0
Photosynthesis that is where
The energy-fixing reaction of photosynthesis begins when light is absorbed in photosystem II in the thylakoid membranes. The energy of the sunlight, captured in the P680 reaction center, activates electrons to jump out of the chlorophyll molecules in the reaction center. These electrons pass through a series of cytochromes in the nearby electron-transport system.
After passing through the electron transport system, the energy-rich electrons eventually enter photosystem 1. Some of the energy of the electron is lost as the electron moves along the chain of acceptors, but a portion of the energy pumps protons across the thylakoid membrane, and this pumping sets up the potential for chemiosmosis.
The spent electrons from P680 enter the P700 reaction center in photosystem I. Sunlight now activates the electrons, which receive a second boost out of the chlorophyll molecules. There they reach a high energy level. Now the electrons progress through a second electron transport system, but this time there is no proton pumping. Rather, the energy reduces NADP. This reduction occurs as two electrons join NADP and energize the molecule. Because NADP acquires two negatively charged electrons, it attracts two positively charged protons to balance the charges. Consequently, the NADP molecule is reduced to NADPH, a molecule that contains much energy.
Because electrons have flowed out of the P680 reaction center, the chlorophyll molecules are left without a certain number of electrons. Electrons secured from water molecules replace these electrons. Each split water molecule releases two electrons that enter the chlorophyll molecules to replace those lost. The split water molecules also release two protons that enter the cytoplasm near the thylakoid and are available to increase the chemiosmotic gradient.
What else can I help you with?
Which object converts sunlight into sugar?
Nothing really converts energy to sugars. The energy of sunlight is stored in sugars. Which structure is responsible depends on how detailed you want to be: the green plant, the leaf cell or the chloroplast.
What is the job of Chlorophyll in photosynthesis?
Chlorophyll converts carbon dioxide into sugars with the help of sunlight.
How does chloraphyll help the plants?
Chlorophyll is part of the photosynthetic process which converts carbon dioxide into sugars using sunlight. Chlorophyll is generally the part that absorbs sunlight.
What is a natural reaction that stores energy fron sunlight in sugars?
Photosynthesis is a natural reaction that converts sunlight into chemical energy stored in sugars. It occurs in the chloroplasts of plant cells and uses carbon dioxide, water, and sunlight to produce glucose and oxygen.
What does photosynthnesis mean?
Is a chemical process that converts carbon dioxide into organic compounds, especially sugars, using the energy from sunlight.
What energy converts sunlight into sugars?
The process by which sunlight is converted into sugars is called photosynthesis. During photosynthesis, plants use light energy to convert carbon dioxide and water into glucose (sugar) and oxygen. This process occurs in chloroplasts within plant cells, specifically in the chlorophyll pigments.
Which organelle converts sugars into energy?
Mitochondria
Does algae get their energy from the sun?
Yes, algae obtain energy through photosynthesis, a process that converts sunlight into energy. Algae contain chlorophyll, a pigment that captures sunlight and enables them to produce their own food and energy.
What converts sugars into acids that attack tooth enamel?
Bacteria
What objects converts sunlight into sugars?
Photosynthesis is the process by which plants, some bacteria, and some protistans use the energy from sunlight to produce sugar, which cellular respiration changes into ATP (Adenosine triphosphate).
Which organells converts engergy from sunlight?
chloroplasts
Why do most plants produce an excess of sugars in some months of the year?
Plants convert basic elements plus sunlight into sugars through photosynthesis. This in effect captures light energy and converts it into chemical energy that can be transported, stored and used on demand by the plant. The two main sugars that are produced are glucose and sucrose
