Wesley Thank you so much for uncovering this. It sure looks like photolyases are powerful helpers, that need all the support we can give them. I would sure appreciate it if you could forward the abstracts of the search. Also, could you possibly summarize what you have learned re correlation of oxygen therapy, rife (light) therapy and minerals (silver/photosensitivity).
Could you explain why you asked what was the relationship between phi geometry and inner/outer light? Why did you mention deuterium? Do you know what the elements are that make up the photolyase enzyme? Does it have a particular trace mineral, as most enzymes do? Daniel =========================================================== > The following are quotes from a medline search on "photolyase" > It appears that there is an emerging body of evidence that correlates > oxygen therapy, rife (light) therapy and minerals > (silver/photosensitivity). > > if anyone wants i would be happy to forward a copy the abstracts i got > from the search or you could do the search yourself. > > I wonder if there is relation between the FDA's stance on silver and > tryptophan and the apparent correlation between PHOTOLYASE, silver and > tryptophan. (repair of genetic damage by light) > > Whats the relationship of the light (inner/outer) to phi (geometry) ? > How does deuterium fit in? > > I couldn't help noticing in the abstracts. > "blue light" > tryptophan > sulfonyl > > In Light > Wesley Eldon Price > [email protected] > > "DNA photolyase is a light-dependent DNA repair enzyme. It binds to > cyclobutane pyrimidine dimers <PyrPyr> in DNA and upon excitation with > a blue light photon splits the cyclobutane ring and restores the > pyrimidines to native forms. The enzyme is specific for pyrimidine > dimers, and it is not known to catalyze any other reaction either in > ground or in excited state. However, when photolyase binds to <PyrPyr> > but cannot catalyze repair because of lack of photoreactivating light, > it still aids DNA repair by stimulating the nucleotide excision repair > system." > > > "Photolyases reverse the harmful effects > of UV light on cells by converting pyrimidine dimers (Pyr[]Pyr) into > two pyrimidine monomers by utilizing near-UV and visible light." > > "of cultured goldfish cells, is known to be enhanced by fluorescent > light. We have now found that H2O2 is another strong inducer of > cyclobutane pyrimidine dimer photolyase. Northern blot analysis > suggested that regulation by H2O2 occurs at the transcriptional level > and the time course of induction of photolyase by H2O2 was similar to > that by fluorescent light. Treatment with fluorescent light in the > presence of riboflavin, which is known as an endogenous > photosensitizer, also enhanced the induction of photolyase. These > results suggest the involvement of oxygen stress in the induction of > photolyase by fluorescent light" > > "Photoreactivating enzyme (DNA photolyase) repairs DNA by utilizing > the energy of visible light to break the cyclobutane ring of the > dimer. " > > > "Ultraviolet light (UV)-induced DNA damage can be repaired by DNA > photolyase in a light-dependent manner." > > "the (6-4) photoproduct photolyase converts the photoproduct > to unmodified bases probably through an oxetane intermediate. > " > > "human white > blood cells contain photolyase that can photorepair pyrimidine dimers > in defined supercoiled and linear DNAs and in a 287-bp oligonucleotide > and that human photolyase is active on genomic DNA in intact human > cells." > > "Photoreactivating enzyme, DNA photolyase, reduces lethal, mutagenic > and carcinogenic effects of ultraviolet light (UV) by catalyzing near > UV or visible light-dependent repair of cyclobutane pyrimidine dimers > (CPDs) in DNA." > > "The data > are consistent with the proposal that electron transfer initiates DNA > repair in the photolyase reaction." > > "Dimensions and polarity of the hole match those > of a Pyr <> Pyr dinucleotide, suggesting that the Pyr <> Pyr "flips > out" of the helix to fit into this hole, and that electron transfer > between the flavin and the Pyr <> Pyr occurs over van der Waals > contact distance." > > "We propose this gene encodes a > candidate Chlamydomonas blue light photoreceptor." > > "(Methylsulfonyl)FAD reacts with a single cysteine residue > (Cys293) in the flavin domain of Escherichia coli DNA photolyase" > > "Role of tryptophans in substrate binding and catalysis by DNA > photolyase." > > > >
