Submited on: 26 Jun 2013 11:27:14 AM GMT
Published on: 27 Jun 2013 07:36:54 AM GMT
virtual world
Posted by Mr. Neil Mcewan on 15 Jul 2013 03:45:25 PM GMT

Point 22 has this extract:
Materials are compressed by gravity to smaller volumes and higher densities. Deeper layers have more gravity compression from the overlying layers of cells, as density as well as temperature is increased at the core. So they have greater outward pressure to compensate. Thus under equation of state, pressure gradient force or difference in pressure exceeding hydrostatic balance or hydrostatic equilibrium across a surface in each layer of cells causes a difference in force, which can result in acceleration according to Newton's second law, if there is no additional force to balance it. The resulting force is always directed from the region of higher-pressure to the region of lower-pressure. Hence it is natural to find that increase in cell density or increase in heaviness would foster growth of the living cells. Because difference in pressure across a surface causes a difference in force directed from the region of higher-pressure to the region of lower-pressure under different density gradient. This possibly results into heavier cells to grow faster than lighter cells or cell density to increase prior to bud formation or to exhibit similar other phenomena (Illustration 16). The matter will be clearer on directing appropriate research on system biology encompassing self gravity in threadbare manner

 

How does density of cells affect the biosynthesis of proteins by DNA? IE what sort of experiment could determine this?

One way to think of DNA is by analogy with the internet, where you enter a virtual world. In this world everything works by 'clockwork' relative to everything else, but there is no absolute time & space (as with genetic code).

In the real world, time & space are defined by absolutes - symmetries (and fractals), rates of growth (and seasons), spurts of growth (buds, shoots), pauses and cesation.

In other words, relating a virtual world to the real world may be impossible. One is clockwork, one is indeterminate, irregular, not to say lyrical.

How do you devise an experiment to simulate 4D space-time, and that is irregular?

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protein density
Posted by Mr. Neil Mcewan on 16 Jul 2013 04:01:50 PM GMT

It occurred to me density of proteins would be greatest with increase of cell density or packing. Combined with signals from Endocrine, this might act on DNA-synthesis. There would be a force-vector for growth pointing outwards.

 

If you think of DNA as an atomic 'clock', the processes that it controls (RNA-transcription, protein-synthesis) are on a relative time-frame. This process is independent of an absolute time-frame controlled by Endocrine and protein movement (messenger proteins) round the body. There are also external stimuli such as vitamins on the skin.

 

In that sense, explaining one system need not have any relation to the other.

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reply to author's comment
Posted by Mr. Neil Mcewan on 18 Jul 2013 11:29:12 AM GMT

It's not exactly what I said! My idea is fairly radical: DNA, the so-called 'building-block' for life, occupies a virtual world because its time-frame is relative.

Information comes into that from the real world, where the time-frame is absolute*. This means exactly what you said - relating to interactions of gravity, planetary motions & seasons existing in 4D space-time.

What I'm saying is, any theory of the real world is not necessarily related to the virtual one of DNA protein-synthesis - all the 4D timing for this comes from the real world.

A metaphor is a tree which has roots, trunk, branches, foliage, and by virtue of that is real. One could model a tree virtually, but the information for that - proportions etc - goes one way.

 

*IE with a grounding in 4D space-time

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