0
There are three different types of photosynthesis as far as i have learned:
- C3 photosynthesis
- C4 photosynthesis
- CAM photosynthesis The difference is that each has a different method of reaching the Calvin cycle further in photosynthesis. The first main differences include:
- C3 plants function best in cooler, moist environments (typical rice or wheat)
- C4 plants are evolved to function in warmer, dryer climates (typical sugar cane or corn)
- CAM plants can basically be thought of as desert plants, evolved to function in places of little water and desert heat (cacti or even pineapples)
C3 plants first bring in carbon dioxide (day or night) and it is fixed by Rubisco (enzyme) into PGA molecules (3-phosphoglycerate molecules) these molecules follow the Calvin cycle producing (eventually) Glucose
C4 plants, because of their warmer (and less water) climate, open their stomata mostly at night or dusk, to reduce water loss. Because of this these plants require carbon dioxide storage to make sure they have enough energy. The carbon dioxide is brought in and reacted catalyzed by PEP carboxylase (enzyme) with a three carbon PEP (phosphenolpyruvate) creating four carbon OAA (oxaloacetate). The OAA is then almost immediately converted into Malate (4 carbon). This Malate is then diffused from the mesophyll cells into the bundle sheath cells. When the cells require CO2 they diffuse the Malate back into the mesophyll cells (through plasmodesmata channels in plant cells). Carbon dioxide is removed and continues in the C3 pathway. PEP is also a product, to be reused.
CAM plants only open the stomata at night, reducing their intake of CO2 . Because of this, these plants take in CO2 and incorporate it into C4 organic acids using a PEP carboxylase enzyme. These acids are stored in vacuoles until needed in the morning, when stomata close and CO2 is released into the C3 Calvin cycle for carbon fixation and the production of glucose.
What else can I help you with?
What are the cells in animals called?
Cells. Different types of cells have different names. What type of cells are you talking about? Different parts of a body have different types of cells.
Does a cell in your stomach contain genes for brain cells?
No, a cell in your stomach does not contain genes for brain cells. Different types of cells express different sets of genes to carry out their specific functions in the body. Brain cells and stomach cells have different gene expression profiles to support their distinct roles in the body.
How are cells in a plant have different shapes and different jobs?
Plant cells have diverse shapes and functions due to their specialized structures that enable them to perform specific roles. For instance, parenchyma cells, which store nutrients, have a rounded shape, while xylem cells are elongated to facilitate water transport. Additionally, the presence of rigid cell walls, chloroplasts in photosynthetic cells, and various types of vacuoles contribute to their distinct forms and functions, allowing plants to efficiently carry out processes like photosynthesis, nutrient storage, and structural support.
How many different types of specialised cell are there?
There are over 200 different types of specialized cells in the human body, each designed to perform specific functions. These include muscle cells, nerve cells, blood cells, and epithelial cells, among others. Each type of specialized cell has unique structures and characteristics that enable them to carry out their roles effectively. The diversity of these cells is essential for the complex functioning of tissues and organs.
Would you expect all human cells to look like cheek cell?
No, different types of human cells have unique shapes and structures based on their functions. Cheek cells are flat and irregularly shaped because they are protective epithelial cells. Other cells in the body, such as nerve cells or muscle cells, have different shapes that suit their specific roles.
What are the types of specialized cells in plant?
Some types of specialized cells in plants include parenchyma cells (for storage and photosynthesis), xylem cells (for water transport), phloem cells (for nutrient transport), and guard cells (for regulating gas exchange). These cells play specific roles in supporting the functions of the plant.
Can plant cells photosynthesis?
Not all types of plant cells perform photosynthesis. Most cells on the shoot of the plant (depending on the plant) are capable of photosynthesis. However, most root cells are white because they lack pigments and, therefore, are incapable of photosynthesis.
What are the cells in animals called?
Cells. Different types of cells have different names. What type of cells are you talking about? Different parts of a body have different types of cells.
What are the 3 types of cells where photosynthesis occurs?
The three types of cells where photosynthesis occurs are leaf cells, stem cells, and root cells. Photosynthesis primarily takes place in the chloroplasts of these cells, where sunlight is used to convert carbon dioxide and water into glucose and oxygen.
Why do animals need different types of cells than plants need?
Animals and plants have different types of cells because they perform distinct biological functions and adaptations. Animal cells are often specialized for movement, sensory perception, and energy use, reflecting their need for mobility and interaction with dynamic environments. In contrast, plant cells have unique structures like cell walls and chloroplasts, which enable them to conduct photosynthesis, provide structural support, and adapt to stationary growth. These differences are essential for each kingdom's survival and ecological roles.
What types of cells go through photosynthesis?
Plants, algae, and some bacteria are the primary types of cells that go through photosynthesis. These cells contain chlorophyll, a pigment that captures sunlight and helps convert carbon dioxide and water into glucose and oxygen through a series of chemical reactions.
Does a cell in your stomach contain genes for brain cells?
No, a cell in your stomach does not contain genes for brain cells. Different types of cells express different sets of genes to carry out their specific functions in the body. Brain cells and stomach cells have different gene expression profiles to support their distinct roles in the body.
How many different types of cells does your body contain?
The human body contains over 200 different types of cells, each with specific functions and roles in maintaining health and functioning of the body. These cells include nerve cells, muscle cells, red and white blood cells, skin cells, and many more.
How many different types on cells are in your body?
There is roughly around 200 different types of cells in your body.
What are the two main function cells of photosynthesis?
The two main types of cells involved in photosynthesis are chloroplasts, where photosynthesis occurs, and mesophyll cells, which contain chloroplasts and are the primary site of photosynthesis in plant leaves. Chloroplasts contain chlorophyll, the pigment that captures light energy and converts it into chemical energy.
How are cells in a plant have different shapes and different jobs?
Plant cells have diverse shapes and functions due to their specialized structures that enable them to perform specific roles. For instance, parenchyma cells, which store nutrients, have a rounded shape, while xylem cells are elongated to facilitate water transport. Additionally, the presence of rigid cell walls, chloroplasts in photosynthetic cells, and various types of vacuoles contribute to their distinct forms and functions, allowing plants to efficiently carry out processes like photosynthesis, nutrient storage, and structural support.
How many different types of specialised cell are there?
There are over 200 different types of specialized cells in the human body, each designed to perform specific functions. These include muscle cells, nerve cells, blood cells, and epithelial cells, among others. Each type of specialized cell has unique structures and characteristics that enable them to carry out their roles effectively. The diversity of these cells is essential for the complex functioning of tissues and organs.
