The Microcospic Man and Woman, the Evolution of Human Species
How do you tell the young generation what to expect in their future? First, prepare them mentally and emotionally. Your future is inside your brain, you can play your role in your local community or be a part of the international community. The bigger the responsibility, the more you need to understand the nature of the world, humanity and the universe.
What do you want to take in the university? Learn something that will make your generation reliable, you will be inheriting much more problems than the world today, too much pollution in the environment, virus and bacteria are mutating, many child-birth defects and autistic children, the search for panacea in cancer and HIV treatment is still on-going. Aside from that, you need energy to survive, food for your brain, body and spirit. Water to clean the pollution and dirt.
Are you ready to survive, kid?
What you see is a generic man and woman in the microcospic world, the female progenitor is round in shape like this planet and the rest of the planet in all galaxies of the universe. The stars and our sun is round too.
And the male progenitor resembles the tadpoles (baby frogs). Aren't they cute? The male sperm cells VS one female egg cell. Only one from the million of sperm cells has the magnetic attraction to form an atomic baby.
The atomic baby is the result of the nuclear fusion of the parent's gamete (union of egg cell and sperm cell), they form a unicellular (single cell) zygote with a complete set of chromosomes that normally develops into an embryo. The sperm cell contribute approximately half of the nuclear genetic information to the diploid offspring (excluding in most cases, mitochondrial DNA). In mammals, the sex of the offspring is determined by the sperm cell: a spermatozoon bearing a X chromosome will lead to female (XX) offspring, while one bearing a Y chromosome will lead to a male (XY) offspring.
In the cellular world, there are two recognized single cell organism, the eukaryotic and prokaryotic (archaea and bacteria). The defining feature that sets eukaryotic cells apart from prokaryotic cells (Bacteria and Archaea) is that they have membrane-bound organelles especially the nucleus, which contains the genetic material, and is enclosed by the nuclear envelope.
Two kind of cells (with and without nucleus)
Prokaryote (prokaryote, prokaryotic cell, prokaryotic organism): cell or organism lacking a membrane-bound, structurally discrete nucleus and other sub-cellular compartments. Bacteria are prokaryotes.
Eukaryote (eucaryote, eukaryotic cell, eucaryotic cell): cell or organism with a membrane-bound, structurally discrete nucleus and other well-developed sub-cellular compartments. Eukaryotes include all organism except viruses, bacteria and cyanobacteria (blue-green algae).
Translation or Protein Synthesis: We are a unicellular with protein builders
The information required to build proteins resides on the DNA in the form of sequence of bases and has the form of triplets of called "codons" following the genetic code. Once the genetic information describing how to build a protein that is transcribed to RNA, it has to be "translated" into the "language of protein". The sequence of bases on the RNA forms a code for the amino acid building blocks of the protein. The world "translation" seems particularly appropriate for this process since the information contained in the DNA is translated from the four -character alphabet of the bases to the twenty-character alphabet of the amino acids.
There are 20 different types of amino acids that the human body needs to function correctly. Eleven of these amino acids are produced naturally in the body, while the other nine to be acquired by consuming food.
The amino acids that are made from chemicals already found within the human body are called non-essential amino acids. Amino acids that cannot be made naturally are called essential amino acids. The digestive system breaks down consumed protein into their amino acids so they can enter the blood stream. Once in the bloodstream, cells utilize the amino acids as building blocks to create various proteins.
While the majority of crops that are grown for human consumption contain some essential amino acids, soy products and animal sources of protein contain all the essential amino acids; these products, include eggs, milk, meat, poultry, fish and other seafood.
The proteins that are created from amino acids handle incredibly important life functions. Some proteins contribute to the structural elements of a cell, while others are used to bind cells into tissues. Proteins take the form of antibodies to protect from diseases and interferon to fight off viruses. If the human body does not acquire enough essential amino acids from food consumption to create the necessary proteins, the body is susceptible to many shortcomings. Potential problems from lack of amino acids includes: a weakened immune system, a decrease in hormone production and the breakdown of muscle tissues.
The Science of Parenthood
Teach your children what is right, start from the basics. Their vacuum minds will be filled with fantastic notion of being one-ness with the real world and the force of the universe.
Reference:
1. https://en.wikipedia.org/wiki/Eukaryote
2. https://www.reference.com/science/building-blocks-protein-bfe5240c8288bf76#
3. http://www.site.uottawa.ca/~lucia/courses/5126-11/lecturenotes/02_B_MolecularBiologyII(TurcotteL01-42-175).pdf
4. http://hyperphysics.phy-astr.gsu.edu/hbase/organic/translation.html
Photo credit:
(1) https://images.sciencedaily.com/2010/10/101003205930_1_900x600.jpg
