Abstract
Transferrin is an iron-binding protein that plays an important role in iron metabolism and resistance to bacterial infection in a variety of organisms. A comparison of transferrin coding sequences from four salmonid species shows that the rate of evolution at nonsynonymous sites is significantly higher than the rate at synonymous sites, suggesting that positive natural selection for new alleles has played an important role in the evolution of transferrin in some salmon species. We hypothesize that the selective agent driving rapid divergence is interactions between host transferrin and the iron-scavenging proteins of pathogenic bacteria.
MeSH terms
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Alleles
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Amino Acid Sequence
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Animals
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Base Sequence
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Evolution, Molecular
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Genetic Variation
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Molecular Sequence Data
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Oncorhynchus kisutch / genetics*
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Salmon / genetics*
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Selection, Genetic
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Sequence Analysis, DNA
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Transferrin / genetics*
Associated data
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GENBANK/AF114849
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GENBANK/AF114850
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GENBANK/AF114851
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GENBANK/AF114852
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GENBANK/AF114853
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GENBANK/AF114854
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GENBANK/AF114855
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GENBANK/AF114856
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GENBANK/AF114857
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GENBANK/AF114858
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GENBANK/AF114859
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GENBANK/AF114860
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GENBANK/AF114861
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GENBANK/AF114862
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GENBANK/AF114863
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GENBANK/AF114864
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GENBANK/AF114865
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GENBANK/AF114866
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GENBANK/AF114867
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GENBANK/AF114868
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GENBANK/AF114869
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GENBANK/AF114870
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GENBANK/AF114871
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GENBANK/AF114872
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GENBANK/AF114873
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GENBANK/AF114874
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GENBANK/AF114875
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GENBANK/AF114876
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GENBANK/AF114877
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GENBANK/AF114878