Virus Intelligence
In a world of 1000's of viruses, only a small percent infect humans. Scientists used to think human viruses do not affect animals and animal viruses do not affect humans, but we now know that viruses not only jump species, sometimes they combine to create new strains. New strains that can present a clear threat to human survival.
A virus is a pathogenic, parasitic organism that isn’t classified as being alive, since a cell is an essential to our definition of life. A virus has no cell membrane, no metabolism, no respiration and cannot replicate outside of a living cell. A virus is a creepy half-live, single strand or double strand of DNA or RNA or both, looking for a cell to invade. Once inside, it reprograms the cell with its DNA or RNA and multiplies on mass, bursting through the cell with a thousand or more new virus strands seeking new cells to invade. RNA viruses mutate more easily than DNA viruses. (SARS, bird flu, West Nile virus, swine flu, hepatitis, measles, polio, yellow fever, and Ebola are among the many RNA viruses).
If two viruses invade the same cell (a bird virus and a human virus, for instance) their DNA can combine to form a new virus, a potentially virulent one. The same is true if two animal viruses combine and jump species to humans.
Viruses have two life cycles: the lytic cycle and the lysogenic cycle.
In the lytic cycle, the virus focuses on reproduction. It invades a cell, inserts its DNA and creates thousands of copies of itself, bursts through the cell membrane, killing the cell, and each new viral strand invades new cells replicating the process.
In the lysogenic cycle, viruses remain dormant within its host cells. The virus may remain dormant for years. Herpes and chickenpox are good examples. (Chicken pox can cause shingles in later life when the dormant virus reactivates.)
The Movement and cellular destruction of Viruses sounds frightening and formidable, but there are ways to protect yourself and your family.
A virus is a pathogenic, parasitic organism that isn’t classified as being alive, since a cell is an essential to our definition of life. A virus has no cell membrane, no metabolism, no respiration and cannot replicate outside of a living cell. A virus is a creepy half-live, single strand or double strand of DNA or RNA or both, looking for a cell to invade. Once inside, it reprograms the cell with its DNA or RNA and multiplies on mass, bursting through the cell with a thousand or more new virus strands seeking new cells to invade. RNA viruses mutate more easily than DNA viruses. (SARS, bird flu, West Nile virus, swine flu, hepatitis, measles, polio, yellow fever, and Ebola are among the many RNA viruses).
If two viruses invade the same cell (a bird virus and a human virus, for instance) their DNA can combine to form a new virus, a potentially virulent one. The same is true if two animal viruses combine and jump species to humans.
Viruses have two life cycles: the lytic cycle and the lysogenic cycle.
In the lytic cycle, the virus focuses on reproduction. It invades a cell, inserts its DNA and creates thousands of copies of itself, bursts through the cell membrane, killing the cell, and each new viral strand invades new cells replicating the process.
In the lysogenic cycle, viruses remain dormant within its host cells. The virus may remain dormant for years. Herpes and chickenpox are good examples. (Chicken pox can cause shingles in later life when the dormant virus reactivates.)
The Movement and cellular destruction of Viruses sounds frightening and formidable, but there are ways to protect yourself and your family.
How to protect yourself against viral infection
Our bodies fight off invading organisms, including viruses, all the time. Our first line of defense is the skin, mucous, and stomach acid. If we inhale a virus, mucous traps it and tries to expel it. If it is swallowed, stomach acid may kill it. If the virus gets past the first line of defense, the innate immune system comes into play. The phagocytes wage war and release interferon to protect surrounding cells. If they cannot destroy the invading force, the phagocytes call the lymphocytes into play.
Our lymphocytes, T cells and B cells, retain a memory of any previous infection that was serious enough to bring them into the battle. Antibodies were formed and the body knows how to fight any infection it recognizes. (This is how vaccinations work. The body has fought a similar infection). But viruses can mutate, sometimes so much that they body cannot recognize them as a similar infection they fought in the past. They can also be so fast acting, they can cause extensive damage before the lymphocytes are brought into play.
Antiviral medications do not directly kill the virus; they trap it within the cell, keeping it from reproducing. The only catch is that the anti-viral has to be taken with 48 hours of symptom onset or it doesn’t work.
Antibiotics don’t kill viruses. They kill bacteria, not viruses. And they kill good bacteria that we need to keep our gut in balance. Taking antibiotics when you have a viral infection can cause an immediate overgrowth of Candida, giving the immune system an additional system-wide infection to deal with when it needs all of its resources to fight a viral infection.
Conventional treatment is supportive treatment–fluids, medications for symptoms (such as asthma medication), but no medications have ever been developed to kill the virus itself.
A healthy immune system begins in the gut with a healthy balance of beneficial bacteria. For far too many Americans, Candida overgrowth compromises the immune system, as it is constantly fighting the battle to keep Candida in control.
This article will be continued in the coming days, stay tuned.
Our lymphocytes, T cells and B cells, retain a memory of any previous infection that was serious enough to bring them into the battle. Antibodies were formed and the body knows how to fight any infection it recognizes. (This is how vaccinations work. The body has fought a similar infection). But viruses can mutate, sometimes so much that they body cannot recognize them as a similar infection they fought in the past. They can also be so fast acting, they can cause extensive damage before the lymphocytes are brought into play.
Antiviral medications do not directly kill the virus; they trap it within the cell, keeping it from reproducing. The only catch is that the anti-viral has to be taken with 48 hours of symptom onset or it doesn’t work.
Antibiotics don’t kill viruses. They kill bacteria, not viruses. And they kill good bacteria that we need to keep our gut in balance. Taking antibiotics when you have a viral infection can cause an immediate overgrowth of Candida, giving the immune system an additional system-wide infection to deal with when it needs all of its resources to fight a viral infection.
Conventional treatment is supportive treatment–fluids, medications for symptoms (such as asthma medication), but no medications have ever been developed to kill the virus itself.
A healthy immune system begins in the gut with a healthy balance of beneficial bacteria. For far too many Americans, Candida overgrowth compromises the immune system, as it is constantly fighting the battle to keep Candida in control.
This article will be continued in the coming days, stay tuned.