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How do the eye spot the flagella and the chloroplasts enable chlamydomonas to photosynthesize?
Chlamydomonas uses its flagella for motility, allowing it to navigate towards light sources, which is essential for photosynthesis. The chloroplasts within Chlamydomonas contain chlorophyll, the pigment that captures light energy and converts it into chemical energy during photosynthesis. This process enables the organism to produce glucose and oxygen from carbon dioxide and water, supporting its growth and energy needs. Thus, the combination of flagella for movement and chloroplasts for light absorption facilitates effective photosynthesis.
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What are the locomotory organs of an chlamydomonas?
Chlamydomonas, a unicellular green alga, has two whip-like locomotory organs called flagella. These flagella are located at the anterior end of the cell and enable it to swim by beating in a coordinated manner. The movement of the flagella allows Chlamydomonas to navigate through water in search of light and nutrients.
What are three organelles enable eukaryotic?
flagella and cillia and cytoskeleton
What is a protist that uses flagellum to move is called?
A protist that uses flagella to move is called a flagellate. Flagella are whip-like structures that enable these single-celled organisms to swim in aqueous environments.
Why do protists have appendage or flagella?
Protists have appendages like flagella to help them move and navigate through their environment. These structures enable protists to swim and propel themselves, allowing them to find food, avoid predators, and locate favorable conditions for survival. Appendages and flagella are vital adaptations for protists' motility.
What organelles do the guard cells contain that the surrounding epidermal cells do not?
Guard cells contain specialized organelles called chloroplasts, which are responsible for photosynthesis. These chloroplasts enable guard cells to produce sugars and other molecules needed for energy. The surrounding epidermal cells, on the other hand, do not typically contain chloroplasts as they are not directly involved in photosynthesis.
What plant cells actually swim?
Algal cells, such as those from species like Chlamydomonas and Euglena, have flagella that enable them to swim in water. These cells use their flagella to move towards light for photosynthesis and to find nutrients.
What do flagella enable prokatyotic cell to do?
Flagella are like little rudders, they allow them to move around.
What are three organelles enable eukaryotic?
flagella and cillia and cytoskeleton
What protrude from a cells surface and enable movement?
Flagellum or Flagella
What three organelles enable eukaryote to move?
Flagella, Cilia. and Microtubules / Microfilaments
What three organelles enable eukaryotic cells to move?
The three organelles are cilia, flagella, and pseudopods. Cilia and flagella are structures that extend from the cell surface and help in cell motility, while pseudopods are temporary projections of the cell membrane used for movement in certain cell types.
What is threadlike projections that are similar to tails and allow an organism to move?
Flagella are threadlike projections that act like tails and enable certain single-celled organisms to swim through liquids.
What do prokaryotic fiagella enable prokaryotic cell to do?
Prokaryotic flagella allow the cell to utilize oxygen more efficiently.
What is a protist that uses flagellum to move is called?
A protist that uses flagella to move is called a flagellate. Flagella are whip-like structures that enable these single-celled organisms to swim in aqueous environments.
What protrudes from cell's surfaces and enable movement?
The flagella protrude from cell's surface and enable movement of the cell. Many single celled eukaryotes use flagella for movement.
What does a diatom look like?
A diatom looks something like a green diamond with either one or two flagella (Tails which enable movement)
How do cilia and flagella use the cytoskeletal components?
Cilia and flagella use the cytoskeletal components called microtubules to provide structural support and enable motility. Dynein motor proteins along the microtubules generate the bending movements that allow cilia and flagella to beat and move fluid or propel cells.
