Let me put it to you this way.
If a human being were to have its brain hooked up to the Miller-Ulrey experiment flask and the human is induced into a deep state of REM sleep that the dream patterns will create an electrical current that will pass through the wires and into the flask that will then create amino acids.
But what type of Amino Acids will be created?
Will each dream state that has a varying electrical frequency create different types of amino acids?
Which ever type of amino acid is created by the electrical impulses of the dream will in fact prove that dreams can and do in fact create the building blocks of life.
If one human isn't able to generate the electrical current that is needed in the Miller-Ulrey experiment then numerous humans could be connected to the experiment to generate that single spark that is needed to ignite the building blocks of life.
If a human in a dream state can create amino acids with the variances created during a dream state in the Miller-Ulrey expriment then it might be possible that the electrical spark that is based on the dream state could actually induce a memory pattern in the amino acid makeup itself. A memory pattern that would contain all of the thoughts of the person that created the dream.
Or in lay mans terms, we could potentially rebuild our mind thought by thought, dream by dream into a new body. If a dream is the reverse process of what we see on a daily basis then the encoding that is contained within the dream, the very emotions and thoughts that were present when the brain decided to encode the dream in our brain that day could be transferred to the flask could create amino acids that have an exact duplicate of the person who created the amino spark to begin with.
https://www.google.com/search?q=sun...0j69i61j0l4.9023j0j8&sourceid=chrome&ie=UTF-8
https://www.smithsonianmag.com/scie...t-what-you-see-while-youre-dreaming-15553304/
In today’s science-so-weird-it-absolutely-must-be-science-fiction contest, we have a clear winner: a new study in which a team of scientists use an MRI machine, a computer model and thousands of images from the internet to figure out what people see as they dream.
The seemingly extraordinary idea is built from a straightforward concept: that our brains follow predictable patterns as they react to different kinds of visual stimuli, and over time, a learning algorithm can figure out how to correlate each of these patterns with different classes of visualizations.
https://www.nap.edu/read/9620/chapter/19
This chapter addresses amino acid and protein requirements and brain function. A particular focus will be the possibility that central demands for amino acids may modify nutritional requirements when individuals are exposed to extreme environments and other stressors associated with combat and high-intensity military or civilian occupations.
To function adequately, the central nervous system (CNS) requires a number of amino acids found in protein foods. Amino acids such as tryptophan, tyrosine, histidine, and arginine are used by the brain for the synthesis of various neurotransmitters and neuromodulators (Betz et al., 1994).
Since science has discovered that each dream does create a different type of algorithm for each dream, when the dream algorithm is transferred in one of the three types of amino acids then the electrical stimulus should stimulate the amino acid to create a memory based on the person who had the dream.
