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Science has accomplished enormous progress and achievements in genetics since the turn of the 21stcentury. Scientists have sequenced and mapped the entire genomes of more than 2800 organisms/species including human, and the count is on.[1]





Macroevolution of evolution theory tells us that humans, as well as other multicellular forms of life, have evolved from primitive single-celled organisms that fall under the kingdom of prokaryotes or even more primitive.[2] Prokaryotes are single-celled organisms that have no true nucleus as their genome is not contained within a membrane nor distinct from the rest of the cell. They are the earliest and most primitive forms of life found on earth.[3] Is there a chance for this evolution to have taken place from a simple, single cell to a human being during the age of the universe?





The human genome[4] contains approximately 3 billion chemical nucleotide base pairs (A, C, T, and G).[5] Approximately 34 million nucleotide bases of the human genome encode for the production of proteins that are vital to all living processes.[6] These 34 million nucleotides are called genes. Proteins are made of amino acids. Each amino acid is encoded for by a codon, and each codon is composed of 3 nucleotides.





You can think of nucleotides as alphabets of 4 letters pool, and codons as words of 3 letters length.





The sequence of these nucleotides within genes is what defines the characteristics and functions of a living organism and its nature; will it be a bacterium, a plant, a fly, a fish, or a human. The sequence of this coding in human genes, as well as other organisms, is so sophisticated, precise, and well organized that it is comparable to the sequence of alphabets in a Shakespeare’s poem, a novel, a thesis, a computer program, or an encyclopedia of 2 million words (or 2 volumes).





According to macroevolution, this precise sequence, coding, has come into being by random mutations[7] and natural selection.





Maximum Possible Mutations During the Age of the Universe


We will try to find out here the maximum number of mutations that can occur during the age of the universe based on assumptions that favor evolution.





The maximum number of mutations a human genome can undergo during its course of evolution from a single cell to a human is 3 billion mutations per generation since that is the largest size the genome of mammals has reached. This is an extreme assumption in favor of evolution. In reality, mutation rate ranges approximately between 0.003 and 350 mutations per genome per generation.[8]





The shortest generation time reported to date is the generation of Pseudomonas natriegens, a marine bacterium with a generation time of 9.8 minutes.[9] Nevertheless, going once again to the utmost in favor of evolution, we can assume that we are getting a new generation every one second. Thus, during the age of the universe,[10] which is about 15 billion years,[11] the maximum number of generations that can be reached is:





Universe age in years × Days per year × Seconds per day


15 billion × 365 × 86400


which equals less than 1018 generations (1 with 18 zeros after it).





The last piece of information needed to calculate the maximum number of possible mutations is the population of these single-celled organisms. For that we will assume a very large number that leaves no place for more; the number of atoms in the observable universe that is about 1082.[12]





Thus, based on previous results and generous assumptions, the maximum number of mutations that may occur in the entire universe and during its age is:





Mutations per generation × Generations during universe age × Population


3 billion × 1018 × 1082


which equals less than 10110 mutations (1 with 110 zeros after it).





Number of Random Mutations Required for the Evolution into a Human


The genes of human genome consist of approximately 34 million nucleotides.[13]





The largest genome in simple, single-celled organisms, prokaryotes, is about 13 million nucleotides.[14]





Thus, there is a difference of at least 21 million nucleotides between prokaryote organisms and humans. And for a single cell to evolve into a human, the evolutionary process needs to mutate –which may include insertion– at least 21 million nucleotides with the correct nucleotide base and in the correct sequence.





In genes, each amino acid –the building block of proteins that are vital to all living processes– is coded for by 3 nucleotides, which is called a codon. 21 million nucleotides means 7 million codons.





Random mutations have one of three effects: Neutral, Deleterious (harmful), or beneficial. Only beneficial mutations can contribute to the evolutionary process.





In living organisms, there are 20 different amino acids and a stop code,[15] thus, the total is 21.[16]Any mutation will lead to one of these 20 amino acids or the stop code.[17]





Therefore, each mutation falling inside genes, the coding region of the genome,[18] has a chance of approximately 1/21 of not altering the amino acid (i.e. coding for the same amino acid) and thus being a neutral mutation, and a chance of approximately 20/21 of altering the amino acid.[19] 70% of these 20/21 mutations are deleterious (harmful) mutations.[20] Nevertheless, for the sake of evolution, we will assume that all mutations which are altering amino acids are beneficial mutations. Thus, each mutation has a chance of approximately 20/21 of being beneficial.[21]





Therefore, the probability for 7 million codons to mutate randomly with beneficial mutations is:





Chance of mutation for being beneficial to the power of Number of codons


20/21 to the power of 7 million


which equals 1 to more than 10100,000 (1 with 100,000 zeros after it).[22]





Could natural selection have enhanced the chances of mutations in our scenario? Never, since what natural selection basically does is to sustain lineages with beneficial or neutral mutations and to eliminate lineages with harmful mutations. Natural selection does not prevent beneficial mutations from being mutated again. Moreover, in our scenario, we have already assumed that all mutations are either neutral or beneficial, and have ruled out harmful mutations. Thus, natural selection cannot do any better in this scenario.





Conclusion


Therefore, we need more than 10100,000 (1 with 100,000 zeros after it) random mutations to occur so that a simple, single-celled organisms may evolve into a human, while we can only get less than 10110 (1 with 110 zeros after it) mutations during the age of the universe, even when the entire universe is a stage for this evolutionary process.





All these calculations were based on human genes –that constitute less than 2% of the genome– without taking into consideration the junk region that consumes approximately 98% of the human genome, which turned out not to be junk anymore. The ENCODE Project Consortium was able to assign biochemical functions for 80% of the human genome and found that approximately 20% of it regulates the genes. The results of the five-year ENCODE project were published in 2012 in the journals Nature, Science, Genome Biology and Genome Research.[23] The ENCODE consortium’s 442 researchers, situated in 32 institutes around the world, used 300 years of computer time and five years in the lab to get their results.





Hoping this study was beneficial in shedding some light on this crucial topic.



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