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. 2009 Mar;181(3):1159-67.
doi: 10.1534/genetics.108.099929. Epub 2009 Jan 5.

Prion variants and species barriers among Saccharomyces Ure2 proteins

Herman K Edskes  1 Lindsay M McCannAndrea M HebertReed B Wickner
Affiliations

Prion variants and species barriers among Saccharomyces Ure2 proteins

Herman K Edskes et al. Genetics. 2009 Mar.

Abstract

As hamster scrapie cannot infect mice, due to sequence differences in their PrP proteins, we find "species barriers" to transmission of the [URE3] prion in Saccharomyces cerevisiae among Ure2 proteins of S. cerevisiae, paradoxus, bayanus, cariocanus, and mikatae on the basis of differences among their Ure2p prion domain sequences. The rapid variation of the N-terminal Ure2p prion domains results in protection against the detrimental effects of infection by a prion, just as the PrP residue 129 Met/Val polymorphism may have arisen to protect humans from the effects of cannibalism. Just as spread of bovine spongiform encephalopathy prion variant is less impaired by species barriers than is sheep scrapie, we find that some [URE3] prion variants are infectious to another yeast species while other variants (with the identical amino acid sequence) are not. The species barrier is thus prion variant dependent as in mammals. [URE3] prion variant characteristics are maintained even on passage through the Ure2p of another species. Ure2p of Saccharomyces castelli has an N-terminal Q/N-rich "prion domain" but does not form prions (in S. cerevisiae) and is not infected with [URE3] from Ure2p of other Saccharomyces. This implies that conservation of its prion domain is not for the purpose of forming prions. Indeed the Ure2p prion domain has been shown to be important, though not essential, for the nitrogen catabolism regulatory role of the protein.

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Figures

F<sc>igure</sc> 1.—
Figure 1.—
Ure2 protein sequences of Saccharomyces species. “−” means a residue deletion and “·” means a residue identical to the S. cerevisiae sequence.
See this image and copyright information in PMC

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