The complexity of creating two sequential or simultaneous mutations that would confer improved survival has been studied in the malaria parasite when exposed to chloroquine. The actual incidence of two base-pair mutations leading to two changed amino acids leading to resistance has been shown to be 1 in 1020 cases (42). To better understand this incidence, the likelihood that Homo sapiens would achieve any single mutation of the kind required for malaria to become resistant to chloroquine (a simple shift of two amino acids) would be 100 million times 10 million years (many times the age of the universe). This example has been used to further explain the difficulty in managing more than one mutation to achieve benefit.The reference is to The Edge of Evolution by Michael Behe. His book was published in 2007 but I never got around to reviewing it thoroughly—partly because it's so difficult to explain where he goes wrong.1 Here's my take on one part of the book: The Two Binding Sites Rule. This post covers "chloroquine-complexity clusters" (CCC).
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