Author: Zhao, Huabin; Ru, Binghua; Teeling, Emma C.; Faulkes, Christopher G.; Zhang, Shuyi; Rossiter, Stephen J.
Title: Rhodopsin Molecular Evolution in Mammals Inhabiting Low Light Environments Document date: 2009_12_16
ID: 02uqygfs_15
Snippet: Reconstructed ancestral rhodopsins at each node based on Maximum Likelihood and Maximum Parsimony approaches gave similar results, with most nodes having the 13 key amino acids of the mammalian consensus sequence (see Table S4 and Figure S2 , Supplementary Material online). Consequently, these ancestral proteins were inferred to have a l max of 501 nm. However, some replacements occurred in some species of pinniped, cetacean, bat and African mole.....
Document: Reconstructed ancestral rhodopsins at each node based on Maximum Likelihood and Maximum Parsimony approaches gave similar results, with most nodes having the 13 key amino acids of the mammalian consensus sequence (see Table S4 and Figure S2 , Supplementary Material online). Consequently, these ancestral proteins were inferred to have a l max of 501 nm. However, some replacements occurred in some species of pinniped, cetacean, bat and African mole-rat, with associated downward shifts ranging from 2 to 17 nm ( Figure S2 , Supplementary Material online).
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