This is default featured slide 1 title
This is default featured slide 2 title
This is default featured slide 3 title
This is default featured slide 4 title
This is default featured slide 5 title

Can Everyone Have a Youthful Looking Skin?

Human Genome

James Watson, Francis Crick and Rosalind Franklin found the structure of DNA in 1953, the field of hereditary qualities has been progressing at an astounding rate. By 2003, the whole human genome had been sequenced. From this headway, we now realize that people have somewhere close to 20,000 and 30,000 qualities. Around one tenth of those qualities are included in the control of articulation of the rest and quality expression designs change as we age. Qualities that were communicated at low rates amid youth may increment in their demeanor as we age, while others diminish their rate of expression. For instance, we have more youthful smoother looking skin when we are youthful (low rate wrinkles). Wrinkles and colors increments when we are maturing (high rate of wrinkles).

Henceforth, by seeing how quality expression changes with age and how to remotely impact it through quality expression tweak, human has a radical better approach for taking a gander at maturing.

Gene Expression Modulation

Gene expression modulation means to reset gene expression toward youthful expression. For example, youthful skin appearance. .

If a gene is up-regulated during the aging response, modulation adjusts expression of that gene downward, towards more youthful expression levels.

If a gene is down-regulated during the aging response, modulation increases the expression of that gene toward more youthful levels.

Source of Aging

Based on our nowadays science and discovery, scientists are able to identify critical markers called Youth Gene Clusters, which are functional groups of genes that regulate how we appear to age. Scientists understand how to reset these Youth Gene Clusters to their youthful patterns of activity.

Identifying the Source

The scientific community has access to the Human Genome and they give us the ability to interpret it in a meaningful way. In a recent scientific discovery, scientists have identified key groups or functional clusters of genes-Youth Gene Clusters-that help influence how we age. By finding and identifying these functional groups of genes is the key to addressing aging at the source.

The expression of these genes is responsible for the signs of aging on our skin. Through science and new technology, we have the ability to reset these genes to behave more youthfully, helping to restore a more youthful balance in the skin.

Resetting the Balance

Once we identify these Youth Gene Clusters, it’s important to reset them to reflect a more youthful skin profile. Resetting Youth Gene Clusters is a subtle balancing process-it’s not as simple as turning them on and off. Some genes within the cluster may need to be turned up while others may need to be turned down. Youth Gene Clusters can be reset to create a youthful balance within each cluster-returning them to their youthful patterns of activity.