent reaction of photosynthesis in the thylakoid of the chloroplast. Red and blue wavelengths of light are absorbed by chlorophyll in chloroplasts on Photosystem II. The chloroplasts are protected and contained by a membrane, but they are close to the surface of the cell to catch the maximum amount of light. Their broad length also allows larger wavelengths of light to be absorbed. The energy absorbed is transferred to electrons and excites them to a higher energy level. This leads to the photolysis of water which results in the formation of hydrogen ions, electrons and oxygen gas. The electrons formed during photolysis then replace those excited by the light. The excited electrons are then passed along the electron transport chain in a series of redox reactions from one carrier to the next. The energy released by this passage is used to activate ATPase to combine ADP and Pi to form ATP. This process of converting ADP to ATP using light…
- 1087 Words
- 3 Pages
Good Essays