The ability
of the Aulterra's Neutralizer to reverse the harmful effects
of electromagnetic fields generated from cell phones on human
DNA
Maria Syldona, Ph.D.
Quantum Biology Research Labs
PO Box 157, Northport, NY 11768
Summary
Electromagnetic
(EM) fields from cell phones were shown to have a statistically
significant detrimental effect on the recovery of human DNA
after heat shock. This effect was observed with cell phones
on standby mode when they are emitting relatively weak EM fields
and after only minutes of EM field exposure. The detrimental
effect of EM energy from cell phones was completely neutralized
when Aulterra's Neutralizer was attached to the back of the
cell phone. In the presence of the Neutralizer there was 100%
recovery of the DNA, as if no cell phone was present. This neutralizing
effect appears to prevent initial damage to DNA immediately
following EM field exposure.
The
Experimental Approach
In these
experiments the biological system being influenced by the EM
fields from cell phones is purified human DNA suspended in a
natural ionic environment. Previous studies demonstrated that
the structure of DNA is sensitive to classical (Semin, 1995)
and non-classical (Rein, 1995) EM fields, thereby indicating
that energy fields can influence the winding and unwinding of
the two strands which make up the DNA helix and define its conformation.
Utilizing
the well known fact that heat shock causes DNA strands to unwind
(Marmur, 1961), the Quantum Biology Research Lab developed a
sensitive assay which involves measuring the kinetics of rewinding
following heat shock. It is well known that as the DNA cools,
it recovers by rewinding back into an intact double helix (Marmur,
1961). The rewinding/ recovery process can be monitored by measuring
the absorption of UV light as a function of the cooling temperature
or increasing time. As the DNA recovers from the heat shock,
hydrogen bonds reform to connect the two strands. Thus healing
or recovery of the DNA is directly related to the number of
hydrogen bonds. Preliminary experiments with the new assay confirmed
that weak EM fields slow down the rewinding or recovery following
heat shock.
More recently
the DNA rewinding assay has been modified to increase its sensitivity.
The modifications are based on a previous study which demonstrated
that the sensitivity of DNA to UV light is enhanced in the presence
of small amounts of iron (ferric ions) (Audic, 1993). The modified
assay, which utilizes trace amounts of iron, has several advantages
over the original assay. Using the modified assay, weak EM field
effects, reported in this study, were observed within the first
few minutes following EM exposure and did not require conditioning
(repeated exposure to EM fields).
Experimental
Methods
Three types
of experiments were conducted in this study. The control experiments
were done first in the presence of ambient EM fields, but in
the absence of any man-made EM fields. In the electromagnetic
experiments, DNA recovery was measured in the presence of EM
fields from cell phones. The third set of experiments involved
measuring DNA recovery in the presence of neutralized EM fields
from cell phones containing the Neutralizer.
The specific
protocol that was followed involved making a stock solution
(0.4mg/ml) of human placental DNA (Sigma Chemical Co., St. Louis)
in deionized water. The stock solution was diluted to 0.03mg/ml
in 5mM NaCl containing 1-4 µM FeCl and heat shocked (80°
C for 5 minutes). A concentration of 1 µM FeCl was shown to
be optimal and used in the final experiments. Immediately after
heat treatment the DNA was gently transferred to a quartz cuvette
and then placed in the cuvette holder inside the spectrophotometer.
For EM field exposure a mobile Nokia cell phone (plugged in
and set on standby mode) was placed face up on top of the cuvette.
To neutralize the EM fields, the Neutralizer was placed on the
back of the cell phone directly below the antennae. The cell
phone containing the Neutralizer was then placed face up on
top of the cuvette. In these experiments normal and neutralized
cell phones were identically placed on the cuvette immediately
after heat treatment and remained there for the duration of
the experiment. The same protocol was used for these two sets
of experiments, as well as for controls, which were done in
the absence of any cell phone treatment.
For all
experiments, the conformation of DNA was measured with state-of-the
art biochemical methodology using a UV-visible diode array spectrophotometer
(Hewlett Packard 8451A) to quantify the amount of UV light absorbed
(Thomas, 1995). UV measurements began immediately after the
cell phones were placed on the cuvette. Absorption of UV light
at 260nm was measured every 60 seconds over the course of one
hour following heat shock. As the DNA recovers, it naturally
rewinds and the absorption of light gradually decreases. The
slope of the rewinding curve is a measure of DNA's ability to
recover after heat shock. In order to quantify the speed of
recovery, the slopes were calculated using IBM Excel software.
Results
For the
data presented in Figure 1 only the initial portion (the first
five minutes) of the entire recovery curve was analyzed. The
slope in this region corresponds to the initial recovery rate,
classically used by biochemists in studying enzyme kinetics.
The light grey irregular line in this figure is a plot of the
raw absorption data collected by the spectrophotometer as a
function of time after heat shock. The solid black line is the
computer generated best-fit calculation of the slope (r2).
The slope was calculated for each separate experiment and then
compared statistically using a two sample t-test (assuming equal
variance). For statistical analyses a total of 6 control experiments,
8 EM experiments and 6 neutralized EM experiments were used.
| |
Average
Slope
|
SD
|
n
|
p
(wrt control)
|
|
Control
|
0.877
|
0.041
|
6
|
|
|
Cell
Phone
|
0.687
|
0.189
|
8
|
0.02
|
|
Cell
Phone + Neutralizer
|
0.872
|
0.063
|
6
|
NS
|
A.
Electromagnetic Fields from Cell Phones Effect DNA Recovery
The results
demonstrate the effect of electromagnetic (EM) fields from cell
phones on DNA recovery after heat shock. In the absence of EM
fields (control experiments) a negative slope for DNA recovery
is obtained. A less negative value for the slope reflects a
slower recovery following heat shock. In the absence of EM fields
the average slope (recovery) was -0.877 ± 0.041. In the presence
of EM fields from the cell phone the slope had an average value
of -0.687 ± 0.189. This indicates that the EM field from the
cell phone produced a 22% inhibition of recovery. This detrimental
effect of EM fields from the cell phone is highly significant
compared to the untreated control (p<0.02).
B.
Cell Phone Damage Reversed with the Neutralizer
The cell
phone containing the Neutralizer produced a similar effect on
DNA recovery as was observed in the controls. The average slope
for these experiments was - 0.872 ± 0.063. This result is not
significantly different than the control value indicating that
the harmful effect of the EM field from the cell phone is completely
neutralized by the presence of the Neutralizer.
Discussion
A previous
study from the Quantum Biology Research Lab (Syldona, 2000)
demonstrated an unusual effect when a test tube containing human
DNA in an aqueous solution was physically placed on top of the
Aulterra powder, the active ingredient of the Neutralizer. The
results demonstrated that the powder radiates an energy field
which resonates with DNA producing an oscillatory winding and
unwinding behavior in its secondary structure. Such behavior
is consistent with the newly discovered phenomenon in biological
systems referred to as macroscopic quantum coherence (Chudnovsky,
2000) and suggests that the energy radiating from the Aulterra
powder is highly coherent (laser-like). Since the dielectric
material in the powder will radiate classic (incoherent) EM
energy, it is conceivable that the activation procedure in the
manufacturing of the powder makes this intrinsic energy coherent.
Alternatively, the unique mixture of minerals in the Aulterra
powder may have intrinsic quantum properties, like other complex
lattice structures which also exhibits quantum properties (Orrit,
1986).
The ability
of Aulterra's powder to radiate quantum fields is related to
its ability to store quantum information following activation.
Quantum information storage is now a recognized technology in
the computer industry which involves optical and magneto-optical
storage. Information storage in computers and in Aulterra’s
products share a common mechanism, since they both require an
external EM field to store the information and both result in
the emission of a different type of EM field. Some variations
of computer technology allow storage of information in three
dimensional lattice structures (Mok, 1991), similar to Aulterra's
mineral base. In other variations of computer technology, the
emitted EM field can be a coherent laser (Reif, 1991). Furthermore,
certain storage media exhibit unusual anomalous behavior referred
to as space-inversion symmetry (ie. normal symmetry associated
with magnetization of the optical materials is broken) (Pavlov,
1997). A similar situation also exists in phase conjugating
systems, where a time-reversed longitudinal wave is emitted
(Zozulya, 1994). According to quantum physics, both of these
situations occur at the quantum level and are associated with
the presence of quantum fields (Blumel, 1992). Therefore, if
these established systems are capable of emitting a quantum
field, Aulterra's technology may also do the same.
If the Aulterra
powder radiates a highly coherent field, how could such a field
neutralize the harmful, incoherent radiation emitted from a
cell phone? Although traditional physics theory states that
two force fields don’t interact in space (they just pass
through each other), recent experiments indicate that such interactions
are possible. Working with two incoherent light sources, Comorosan
demonstrated that one could modulate the action of the other
to modulate a chemical reaction (Comorosan, 1990). In addition,
Omura demonstrated that energy associated with a chemical enzyme
inhibitor, in powder form, could produce a biological effect
when the molecular energy was used to modulate a laser (Omura,
1994). In this sense the coherent laser energy acted as a carrier
for the molecular energy. These studies demonstrate that two
energy fields can in fact interact. Furthermore, mixing incoherent
and coherent energies can have differential effects on biological
systems when the ratio of incoherent to coherent energies is
altered (Litovitz, 1994).
These studies
offer an explanation for the ability of a coherent field generated
from the Aulterra powder to neutralize the biological effects
of incoherent energy from a cell phone. These studies also explain
the results in the previous study by the Quantum Biology Research
Lab (Syldona, 2000). Coherent energy from the Aulterra powder
could therefore neutralize the detrimental biological effect
of the molecular energy associated with heavy metals. In these
experiments, however, the biological system (DNA) was being
influenced by both the energy from the chemical toxin and the
chemical toxin itself. Nonethess, the Aulterra product offered
complete protection.
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|
Conformational
Changes In Human DNA Characterize The Radiated
Energy From The Aulterra Formulation