Neutralizing HIV.
The key to purging the HIV virus from an organism could actually be a choice of
different keys. One is a viraside that doesn't trigger the HIV to mutate. Or it
includes a sequence that turns off the mutational phenomena in the virus.
Another is that all human immune systems, with rare exceptions are damaged by
human synthetic environments. Other primates in a natural environment have
immunity. There is a possibility that two generations in a natural environment
may produce a natural immunity to the HIV virus. The key to immunology,
talking about keys, has always been the natural immunity of the organism to be
immunized. Once again, here, we're talking about infinite complexities
that begin to break down, or be destroyed, in the synthetic environment.
Mutational triggers in a virus , such as the HIV strains are highly complex. It
is thought that the virus itself is simple or highly simplified since it depends
on a host for the genetic material for reproduction. But this is not the case.
Further research will reveal that these cells are highly complex. In fact it may
be found that mono cellular organisms are even more complex in their makeup,
chemistry, and functionality than those cells that are part of a multi-organism
which can depend on teamwork for their subsistence.
As we look beneath the outer membranes of such a cell as the HIV virus organism,
we begin to see microscopic engines of all types and functions. Somewhere in
this vast array even below microscopic, in the realm of the molecular -- and
even in some cases the atomic, you will find functionalities, triggers,
molecular tags, and all sorts of apparatai heretofore unnamed.
In fact , it is arguable that in every cellular structure, from multi-cellular
organisms to even the simplest viruses, to -- the unknown, for there may
actually be organisms smaller than a virus -- there is the infinite; that each
cell is in itself linked in this respect to the cosmos. There may even be
organisms that consist of molecules or organic molecules that exist without
nuclear reproductive material such as DNA or RNA: That may even have their
sequences registered subatomicly with quarks or some other infinitesimally small
quanta.
I'm sure as we speak, as it were, in other words even while this is being
written or was being written, that there are reputable and reliable scientists
diligently working on this. However, knowing the way the community is populated
with it's charlatan elements, there may also be quite a number of researchers
that are preoccupying themselves with quick fix methods, employing blatant
virasides which may risk stimulating existing viruses to mutate, even as the
money-minded antibiotic boys have done, whose antics have cursed the world with
a new array of super germs. Apparently for them," life goes on" has become
just as much a cliché and just as meaningless as "Merry Christmas", when
everyone knows the commercial depths to which that slogan has sunk.
But all that aside, there is no time to bemoan the vicissitudes of the industry.
If you look into the mechanisms of the cellular structure of the HIV virus,
probably just below the outer membranes, there you may find the mechanisms for
mutation. In all probability of good place to start looking is some sort of
sensitivity on a molecular scale somewhat like the sensory organs on a
multi-organism. Of course thus far I'm stating the obvious.
But I think you will find that this is intriguing here. It may involve a whole
new series of processes involving nanotechnology in order to actually, in the
first place, dissect the cell and then find ways to observe and record what is
actually there. The nanobiological microscope with micro transmitter
capability.
Actually in the process of analyzing the virus, there may be discoveries less
applicable to the dilemma and yet more interesting, and in fact quite intriguing
as to the makeup of this organism. It has always been my supposition that in a
primitive way, it is possible to have an "interface", or communication, in a
rudimentary sort of way of course, with the organism and all organisms of its
type invading any specific host, in which it may be possible to work out an
"in-host genetic compromise" (not to be confused with the erroneous
term, "compromised immune system"), which may end up to be the cure.
In this case, it may turn out to be that the HIV organism itself, that has been
enabled to become genetically compromised, may actually serve as a new addition
to the multi-organism of the host it occupies. The new "employee" of the
organism could then form anywhere from one to many useful functions, such as
enhancing the robustness of the host's immune system, or other types of things
such as attacking the mechanisms that cause Alzheimer's disease, or helping to
repair damage in specialized areas caused by exposure to caustic or toxic
materials, such as in the liver or spleen of the host.
It may come to the point, as may have
happened in genetic history in the past that invaders have been so incorporated
into the organism that they actually are included in the genetic data of
incubational regions such as bone marrow and produced by the organism itself,
much like white blood corpuscles.
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All human immune
systems are damaged by synthetic environments.
Copyright (c) 2005 by Paul A.L. Hall
All rights reserved.
Just below the virus cell wall you may find the mechanisms for mutation.
05-Feb-2005
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