Euglenoids have chlorophyll, and chloroplasts that enable them to do photosynthesis which makes them plant like
Euglenoids are typically free-floating organisms, using a flagellum to swim in water. However, some species can temporarily attach to surfaces using a stalk-like structure called a holdfast.
Euglenoids can obtain energy through photosynthesis using chloroplasts in their cells. They have a unique mode of movement utilizing a protein strip called a pellicle that allows them to change shape. Some euglenoids can also feed heterotrophically by engulfing food particles through phagocytosis.
Makahiya, also known as the sensitive plant, is a tropical plant that reacts to touch by folding its leaves. It is known for its rapid leaf movements in response to stimuli like touch, heat, or wind. The plant's small pink flower clusters and thorn-covered stems are also distinctive characteristics.
Discicristates is a diverse group of eukaryotic organisms that includes organisms like Giardia and Trichomonas. They are characterized by having a reduced or absent mitochondrion and lack typical mitochondrial features. Many members of Discicristates are anaerobic and have unique features in their cellular structure and reproduction.
New genes can be introduced into a plant through a process called genetic engineering. This involves inserting the desired gene into the plant's DNA using techniques like gene guns or Agrobacterium tumefaciens. The introduced gene can enhance the plant's characteristics or traits, such as improving its resistance to pests or increasing its yield.
They are both heterotrophs.
The 6 types of plant-like protists are diatoms, dinoflagellates, euglenoids, red algae, green algae, and brown algae. These protists exhibit characteristics of plants, such as containing chlorophyll and producing their own food through photosynthesis.
Euglenoids are classified as a group of protists that exhibit characteristics of both protozoa and algae. They are primarily recognized for their ability to photosynthesize due to the presence of chloroplasts, which makes them similar to algae. However, they can also exhibit heterotrophic behavior, feeding on organic matter, which aligns with protozoan characteristics. Thus, Euglenoids are often considered a bridge between algae and protozoa.
It has plant characteristics.
They can sometimes be heretrophs
They can sometimes be heretrophs
They can sometimes be heretrophs
euglenoids live in fresh water
Euglenoids do not cause disease.
Unlike other algae, euglenoids have one animal-like characteristic that allows them to be heterotrophs under certain conditions. ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ than wtf is it??? that's sort of the damn question -_-
euglenophyta
Euglenoids and male sperm are both single-celled organisms. In order for Euglenoids and sperm to move, they both use a flagella. A flagella is a microscopic whip-like appendage that enables single-celled organisms to swim.