Page 97 - The Miracle in the Cell
P. 97

HARUN YAHYA
               coincidence, but a billion times more impossible it is for a million of
               these to coincidentally come together and form a complete human cell.
               Besides proteins, in the cell structure there are carbohydrates, lipids,
               water, electrolytes (anions and cations), and vitamins. All of these are
               used as helper molecules and as the building blocks of many different
               organelles.
                    And so it is very difficult to express the impossibility of having
               100 trillion of these cells coming together accidentally, but faultlessly
               and completely, to form the inner and outer organs of a human being.
                    Coincidence, the sole "explanation" that evolution offers is pow-
               erless to explain even one of the millions of proteins found in the cell.
               So how can it explain the entire cell? The reliability of a theory that
               cannot even solve the problem at the stage of proteins, yet continues
               to write scenarios of how living beings came into being, is open for all
               to see.
                    At whatever stage or component of life we examine, claims of so-
               called "coincidence" are turned into crazy nonsense.
                    As an example, let's look at levo (left-handed) proteins.
                    All amino acids have a central core comprising a carbon atom
               with a hydrogen and nitrogen atom bound to it. This core structure in
               all amino acids is exactly the same. However, attached to this core is a
               side group, given the name of R group, which is different in each
               amino acid. This R group gives each amino acid its particular identity.
               The R group atoms can be found on either the right- or left-hand side
               of the amino acid's central core. Those with the R group on the left
               hand side are called  L-levo (left handed) amino acids, and the ones
               with the R group on the right are called D-dextro (right handed) amino
               acids. The probability that each will occur is 50%. Though they arise
               from the same atoms and the same parts, and come together in the
               same way, these molecules have a different symmetry. The two forms,
               the left handed and right handed forms of the same molecule are
               called optical isomers, or mirror images, of each other.




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