STROMA (low H concentration) Cytochrome complex Light Photosystem II Photosystem i NADP reductase Light NADP+ NADPH H,O THYLAKOID SPACE (high H concentration) +2H' 4 H* Thylakoid membrane ATP synthase STROMA (low H concentration) ADP ram 4 shows a single thylakoid membrane taken from a chloroplast inside of a le the light dependent cycle that take place along the thylakoid membrane a o the production of ATP because water will ectrons that flow through the ATP synthase nergy for ATP synthase to transfer into the bonds of ATP. ATP synthase allowing for the production of ATP
Cell Structure
The knowledge and concept about the structure of the cells have changed constantly over the past years. Primarily the scientist defines the cells as a simple membranous sac with fluids and some particles. Researches have now revealed that the cell is the more complex and basic unit of life. There are different types of cells and they also differ in shape and structure. The basic three parts of a cell are cell membrane, cytoplasm, and organelle.
Plant Cell
The smallest functional unit of a living organism is known as the cell. It is composed of cytoplasm enclosed by an outer layer known as the cell membrane. A cell is classified as a prokaryotic cell and a eukaryotic cell. A prokaryotic cell does not contain a nucleus, and the genetic material is freely suspended in the cell cytoplasm; for example, bacteria are composed of a prokaryotic cell. Whereas a eukaryotic cell contains a nucleus and membrane-bound cell organelles with a specific function, plants and animal cells are examples of eukaryotic cells.
Plant Cell Types
Plants are made up of a variety of cell types that include both living and dead cells. These cells provide them mechanical and structural support along with the growth of plants. Plant tissue is a group or collection of cells, which are similar in structure and work together to accomplish a specific function. Plant cells are most similar to animal cells, both being eukaryotic cells.
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Diagram 4: The Light Reactions of Photosynthesis
STROMA
(low H concentration)
Photosystem II
Cytochrome
complex
Photosystem I
Light
NADP
reductase
4 H
Light
NADP + H
NADPH
THYLAKOID SPACE
(high H concentration)
To
Calvin
Cycle
Thylakoid
membrane
ATP
synthase
STROMA
ADP
(low H concentration)
ATP
Diagram 4 shows a single thylakoid membrane taken from a chloroplast inside of a leaf cell. The events of
the light dependent cycle that take place along the thylakoid membrane are shown.
Water is important to the production of ATP because water will
provide the electrons that flow through the ATP synthase
O provide the energy for ATP synthase to transfer into the bonds of ATP.
flow through ATP synthase allowing for the production of ATP
provide the H* that flows through the ATP synthase allowing for the ATP production.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F0552e21f-8ab6-4e70-a552-d6f9cb8227e1%2Fc74c98cc-9197-4344-8147-b2fb26e9c678%2Fzw55e1_processed.jpeg&w=3840&q=75)
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