“RT-PCR and in situ hybridization studies have identified multiple VZV transcripts in latently infected human ganglia. State-of-the-art multiplex PCR technology, capable of detecting all 68 annotated VZV gene transcripts, revealed transcription of at least 12 VZV genes during latency… (2)” In short, the VZV produces its proteins while latent.
How can the production of viral proteins during latency cause disease?
The following is a simplified explanation of the Theory of Microcompetition with Foreign DNA as described by Dr. Hanan Polansky.
Dr. Polansky discovered that foreign DNA fragments, called N-boxes, cause most major diseases. When the foreign N-boxes belong to a virus, microcompetition between the viral DNA and the human DNA can lead to disease even when the virus is latent or the viral DNA is broken into pieces and cannot express proteins.
The Center recommends that health professionals turn to Dr. Polansky’s book, “Microcompetition with Foreign DNA and the Origin of Chronic Disease” for a better understanding of the risks posed by latent viruses.
To learn more about Dr. Hanan Polansky’s research and the Theory of Microcompetition with Foreign DNA, visit: http://www.cbcd.net.
The CBCD is a research center recognized by the IRS as a 5
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