There are several parts that are like this. For instance, the lysosomes are the parts that break items down, and the ribosomes build things out of these broken up pieces, so ribosomes is probably what you want.
idont no find out yourself!
the live at diffrent places
Cells, like blood cells, produce more cells by cell division.
Yes, it is like the power house for the cell.
The synthesis site of ATP. This is the energy currency of the cell so the job of the mitochondria could be said to be the cell's battery.
When looking at a cell as a factory, the cell membrane is like the factory outer walls.
A nucleus with 46 chromosomes that undergoes mitosis will produce two daughter cells. The identical daughter cells will have 46 chromosomes each just like the parent cell.
Cells, like blood cells, produce more cells by cell division.
Just like a copier cells can copy the cell to make almost two identical daughter cells.
We are exactly like a cell. Our organisums do the same job as like in the city!!
Yes, it is like the power house for the cell.
The machines in the factory.
because it works like a factory and cells are what our bodies are made out of and they work and do a lot a different things to keep us alive.
The synthesis site of ATP. This is the energy currency of the cell so the job of the mitochondria could be said to be the cell's battery.
When looking at a cell as a factory, the cell membrane is like the factory outer walls.
No, not directly. The cell acts like a factory and what is produced by that cell is directed by the nucleus. The nucleus may direct the production of lipids or proteins but not actual chemicals.
Mitosis makes a diploid cell.It is to be always remembered that mitosis is an equational cell division and it can only take place in diploid cells.
Generally, the first body cell to encounter an antigen is a specific type of white blood cell called a macrophage. The macrophage partially digests the antigen and presents some of the antigens proteins on its surface. This is known as antigen presentation. Once the macrophage has presented the proteins, helper T cells recognize these proteins and search for a B cell that is able to produce the needed antibodies. The T cell chemically communicates with the B cell which, upon activation, undergoes a series of cell divisions. B plasma cells and B memory cells are produced. The B plasma cells produce antibodies needed to fight the antigen while the B memory cells circulate in the bloodstream and are available in case of future infection.
When looking at a cell as a factory, the cell membrane is like the factory outer walls.