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Who Ate Whom? Adaptive Helicobacter Genomic Changes That Accompanied a Host Jump from Early Humans to Large Felines

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Linz,  Bodo
Department of Molecular Biology, Max Planck Institute for Infection Biology, Max Planck Society;

Raddatz,  Günter
Max Planck Society;

Lanz,  Christa
Max Planck Society;

Keller,  Heike
Max Planck Society;

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Morelli,  Giovanna
Department of Molecular Biology, Max Planck Institute for Infection Biology, Max Planck Society;

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Gressmann,  Helga
Department of Molecular Biology, Max Planck Institute for Infection Biology, Max Planck Society;

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Achtman,  Mark
Department of Molecular Biology, Max Planck Institute for Infection Biology, Max Planck Society;

Schuster,  Stephan C.
Max Planck Society;

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PLoS_Genet_2(7)_e120.pdf
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Citation

Eppinger, M., Baar, C., Linz, B., Raddatz, G., Lanz, C., Keller, H., et al. (2006). Who Ate Whom? Adaptive Helicobacter Genomic Changes That Accompanied a Host Jump from Early Humans to Large Felines. PLoS Genetics, 2(7): e120, pp. 1097-1110. doi:10.1371/journal.pgen.0020120.


Cite as: https://hdl.handle.net/11858/00-001M-0000-000E-C377-2
Abstract
Helicobacter pylori infection of humans is so old that its population genetic structure reflects that of ancient human migrations. A closely related species, Helicobacter acinonychis, is specific for large felines, including cheetahs, lions, and tigers, whereas hosts more closely related to humans harbor more distantly related Helicobacter species. This observation suggests a jump between host species. But who ate whom and when did it happen? In order to resolve this question, we determined the genomic sequence of H. acinonychis strain Sheeba and compared it to genomes from H. pylori. The conserved core genes between the genomes are so similar that the host jump probably occurred within the last 200,000 (range 50,000–400,000) years. However, the Sheeba genome also possesses unique features that indicate the direction of the host jump, namely from early humans to cats. Sheeba possesses an unusually large number of highly fragmented genes, many encoding outer membrane proteins, which may have been destroyed in order to bypass deleterious responses from the feline host immune system. In addition, the few Sheeba-specific genes that were found include a cluster of genes encoding sialylation of the bacterial cell surface carbohydrates, which were imported by horizontal genetic exchange and might also help to evade host immune defenses. These results provide a genomic basis for elucidating molecular events that allow bacteria to adapt to novel animal hosts.