Questions and Answers:
1. What are Peptide Proteins and How are they used for healing?
Peptides are small, processed, and secreted peptides that
signal via membrane receptors and play critical roles in normal and pathological
physiology. The primary structure of peptides and proteins refers to the linear
number and order of the amino acids present. Peptides
have received prominence in molecular biology in recent times for several
reasons. Peptide chains longer than a few dozen amino acids are called proteins.
Mammalian cells are coated with carbohydrate structures. As
biological recognition elements, carbohydrate molecules mediate a host of
biological events including cell adhesion, immune system function, cellular
targeting as well as protein transport, stabilization and half-life.
Carbohydrate derivatized therapeutic molecules offer a unique and largely
untapped frontier for research, drug development and discovery.
2. Why is a Regulating Protein (RP) so valuable?
RP's communicate to the cellular membranes of Stem Cells in order to signal new
cell activity. Stem Cells (SC)
which are residing throughout the body are on the lookout for RP's. RP's are
special cellular messengers that can activate the SC's to initiate the healing
process. When an RP hits one of the cell
communication centers the dormant SC begins to activate the healing process.
3. Are RP's difficult to obtain?
RP's must be extracted from natural sources. This process is done at the
electron-microscope level. RP's cannot be successfully created in the chemistry
lab or synthetically to do the same thing that RP's really can do.
4. How do the RP's work at the cellular level?
Cellular communication works like a lock and key. The RP's have the key to
unlock the signals for specific cellular commands. Specific RP's activate the
undifferentiated cells to become the cell type that the RP designates.
5. What are Stem Cells and Adult Stem Cells?
Stem Cells in babies and children, or Adult Stem Cells known as Somatic Stem
Cells are
undifferentiated healing cells. That means that they
can become ANY TYPE of cell in the body! The stem cells lie dormant until they
are activated by a regulating protein. The Regulating Protein tells the stem
cells exactly what to do! Once activated, stem cells can continue replicating
healthy cells over and over again, which can change the balance of power in the
body in the number of healthy cells. Once activated, one stem cell can create
thousands more very easily!
6. Are RP's tissue specific?
Yes! When an RP is introduced into
the body it will migrate through the body until it finds the stem cells. It then
connects to the SC membrane and activates the cell. Once activated the new cells
migrate to their new assignment or area of concern. At that point,
undifferentiated adult stem cells have become activated to begin the exact
tissue type needed so that the healing process can begin.
7. What is the Difference between Stem Cell Therapy and RP Therapy?
Stem Cells or Somatic Stem Cells can lie dormant in the tissues for years until
they are activated and can then begin their healing process. Although stem cells
are in the body, they lie dormant, they need a regulating protein to activate
them. Stem Cell therapy takes undifferentiated cells and creates them in a Petri
dish then introduces these cells into the body. RP Cellular Activation Therapy
sends in the signal messengers in a micro-dose to activate the dormant Stem
Cells located throughout the body.
