By having more codons to code a particular amino acids, it makes it easier to produce in the cell and need to be supplemented from food(essential amino acids are normally not synthesized in our cell).
is it that the turgid cell has more red pigment than plasmolyzed cell
An organism with only one cell is called a unicellular so an organism with more than one cell is called a multicellular meaning more than one cell
Multicellular means having more than one cell. There are no multicellular cells, but there are multicellular organisms, like us humans.
The cell will be very turgid and stiff.
A plant cell has a cell wall.
A plant cell has a cell wall.
more specialized to do different jobs.
it allows it to grow bigger in size and allows specialization
The word multicellular is an adjective, meaning "having more than one cell."
The biggest advantage of having more than one cell is delegating tasks to different cells. In humans, certain cells are focused solely on respiration, while others are focused on production of fluids. In a single-celled organism, the whole of the cell has to be designed to allow all the important things the cell needs.
A wave with high energy is characterized by having a high amplitude and frequency, which means it carries a lot of energy per unit time. This type of wave can be more destructive and have a greater impact than waves with lower energy levels.
The likely word is multicellular (having more than one cell).
By having more codons to code a particular amino acids, it makes it easier to produce in the cell and need to be supplemented from food(essential amino acids are normally not synthesized in our cell).
Unicellular means having single cell. Eg.-bacteria,yeast,etc and multicellular means having more than one cell. Eg.-animals,human beings,etc.....
There are more than one kind of cell. If it is an animal or bacteria cell, than the cell membrane separates it. If it is a plant cell, than the cell wall separates it. go to www.cellsalive.com for more on that
Having more than is needed= surplus, excess and superfluent