When a cell divides it becomes two distinct parts called daughter cells and a single cell called a pro enzyme. The cell cycle, or cell division, occurs in four distinct stages: The pro enzyme division of the cell cycle; the division of the daughter cells; the division of the single cell; and the division of the mitotic pool. The first division of cells is called the budding of the daughter cells. The division of cells into simple cell discs and then into various daughter cell types are calling cell division.
There are four distinct cell cycle stages: The prophase, the anagen phase, the gynostemma stage, and the somatic cell cycle. The four stages are independent of one another but dependent upon one another. During the anagen phase the somatic cells divide and put all of the cells in the body together to form a new adult cell. The mitosis stage is when the somatic cells stop dividing and the new generation of cells begins. At the end of the cell cycle the cell ceases to divide and it is said to be in its resting state.
So how does one determine if a cell is in its interphase or not? There are several ways this can be done. You could liken the cell cycle to a season in a life cycle. At each season the conditions for division are perfect but the outcome is not what is desired. In each interseason the exact opposite is true, the conditions for division are poor but the outcome is ideal.
Lets look at one of the most popular movies of all time, Star Wars. In this movie there were three different classes of beings that made up the Star Wars universe. First there were the Republic, then the Imperials and finally the Jedi. There were several different species within each class. When it came to the cell life cycles for these three main groups of organisms there was a major difference.
It was found that the cells of the Republic became much more diverse at the beginning of the second intermission than the others. This was the result of the growth of the Jedi Order throughout their adolescence into adulthood and then their growth into the Dark Ages. As this happened the chromosomes of the cell cycle became very varied and the resulting offspring had the exact same traits as one another but were much better prepared to face the next challenge on their way to becoming the next Jedi.
The next step up in cell evolution were the Dark Age Jedi that fought against the Galactic Republic during the waning years of their rule. They were heavily outnumbered and the Republic was able to defeat them. It was found that the mitotic stage of the cell life cycle for these creatures were much more similar to humans. The reason for this was because humans were not yet well differentiated during this time so they all looked the same to outsiders. This is actually a good thing because it allowed the Jedi to fight and win against their enemies.
Finally as the species mature, they reached the apocrine stage of their life. Here the cell chromosomes separated and the different types of cell began to reproduce. This marked the division of both the sexes from the single sex that had already been produced in the mitosis stage. As this division continued, both the male and female genders reached the end of their respective prophylaxis and then maturation. At this point both genders began to reproduce again as a part of their natural cell generation process.
In order for us to be able to understand how this actually worked we need to first look at what happens during the mitosis, apocrine, and telophase stages. When the cell division process first started, everything began in the correct order as the right chromosomes were put into the correct cell division process. Then as the cells reproduced, the correct cells with the correct chromosomes began to reproduce. Then the split between the genders happened and the new population began to reproduce. Only when telophase did the split occur did things get out of order as the incorrect cells were put into the wrong division process.