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Rate variation during molecular evolution: creationism and the cytochrome c molecular clock
Evolution: Education and Outreach 10 (1) (2017)
Abstract
Molecular clocks based upon amino acid sequences in proteins have played a major role in the clarification of evolutionary phylogenies. Creationist criticisms of these methods sometimes rely upon data that might initially seem to be paradoxical. For example, human cytochrome c differs from that of an alligator by 13 amino acids but differs by 14 amino acids from a much more closely related primate, Otolemur garnettii. The apparent anomaly is resolved by taking into consideration the variable substitution rate of cytochrome c, particularly among primates. This paper traces some of the history of extensive research into the topic of rate heterogeneity in cytochrome c including data from cytochrome c pseudogenes.Analytics
Added to PP
2017-02-15
Downloads
478 (#33,509)
6 months
55 (#71,437)
2017-02-15
Downloads
478 (#33,509)
6 months
55 (#71,437)
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