Dan
Eden for viewzone.com
I get lots of
suggestions for stories, and I really appreciate them. But some of them are too
good to be true. An example of this was a story of a giant human skeleton --
maybe 40 feet tall -- that was discovered by a Russian archaeological team. The
story had photos and links accompanying it and looked promising. But when the
links were researched they went in a circle. Each link used the other link as
the source. Finally the elements of the photos turned up and we recognized a
good Photoshop job had fooled everyone.
I had this same
experience this week when I was sent an article where a Russian (again)
scientist, Pjotr Garjajev, had managed to intercept communication from a DNA
molecule in the form of ultraviolet photons -- light! What's more, he claimed
to have captured this communication from one organism (a frog embryo) with a
laser beam and then transmitted it to another organisms DNA (a salamander
embryo), causing the latter embryo to develop into a frog!
But this was just
the beginning.
Dr. Garjajev claims
that this communication is not something that happens only inside the
individual cells or between one cell and another. He claims organisms use this
"light" to "talk" to other organisms and suggested that
this could explain telepathy and ESP. It was like human beings already had
their own wireless internet based on our DNA. Wow!
I
tried to find a scientific journal that had this experiment. All I could find
were blogs and other websites that carried the same story, word for word,
without any references. That is until I stumbled on the work of Fritz.
Then everything I had just read seemed very plausible.
Then everything I had just read seemed very plausible.
Fritz-Albert Popp
thought he had discovered a cure for cancer. I'm not convinced that he didn't.
It was 1970, and
Popp, a theoretical biophysicist at the University of Marburg in Germany, had
been teaching radiology -- the interaction of electromagnetic (EM) radiation on
biological systems. Popp was too early to worry about things like cellphones
and microwave towers which are now commonly linked with cancers and leukemia.
His world was much smaller.
He'd been examining
two almost identical molecules: benzo[a]pyrene, a polycyclic hydrocarbon known
to be one of the most lethal carcinogens to humans, and its twin (save for a
tiny alteration in its molecular makeup), benzo[e]pyrene. He had illuminated
both molecules with ultraviolet (UV) light in an attempt to find exactly what
made these two almost identical molecules so different.
Why Ultra-violet light?
Popp chose to work
specifically with UV light because of the experiments of a Russian biologist
named Alexander Gurwitsch who, while working with onions in 1923, discovered
that roots could stimulate a neighboring plant's roots if the two adjacent
plants were in quartz glass pots but not if they were in silicon glass pots.
The only difference being that the silicon filtered UV wavelengths of light
while the quartz did not. Gurwitsch theorized that onion roots could
communicate with each other by ultraviolet light.
[Above] All
vibrations of energy are part of the electro-magnetic spectrum. These include
electrical energy, heat, sound, light, radio waves and radioactive waves. UV
light is merely a small portion of the spectrum of EM energy with a very short
wavelength.
What Popp
discovered was that benzo[a]pyrene (the cancer producing molecule) absorbed the
UV light, then re-emitted it at a completely different frequency -- it was a
light "scrambler". The benzo[e]pyrene (harmless to humans), allowed
the UV light to pass through it unaltered.
Popp was puzzled by
this difference, and continued to experiment with UV light and other compounds.
He performed his test on 37 different chemicals, some cancer-causing, some not.
After a while, he was able to predict which substances could cause cancer. In
every instance, the compounds that were carcinogenic took the UV light,
absorbed it and changed or scrambled the frequency.
There was another
odd property of these compounds: each of the carcinogens reacted only to light
at a specific frequency -- 380 nm (nanometres) in the ultra-violet range. Popp
kept wondering why a cancer-causing substance would be a light scrambler. He
began reading the scientific literature specifically about human biological
reactions, and came across information about a phenomenon called 'photorepair'.
Photorepair
It is well known
from biological laboratory experiments that if you blast a cell with UV light
so that 99 per cent of the cell, including its DNA, is destroyed, you can
almost entirely repair the damage in a single day just by illuminating the cell
with the same wavelength at a much weaker intensity. To this day, scientists
don't understand this phenomenon, called photorepair, but no one has
disputed it.
Popp
also knew that patients with xeroderma pigmentosum eventually die of skin cancer because their photorepair system can't
repair solar damage. He was also struck by the fact that photorepair
works most efficiently at 380 nm -- the same frequency that the cancer-causing
compounds react to and scramble.
This was where Popp
made his logical leap. If the carcinogens only react to this frequency, it must
somehow be linked to photorepair. If so, this would mean that there must
be some kind of light in the body responsible for photorepair. A
compound must cause cancer because it permanently blocks this light and
scrambles it, so photorepair can't work anymore. It seemed logical, but
was it true?
Light inside the body
Popp was freaked
out by this. He wrote about it in a paper and a prestigious medical journal
agreed to publish it.
Not long after
that, Popp was approached by a student named Bernhard Ruth, who asked Popp to
supervise his work for his doctoral dissertation. Popp told Ruth he was
prepared to do so if the student could show that light was emanating from the
human body.
This meeting was
fortuitous for Popp because Ruth happened to be an excellent experimental
physicist. Ruth thought the idea was ridiculous, and immediately set to work
building equipment to prove Popp's hypothesis wrong.
Within two years,
Ruth had constructed a machine resembling a big X-ray detector which used a
photomultiplier to count light, photon by photon. Even today, it is still one
of the best pieces of equipment in the field. The machine had to be highly sensitive
because it had to measure what Popp assumed would be extremely weak emissions.
In
an old documentary film taken in the laboratory at the International Institute
of Biophysics, Dr. Popp opens a chamber about the size of a bread box. He
places a fresh cutting from a plant and a wooden match in a plastic container
inside the dark chamber and closed the light proof door. Immediately he
switches on the photomultiplyer and the image shows up on a computer screen.
The match stick is black while the green, glowing silhouette of the leaves is
clearly visible.
Dr. Popp
exclaims, "We now know, today, that man is essentially a being of
light."
In 1976, they were ready for their first test with cucumber seedlings. The photomultiplier showed that photons, or light waves, of a surprisingly high intensity were being emitted from the seedlings. In case the light had to do with an effect of photosynthesis, they decided that their next test -- with potatoes -- would be to grow the seedling plants in the dark. This time, when the seedlings were placed in the photomultiplier, they registered an even higher intensity of light. What's more, the photons in the living systems they'd examined were more coherent than anything they'd ever seen.
Popp began thinking
about light in nature. Light was present in plants and was used during
photosynthesis. When we eat plant foods, he thought, it must be that we take up
the photons and store them.
When we consume
broccoli, for example, and digest it, it is metabolised into carbon dioxide
(CO2) and water, plus the light stored from the sun and photosynthesis. We
extract the CO2 and eliminate the water, but the light, an EM wave, must be
stored. When taken in by the body, the energy of these photons dissipates and
becomes distributed over the entire spectrum of EM frequencies, from the lowest
to the highest.
This energy is the
driving force for all the molecules in our body. Before any chemical reaction
can occur, at least one electron must be activated by a photon with a certain
wavelength and enough energy.
The biochemist and
Nobel Prize winner Lehninger mentions in his textbook that some reactions in
the living cell happen quite a lot faster than what corresponds to 37C
temperature. The explanation seems to be that the body purposely directs
chemical reactions by means of electromagnetic vibrations (biophotons).
Photons (Light) control everything in the cell
Photons switch on the body's processes like an orchestra conductor bringing each individual instrument into the collective sound. At different frequencies, they perform different functions. Popp found that molecules in the cells responded to certain frequencies, and that a range of vibrations from the photons caused a variety of frequencies in other molecules of the body.
This theory has
been supported by Dr. Veljko Veljkovic who now heads the Center for
Multidisciplinary Research and Engineering, Institute of Nuclear Sciences
Vinca. She dared to ask the question that has forever puzzled cellular
biologists: What is it that enabled the tens of thousands of different kinds of
molecules in the organism to recognize their specific targets? Living processes
depend on selective interactions between particular molecules, and that is true
for basic metabolism to the subtlest nuances of emotion. It's like trying to
find a friend in a very big very crowded ballroom in the dark.
The conventional
picture of a cell even now is that of a bag of molecules dissolved in water.
And through bumping into one another by chance -- random collisions -- those
molecules that have complementary shapes lock onto to each other so the
appropriate biochemical reactions can take place. This 'lock and key' model has
been refined to a more flexible (and realistic) 'induced fit' hypothesis that
allows each molecule to change shape slightly to fit the other better after
they get in touch, but the main idea remains the same.
It is supposed to
explain how enzymes can recognize their respective substrates, how antibodies
in the immune system can grab onto specific foreign invaders and disarm them.
By extension, that's how proteins can 'dock' with different partner proteins,
or latch onto specific nucleic acids to control gene expression, or assemble
into ribosomes for translating proteins, or other multi-molecular complexes
that modify the genetic messages in various ways. But with thousands -- or even
hundreds of thousands of reactions happening each second in just one cell this
seems pushing the "mechanical" concept a bit too far.
What has been
proposed is that somehow each molecule sends out a unique electromagnetic field
that can "sense" the field of the complimentary molecule. It's as if
there is a "dance" in the cellular medium and the molecules move to
the rythm. The music is supplied by the biophoton.
"Veljkovic
and Cosic proposed that molecular interactions are electrical in nature, and
they take place over distances that are large compared with the size of
molecules. Cosic later introduced the idea of dynamic electromagnetic field
interactions, that molecules recognize their particular targets and vice versa
by electromagnetic resonance. In other words, the molecules send out specific
frequencies of electromagnetic waves which not only enable them to 'see' and
'hear' each other, as both photon and phonon modes exist for electromagnetic
waves, but also to influence each other at a distance and become ineluctably
drawn to each other if vibrating out of phase (in a complementary way)." -- The Real Bioinformatics Revolution: Proteins
and Nucleic Acids Singing to One Another? (Paper available at
report@i-sis.org.uk)
"There are about 100,000 chemical reactions happening in every cell each second. The chemical reaction can only happen if the molecule which is reacting is excited by a photon... Once the photon has excited a reaction it returns to the field and is available for more reactions... We are swimming in an ocean of light."
These 'biophoton
emission', as Popp called them, provided an ideal communication system for the
transfer of information to many cells across the organism. But the single most
important question remained: where was the light coming from?
A particularly
gifted student talked him into another experiment. It is known that when
ethidium bromide is applied to samples of DNA, it insinuates itself in between
the base pairs of the double helix, causing DNA to unwind. The student
suggested that, after applying the chemical, they measure the light coming from
the sample. Popp found that the greater the concentration of ethidium, the more
the DNA unravelled, but also the stronger the intensity of light. Conversely,
the less he used, the less light was emitted.
He also found that
DNA could send out a wide range of frequencies, some of which seemed to be
linked to certain functions. If DNA stored this light, it would naturally emit
more light on being unzipped.
These and other
studies proved to Popp that one of the most essential sources of light and
biophoton emissions was DNA. DNA was like the master tuning fork of the body.
It would strike a particular frequency and certain molecules would follow. It
was also possible, he realised, that he had stumbled upon the missing link in
current DNA theory that could account for perhaps the greatest miracle of all
in human biology -- how a single cell can turn into a fully formed human being.
How cells "talk" to eachother
When
you get a cut or scratch on your skin, the cells that are injured somehow
signal the surrounding healthy cells to begin reproducing copies of themselves
to fill in and mend the opening. When the skin is back to normal, a signal is
sent to the cells to tell them to stop reproducing. Scientists have wondered
exactly how this works.
With biophoton
emissions, Popp believed he had an answer to this question. This phenomenon of
coordination and communication could only occur in a holistic system with one
central orchestrator. Popp showed in his experiments that these weak light
emissions were sufficient to orchestrate the body's repairs. The emissions had
to be low intensity because these communications took place on a very small,
intracellular, quantum level. Higher intensities would have an effect only in
the world of the large and would create too much "noise" to be
effective.
The number of
photons emitted seemed to be linked to the organism's position on the
evolutionary scale -- the more complex the organism, the fewer photons were
emitted. Rudimentary animals and plants tended to emit 100 photons/cm2/sec at a
wavelength of 200-800 nm, corresponding to a very-high-frequency EM wave well
within the visible range, whereas humans emit only 10 photons/cm2/sec at the
same frequency.
In one series of
studies, Popp had one of his assistants -- a 27-year-old healthy young woman --
sit in the room every day for nine months while he took photon readings of a
small area of her hand and forehead. Popp then analysed the data and
discovered, to his surprise, that the light emissions followed certain set
patterns -- biological rhythms at 7, 14, 32, 80 and 270 days -- and similarities
were also noted by day or night, by week and by month, as though the body were
following the world's biorhythms as well as its own.
Cancer is a loss of coherent light
So far, Popp had
studied only healthy individuals and found an exquisite coherence at the
quantum level. But what kind of light is present in those who are ill?
Popp tried out his
machine on a series of cancer patients. In every instance, these patients had
lost those natural periodic rhythms as well as their coherence. The lines of
internal communication were scrambled. They had lost their connection with the
world. In effect, their light was going out.
Just the opposite
is seen with multiple sclerosis: MS is a state of too much order. Patients with
this disease are taking in too much light, thereby inhibiting their cells'
ability to do their job. Too much cooperative harmony prevented flexibility and
individuality -- like too many soldiers marching in step as they cross a
bridge, causing it to collapse. Perfect coherence is an optimal state between
chaos and order. With too much cooperation, it is as though individual members
of the orchestra are no longer able to improvise. In effect, MS patients are
drowning in light.
Popp also examined
the effects of stress. In a stressed state, the rate of biophoton emissions
goes up -- a defence mechanism designed to restore the patient's equilibrium.
Popp now recognized
that what he'd been experimenting with was even more than a cure for cancer or
Gestaltbildung. Here was a model which provided a better explanation than the
current neo-Darwinist theory for how all living things evolve on the planet.
Rather than a system of fortunate but ultimately random error, if DNA uses
frequencies of every variety as an information tool, this suggests instead a
feedback system of perfect communication through waves that encode and transfer
information.
"Good vibes" means coherent light
Popp came to
realize that light in the body might even hold the key to health and illness.
In one experiment, he compared the light from free-range hens' eggs with that
from penned-in, caged hens. The photons in the former were far more coherent
than those in the latter.
Popp went on to use
biophoton emissions as a tool for measuring the quality of food. The healthiest
food had the lowest and most coherent intensity of light. Any disturbance in
the system increased the production of photons. Health was a state of perfect
subatomic communication, and ill health was a state of communication breakdown.
We are ill when our waves are out of synch.
Bio Photon emission
detection is currently used commercially in the food industry. Agricultural
science is looking at Bio-photon emissions to determine plant health for the
purposes of food quality control. Biophotonen is a company working for
development and practical applications of biophotonics. The work is based on a
variety of patents. "Biophotonen" solves practical problems of food
industry, environmental industry, cosmetics, etc.
Off-shoots of
Dr. Popp's discovery
In the 1970s Dr.
Veljko Veljkovic, who now heads the Center for Multidisciplinary Research and
Engineering, Institute of Nuclear Sciences Vinca, also discovered a method
for predicting which of the hundreds of new chemicals made by the rapidly
expanding chemical industry were carcinogenic, by calculating certain
electronic, biophotonic properties of the molecules. This method was soon
found equally applicable to predicting organic chemicals that were mutagenic,
or toxic, and even those that were antibiotic, or cytostatic (anticancer).
Veljkovic's institute in Belgrade has since teamed up with other European
laboratories to apply the same method to drug discovery, especially against
AIDS disease.
Biophoton Therapy
Biophoton therapy
is the application of light to particular areas of the skin for healing
purposes. The light, or photons, that are emitted by these units are absorbed
by the skin's photoreceptors and then travel through the body's nervous
system to the brain, where they help regulate what is referred to as our
human bio-energy. By stimulating certain areas of the body with specific
quantities of light, biophoton therapy can help reduce pain as well as aid in
various healing processes throughout the body.
The theory behind
biophoton therapy is based on the work of Dr. Franz Morell and has been
expanded by the work of Doctors L.C. Vincent and F.A. Popp, who theorized
that light can affect the electromagnetic oscillation, or waves of the body
and regulate enzyme activity.
|
It took some 25 years for Popp to gather converts from among the scientific community. Slowly, a few select scientists around the globe began to consider that the body's communication system might be a complex network of resonance and frequency. Eventually, they would form the International Institute of Biophysics, composed of 15 groups of scientists from international centres around the world.
Popp and his new
colleagues went on to study the light emissions from several organisms of the
same species, first in an experiment with a type of water flea of the genus
Daphnia. What they found was nothing short of astonishing. Tests with a
photomultiplier showed that the water fleas were sucking up the light emitted
from each other. Popp tried the same experiment on small fish and got the same
result. According to his photomultiplier, sunflowers were like biological
vacuum cleaners, moving in the direction of the most solar photons to hoover
them up. Even bacteria swallowed photons from the media they were put in.
Communication between organisms
Thus,
it dawned on Popp that these emissions had a purpose outside of the body. Wave
resonance wasn't only being used to communicate inside the body, but between
living things as well. Two healthy beings engaged in 'photon sucking', as he
called it, by exchanging photons. Popp realised that this exchange might unlock
the secret of some of the animal kingdom's most persistent conundrums: how
schools of fish or flocks of birds create perfect and instantaneous coordination.
Many experiments on the homing ability of animals demonstrate that it has
nothing to do with following habitual trails, scents or even the EM fields of
the earth, but rather some form of silent communication that acts like an
invisible rubber band, even when the animals are separated by miles of
distance.
For humans, there
was another possibility. If we could take in the photons of other living
things, we might also be able to use the information from them to correct our
own light if it went awry.
Death Transmission via the Paranormal "Light" Channel
Some extremely
interesting experiments were performed by V.P. Kaznacheyev et al regarding
the paranormal transmission of death by light inter-organism communication.
Briefly, two
groups of cells were selected from the same cell culture and one sample
placed on each side of a window joining two environmentally shielded rooms.
The cell cultures were in quartz containers. One cell culture was used as the
initiation sample and was subjected to a deadly mechanism - virus, germ,
chemical poison, irradiation, ultraviolet rays, etc. The second cell culture
was observed, to ascertain any transmitted effects from the culture sample
being killed.
When the window
was made of ordinary glass, the second sample remained alive and healthy.
When the window was made of quartz, the second sample sickened and died with
the same symptoms as the primary sample.
The experiments
were done in darkness, and over 5,000 were reported by Kaznacheyev and his
colleagues. The onset of induced complementary sickness and death in the
second culture followed a reasonable time -- say two to four hours -- behind
sickness and death in the primary culture.
The major
transmission difference between window glass and quartz is that quartz
transmits both ultraviolet and infrared well, while glass is relatively
opaque to ultraviolet and infrared. Both quartz and glass transmit visible
light. Thus glass is a suppressor of the paranormal channel, while quartz is
not.
In 1950, Western
researchers found that cells could be killed in darkness with ultraviolet
radiation, kept shielded from visible light for twenty-four hours or longer,
and then if radiated with visible light the cells would start reviving by hundreds
of thousands even though they had been clinically dead.
Specifically,
every cell emits mitogenetic radiation in the ultraviolet range twice: when
it is born and when it dies. The UV photon emitted at death contains the
exact virtual state pattern of the condition of the cell at death. The
healthy cells are bombarded with death messages from those that are dying,
and this diffuses the death pattern throughout the healthy culture,
eventually kindling into the same death pattern there.
[V.P. Kaznacheyev
et al, "Distant Intercellular Interactions in a System of Two Tissue
Cultures," Psychoenergetic Systems, Vol. 1, No. 3, March 1976, pp
141-142.]
|
Popp
had begun experimenting with such an idea. If cancer-causing chemicals could
alter the body's biophoton emissions, then it might be that other substances
could reintroduce better communication. Popp wondered whether certain plant
extracts could change the character of the biophoton emissions from cancer
cells to make them communicate again with the rest of the body. He began
experimenting with a number of non-toxic substances purported to be successful
in treating cancer. In all but one instance, these substances only increased
the photons from tumour cells, making them even more deadly to the body.
The single success
story was mistletoe, which appeared to help the body to 'resocialise' the
photon emissions of tumour cells back to normal. In one of numerous cases, Popp
came across a woman in her thirties who had breast and vaginal cancer. Popp
found a mistletoe remedy that created coherence in her cancer tissue samples.
With the agreement of her doctor, the woman stopped any treatment other than
the mistletoe extract and, after a year, all her laboratory tests were
virtually back to normal.
To Popp, homoeopathy was another example of
photon sucking. He had begun to think of it as a 'resonance absorber'.
Homoeopathy rests upon the notion that like is treated with like. A plant
extract that at full strength can cause hives in the body is used in an
extremely diluted form to get rid of it. If a rogue frequency in the body can
produce certain symptoms, it follows that a high dilution of a substance which
can produce the same symptoms would also carry that frequency. Like a resonating
tuning fork, a suitable homoeopathic solution might attract and then absorb the
abnormal oscillations, allowing the body to return to normal health.
Popp thought that
electro-magnetic molecular signalling might even explain acupuncture. According
to Traditional Chinese Medicine, the human body has a system of meridians,
running deep in the tissues, through which flows an invisible energy the
Chinese call ch'i, or the life force. The ch'i supposedly enters the body
through these acupuncture points and flows to deeper organ structures (which do
not correspond to those in Western biology), providing energy (or the life
force). Illness occurs when this energy is blocked at any point along the
pathways. According to Popp, the meridian system transmits specific energy
waves to specific zones of the body.
Research has shown
that many of the acupuncture points have a dramatically reduced electrical
resistance compared with the surrounding skin (10 kilo-ohms and 3 mega-ohms,
respectively). Orthopaedic surgeon Dr Robert Becker, who has done a great deal
of research on EM fields in the body, designed a special electrode recording
device that rolls along the body like a pizza cutter. His many studies have
shown electrical charges on every one of the people tested corresponding to the
Chinese meridian points.
[Extracted from The
Field: The Quest for the Secret Force of the Universe, by Lynne McTaggart]
Light in human consciousness
I mention this
latest work for those who may wish to explore the boundaries of photon research
and theory. In a ground-breaking paper with the lengthy title of
"Orchestrated Objective Reduction of Quantum Coherence in Brain
Microtubules: The 'Orch OR' Model for Consciousness" by Stuart Hameroff
and Roger Penrose, the brain is described as a quantum computer whose main
architecture are the cytoskeletal microtubules and other structures within each
of the brain's neurons.
If you examine a
neuron, you will see that there are many hollow tubes surrounding the axon.
These microtubules have been thought of as a kind of scaffold to support
the nerve fiber. But they are now getting a second look as the possible
architecture of our consciousness.
The particular
characteristics of microtubules that make them suitable for quantum effects
include their crystal-like lattice structure, hollow inner core, organization
of cell function and capacity for information processing. According to the
researchers, their size appears perfectly designed to transmit photons in the
UV range.
[Above:]
Schematic of central region of neuron (distal axon and dendrites not shown),
showing parallel arrayed microtubules interconnected by MAPs. Microtubules in
axons are lengthy and continuous, whereas in dendrites they are interrupted and
of mixed polarity. Linking proteins connect microtubules to membrane proteins
including receptors on dendritic spines.
"Traditionally
viewed as the cell's 'bone-like' scaffolding, microtubules and other
cytoskeletal structures now appear to fill communicative and information
processing roles. Theoretical models suggest how conformational states of
tubulins within microtubule lattices can interact with neighboring tubulins to
represent, propagate and process information as in molecular-level 'cellular
automata' computing systems." -- Hameroff and Watt, 1982; Rasmussen et al, 1990; Hameroff et al, 1992
In their paper,
Hameroff and Penrose present a model linking microtubules to consciousness
using quantum theory. In their model, quantum coherence emerges, and is
isolated in brain microtubules until a threshold related to quantum gravity is
reached. The resultant self-collapse creates an instantaneous "now"
event. Sequences of such events create a flow of time, and consciousness.
Don't worry if you
can't understand this. It's heavy reading but it does show that the existence
of internal photons -- inner light -- is very real and is the basis of
virtually all human cellular and systemic function.
Could the Russian
scientists really have changed a salamander embryo into a frog with lasers? I
prefer to wait until the actual details of the experiment are published and
reviewed -- but I am much less apt to dismiss this as fiction now that I know
about our inner lights.
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