Actually they don't age!! They are a form of micro algea, comprise a vast group of photosynthetic, ( a process that plants and algae use to seek light) heterotrophic organisms which have an extraordinary potential for cultivation as energy crops!! Hope that helps!!
what are some similarities between euglena and plant cells
Asexually. Many protozoans, such as Euglena or Amoeba, undergo binary fission, whereby a single-celled organism divides evenly into two identical cells. actually, if i remember right they are both.
Euglena, like animal cells, can move using a flagellum and exhibit some characteristics of motility. Like plant cells, they contain chloroplasts and can perform photosynthesis to produce energy.
yup
Euglena are flagellated unicellular organisms, so they move by beating their flagella.... somewhat like a tadpole.
one cell
Euglena have flagella that provides them with locomotion.
what are some similarities between euglena and plant cells
Asexually. Many protozoans, such as Euglena or Amoeba, undergo binary fission, whereby a single-celled organism divides evenly into two identical cells. actually, if i remember right they are both.
Euglena, like animal cells, can move using a flagellum and exhibit some characteristics of motility. Like plant cells, they contain chloroplasts and can perform photosynthesis to produce energy.
Asexually. Many protozoans, such as Euglena or Amoeba, undergo binary fission, whereby a single-celled organism divides evenly into two identical cells. actually, if i remember right they are both.
The photoreceptive cells in the Eyespot
Asexually. Many protozoans, such as Euglena or Amoeba, undergo binary fission, whereby a single-celled organism divides evenly into two identical cells. actually, if i remember right they are both.
yup
Yes, their are some Euglena that are pathogenic. Many are pathogenic, although some are not.
Euglena are flagellated unicellular organisms, so they move by beating their flagella.... somewhat like a tadpole.
Amoeba, Paramecium, and Euglena are considered eukaryotic cells because they have a well-defined nucleus that contains their genetic material. They also have membrane-bound organelles such as mitochondria and chloroplasts (in Euglena) that carry out specific functions within the cell. Additionally, these organisms have a complex internal structure with distinct cell organelles, which is a characteristic feature of eukaryotic cells.