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Ultraviolet pigments in birds evolved from violet pigments by a single amino acid change.


ABSTRACT: UV vision has profound effects on the evolution of organisms by affecting such behaviors as mating preference and foraging strategies. Despite its importance, the molecular basis of UV vision is not known. Here, we have transformed the zebra finch UV pigment into a violet pigment by incorporating one amino acid change, C84S. By incorporating the reverse mutations, we have also constructed UV pigments from the orthologous violet pigments of the pigeon and chicken. These results and comparative amino acid sequence analyses of the pigments in vertebrates demonstrate that many avian species have achieved their UV vision by S84C.

SUBMITTER: Yokoyama S 

PROVIDER: S-EPMC16551 | biostudies-literature | 2000 Jun

REPOSITORIES: biostudies-literature

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Ultraviolet pigments in birds evolved from violet pigments by a single amino acid change.

Yokoyama S S   Radlwimmer F B FB   Blow N S NS  

Proceedings of the National Academy of Sciences of the United States of America 20000601 13


UV vision has profound effects on the evolution of organisms by affecting such behaviors as mating preference and foraging strategies. Despite its importance, the molecular basis of UV vision is not known. Here, we have transformed the zebra finch UV pigment into a violet pigment by incorporating one amino acid change, C84S. By incorporating the reverse mutations, we have also constructed UV pigments from the orthologous violet pigments of the pigeon and chicken. These results and comparative am  ...[more]

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