Bion Experiment "B2"- 1 day after broadcasting exposure and update.

According to some scientists today LDR (or low dose radiation) is beneficial to plants, animals, fungus, and yeast such as the yeast we've inoculated here at Laboratory 5. Many scientists do not want to experiment with this phenomenon because of the dangers associated with radiation. I would like to point out however that background radiation from space and that exists on the Earth itself is and always has been a perfectly regular part of life. Studies performed on mice and rats in the lab tests have shown that exposure to LDR triggers a reaction called hormesis which is defined as :

(thank you wikipedia):

"

Hormesis is any process in a cell or organism that exhibits a biphasic response to exposure to increasing amounts of a substance or condition.[1] Within the hormetic zone there is generally a favorable biological responses to low exposures to toxins and other stressors. Hormesis comes from Greek hórmēsis "rapid motion, eagerness", itself from ancient Greek hormáein "to set in motion, impel, urge on". A pollutant or toxin showing hormesis thus has the opposite effect in small doses as in large doses. Hormetics is the term proposed for the study and science of hormesis. A related concept is Mithridatism, which refers to the willful exposure to toxins in an attempt to develop immunity against them.

In toxicology, hormesis is a dose response phenomenon characterized by a low dose stimulation, high dose inhibition, resulting in either a J-shaped or an inverted U-shaped dose response. Such environmental factors that would seem to produce positive responses have also been termed "eustress". The hormesis model of dose response is vigorously debated.[2] The notion that hormesis is important for chemical risks regulations is not widely accepted.[3]

The biochemical mechanisms by which hormesis works are not well understood. It is conjectured that low doses of toxins or other stressors might activate the repair mechanisms of the body. The repair process fixes not only the damage caused by the toxin, but also other low-level damage that might have accumulated before without having triggered the repair mechanism."

(https://en.wikipedia.org/wiki/Hormesis)

we're still in the process of figuring out where it is Bions are present in the cell but we think we have an understanding of the role the bion may play in the cell. Categorically Bions make sense in the cell when we consider it as an adaptive mechanism to these stresses such as electromagnetic and nuclear radiation, stellar radiation, changes to environment, physical strain put on the cell itself . bions themselves have been shown to react when the cellular structure is compromised and seem to go searching for other forms of life to carry on. Perhaps an adaptive response to a type of mRNA (messaging Ribo-nucleic acid) ? mRNA is the chemical which bounces back and forth between the nucleus of a cell and the cell membrane enabling the nucleus to communicate with the cell . More experimentation is needed to locate the bions structure but some theories are currently being developed and notably need to be tested on the lab bench before any sort of validation can occur.

EXAMINATION OF OUR BION-ENRICHED SAMPLE "STINKY I"- 24 HOURS AFTER EXPOSURE TO LDR and RADIORGONOMIC BROADCAST

(lower left corner) while we have many smaller "baby" cells here you can see in the lower left hand corner a better definition of the yeast cell present in our sample. IN this image you can actually see the nucleus.

(above image- we've used a light source from below and one from above to generate a sort of interference pattern that shows the regions in the sample that contain rich bion-dense areas. upper right corner you can see one of the cells that has been degrading (genetic deformity with high bion clusters surrounding. - while at bottom left a cell is in the process of dividing with bion clusters surrounding the region where the nucleus stretches. Upper left corner two bions mimicking one another possibly exchanging genetic information? What is clear from this imae with the upper right and lower left images validates one of our presupositions in that the bion is strongly connected with the nucleus of it's organism. BTW the lower left image is actually quite amazing if you look closely you can see that despite it being a cluster of cells it does seem to have a nucleus.

(above photo - from control sample "stinky II" fed at exact same time maintained precisely in the same conditions growth notably differs upper central region you can see fillaments forming from the yeast cells meaning the cell is gone into a state of hormesis and is seeking out food sources from other places within the sample agar. Interestingly enough there is an ample supply of readily available sugars within . In other areas of the cell such as the centre-left we see the cells are still somewhat genetically deformed as compared to our former photograph of Stinky I which has been exposed to LDR and Radiorgonomic broadcast. )

above photos Stinky II reproducing but successive generations are showing more genetic abnormalities. comparatively Stinky I our radiorgonomic sample seems to still have a very stable and proliffic genetic makeup.

sample from Stinky II our control sample here you can see bion dense regions in the sample specifically located above in almost the centre of the photograph a cell which appears to have reached it's full maturity and is most likely begining to reach it's final stages a bion has detached itself once again mimicking the parent cell. as below right the blue structure separating itself from the parent cell mimicking mitosis.