According to Stanford Report that was published nearly sixteen years ago by Amy Adams, there’s a close connection between the fate of the body cells and what humans go through in real life. For example, almost all children are born with equal abilities that can enable them hold any position in life, including becoming a teacher, doctors, dancers, pilots, engineers and other renowned professions around the continent.
Surprisingly, at a certain stage in their life, lots of things change limiting their professional options and that’s why you’ll see them taking different career paths. After spending plenty of time in medicine class, there’s nobody that would wish to turn back and become a political scientist. And this is the same process that your body cells go through to be what they’re today.
It’s worth noting that the first cell of the body that’s known as stem cells can form any type of cell in your body. Ideally, when DNA is in the process of developing, biologists have discovered that it accumulates molecular changes that serve as communication networks with the sole responsibility of informing the cell about its ultimate function. It’s important to remember that proteins are critical in determining the behavior changes of the cells. For instance, your cells have the ability of forming large particles by joining the smallest molecules that are commonly known as amino acids.
In many cells, proteins are building blocks that are responsible for doing a number of tasks, including activating chemical reactions, providing signal to several cells together with moving substrate within your cell. Additionally, scientists have discovered that almost all cells don’t have ideas on a kind of task they are expected to do. Since cells contain protein, there’s a general agreement that protein molecules have a role in determining what will happen to the cells. This was supported by the molecular principles that are found in Chemistry together with Biology.
Although it can be more challenging when understanding the basics of cell formations and how it becomes. Compelling evidence shows that most cellular processes happen because of the protein molecules. It’s worth stating here that lots of processes within the cells happen at atomic levels. A good example for this is when protein molecules are modified whenever chemical reactions occur in the cells. Whenever there are numerous molecular reactions in your cell, they’re accompanied by other process such as mitosis that happen on large-scale.
When assembling molecules for proteins, it’s the work of DNA to specify the types of substrate should make up this equally important compound as well as providing the order that needs to be followed as it’s being assembled. In simple terms, DNA is the instructional material that determines that how proteins should be manufactured in your cells. Think of it as a blueprint for how proteins should be made. Since protein is what makes a cell be what it’s now, it comes with a different structural composition when compared to DNA.
Similar attempts were done by Rudolph Jaenisch MD who tried to clone new embryos from adult animal cells. This has helped in understanding not only how cloning work but also how numerous processes that will change cells’ form. In his research, Rudolph Jaenisch discovered that cloning can make adult cells to go back to their previous state. For better understanding, when you mix the nucleus of a grown cell with an egg, an egg will begin a differentiation process as if it had been fertilized. As the cells continue to grow, their DNAs resemble that of the donor cells. On the negative side, the study failed to bring much-anticipated success because DNA from a grown cell can rarely regress to the initial state without learning.
Another challenge was the fact that embryos that were cloned cannot produce proteins’ compound that are similar to the grown up cells. Although cloned embryos produce protein’s inappropriately, it’s far better that those cloned from adult tissues. By and large, a good percentage of cells know what to become with the assistance from the protein’s compound that’s seen as a building block for the cells. As opposed to popular opinion, the processes that are involved in designing a specific type of cells happen without the cell’s knowledge since most compounds involved are nonliving.