It is normal for people of our times to wonder how collagen works in your body. After all, the skin we all have is made up of it and without collagen there would be no skin. When we are younger, our bodies produce collagen and elastin, which are what gives our skin its elasticity. As we age though, our bodies are unable to produce as much collagen and as a result our skin becomes saggy and wrinkles.
So, how does collagen work in your body? The answer to this question might surprise you – it is not a simple protein like you might think. Collagen and elastin are actually large collections of proteins that help form tissues but when they don’t function properly, the body can experience problems.
If you want to know how collagen works in your body? It is actually all about how the two types of protein interact with each other. You may have heard that the two kinds of proteins are similar in some ways, but they are very different in others. While both play important roles in the formation of healthy tissue, they work in different ways. Let’s take a look at how they work together.
Both collagen and elastin are produced by the body. They are both proteins that have the same function – they form a tissue. However, just like how two halves of an egg are the same, the proteins in collagen and elastin differ slightly. For example, collagen can be found in egg whites while elastin is found only in connective tissue. In a way, these two proteins work more like rubber bands than like actual proteins.
How does collagen work in your body? Basically, it is responsible for the creation of new skin cells, which is why we need it. But the molecules of collagen are rather large, so they are unable to pass through the skin’s pores. Instead, they stay on the surface of the skin where they are continuously broken down into smaller molecules by the skin’s natural killer cells (the special bacteria that fight off infection).
So, how does collagen work in your body to make new skin cells? The molecules of collagen are similar to those involved in the creation of new skin cells. They simply pass through the layers of skin intact, along with the dead skin cells. The molecules then start working on repairing the damage done to skin cells.
However, this does not mean that the level of collagen and elastin in your skin is enough to give you a firm, wrinkle-free skin. There are other ingredients that help your skin to produce more of these two proteins, and they are also called antioxidants. For example, vitamin E is an antioxidant that keeps damage to your skin from occurring. Just be careful to look for products that contain vitamin E as an ingredient, since some may be artificial (such as preservatives) or have artificial fragrances.
To learn more about how collagen works in your body, visit my site below. It will give you helpful information about how collagen treatments work and what to look out for when choosing them. With your own knowledge, you can easily find a product that will help smooth away all of the wrinkles on your skin.
Since both collagen and elastin are too large to pass through your skin intact, they are carried in your body by two different kinds of proteins. One kind of protein carries them through, while the other kind does the job. The keratin protein that your skin produces is primarily made up of this keratin protein. When you go on a collagen treatment, the keratin is broken down, mixed with other compounds, and extracted from your skin. So, while you do get your keratin back, you might not necessarily get all of the elastin and collagen that you had hoped for.
How does collagen work in your body? The answer to that question may surprise you, but the truth is that there is really no way to make collagen and elastin work together in your skin the way they would naturally. They are too molecularly different to work as a complete unit. You need to use a formula with Cynergy TK, Phytessence Wakame kelp extract, grape seed oil, and jojoba wax to get your skin the full dose of these amazing proteins that it needs to be as healthy as possible.