The cytoplasm in the cell of a chlamydomonas helps to suspend the organelles in the cell.
Yes it is a cell.IT is single cellular protist.
It's the part of the chlamydomonas cell which detects light in order to photosynthesise. It's reflective and when the light reflects of the spot the cell is able to move towards it.
Chlamydomonas is more like a plant cell than an animal cell because 1.It has a starch grain
Chlamydomonas are single-celled organism with 2 apical flagella which are absorbed before cell division. Volvox are multicellular organisms that have 2 cell types. They are composed of about 2000 somatic cells that resemble Chlamydomonas and form a spherical shell that also moves the organism using the flagella. Inside the shell resides gonidia which can divide to form a new organism. Also, the somatic cells that resemble Chlamydomonas can not divide like Chlamydomonas, thus the importance of the gonidia.
photosynthesis; as in the breakdown of an average plant cell, you will see that the Chlamydomonas cell contains Clorophyl, the chemical used in plants to convert water & sunlight into glucose. The Chlamydomonas does the same thing, pretty much.
Chlamydomonas
Yes it is a cell.IT is single cellular protist.
It's the part of the chlamydomonas cell which detects light in order to photosynthesise. It's reflective and when the light reflects of the spot the cell is able to move towards it.
Chlamydomonas is more like a plant cell than an animal cell because 1.It has a starch grain
Chlamydomonas are single-celled organism with 2 apical flagella which are absorbed before cell division. Volvox are multicellular organisms that have 2 cell types. They are composed of about 2000 somatic cells that resemble Chlamydomonas and form a spherical shell that also moves the organism using the flagella. Inside the shell resides gonidia which can divide to form a new organism. Also, the somatic cells that resemble Chlamydomonas can not divide like Chlamydomonas, thus the importance of the gonidia.
photosynthesis; as in the breakdown of an average plant cell, you will see that the Chlamydomonas cell contains Clorophyl, the chemical used in plants to convert water & sunlight into glucose. The Chlamydomonas does the same thing, pretty much.
Lorraine Donnan has written: 'Control of cell division in Chlamydomonas'
Most species of Chlamydomonas are isogamous .
If chlamydomonas is kept in the dark, the number of starch grains in the cell will reduce
As there is a higher concentration of salt in the sea water, salt will diffuse into the cell and this will cause the cell to shrink.
Yes Chlamydomonas is a green unicellular alga.
Chlamydomonas has autotrophic mode of nutrition. It synthesis the organic foodmaterial in the presence of light by photosynthesis.