Biomedical Engineering Reference
In-Depth Information
Appendix D
of Cellular Replication
This paper presents a model for cellular replication based on the
biophysics of self-field theory (SFT) with its photon chemistry, a
recently discovered level of organisation below atomic chemistry
resulting from the non-zero mass of the photon. Like bubbles that
form into foam, cells occur in large populations known as colonies
that cooperate amongst themselves to achieve replication. Overall
(1) the cells interact via cell-cell signalling of electric (E) and
magnetic(H)fields(termed'biophotons'),and(2)thechromosomes
emit biophotons of specific frequencies within the ultraviolet (UV)
range related to the continuously changing molecular state of
the chromosomes as replication proceeds. The various states of
the chromosomes are controlled by their photonic states. The
states result from cell-cell interactions of first electric and then
magnetic fields arising from the diffusion of dipolar proteins within
the plasma membranes of various sectors of the colony. These
two processes couple, inducing metaphase and anaphase. Dipolar
proteins diffuse within the membrane of cells in response to
intra- or extracellular endogenous or exogenous E and H fields.
These diffusive processes involve two feedback loops, (1) electrical
feedback between membrane proteins of a fertilised cell and those
of surrounding cells in a north-south orientation and (2) magnetic
feedback between biophotons emitted by chromosomes and pro-
teins diffusing within the plasma membranes of neighbouring cells
