Cloning of the bovine prion-like Shadoo (SPRN) gene by comparative analysis of the predicted genomic locus

Uboldi, Cristina; Paulis, Marianna; Guidi, Elena; Bertoni, Anna; Meo, G. P. Di; Perucatti, A.; Iannuzzi, L.; Raimondi, Elena; Brunner, Ronald M.; Eggen, Andre A.; Ferretti, Luca

doi:10.1007/s00335-006-0078-7

Cited by 19 publications

(17 citation statements)

References 29 publications

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“…In cattle, PAOX has an opposite orientation (Btau26q23; [24]). Remarkably, the block ECHS1 , PAOX , MTG1 and SPRN seems highly conserved, as it is also found in man, mouse and even fugu [23].…”

Section: Resultsmentioning

confidence: 99%

“…This gene has already been described in man, mouse, rat, fish [23] and cow [24] and is predicted in chimpanzee (GenBank:XM_001146049). The Shadoo protein has also been identified in Sumatran orang-utan, rhesus macaque, white-tufted-ear marmoset, rabbit, guinea pig, dog, little brown bat, gray short-tailed opossum, chicken and western clawed frog [25].…”

Section: Introductionmentioning

confidence: 99%

“…According to the results of RT-PCR and Northern blot analyses in cow [24], RT-PCR in rat [23], and cDNA, EST and SAGE map data in man and mouse [25], SPRN is mainly expressed in brain tissue, the most important target organ for prion infections. Since PrP knock-out mice [30] and cattle lacking the prion protein [31] show no major phenotypic changes, another gene, possibly SPRN , might take over the physiological function of the prion protein.…”

Section: Introductionmentioning

confidence: 99%

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Characterization of the genomic region containing the Shadow of Prion Protein (SPRN) gene in sheep

Lampo

Poucke

Hugot³

et al. 2007

BMC Genomics

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Background: TSEs are a group of fatal neurodegenerative diseases occurring in man and animals. They are caused by prions, alternatively folded forms of the endogenous prion protein, encoded by PRNP. Since differences in the sequence of PRNP can not explain all variation in TSE susceptibility, there is growing interest in other genes that might have an influence on this susceptibility. One of these genes is SPRN, a gene coding for a protein showing remarkable similarities with the prion protein. Until now, SPRN has not been described in sheep, a highly relevant species in prion matters.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Characterization of the genomic region containing the Shadow of Prion Protein (SPRN) gene in sheep

Lampo

Poucke

Hugot³

et al. 2007

BMC Genomics

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“…B. taurus and B. grunniens both encoded Sho protein sequences as were published for cattle by Uboldi et al (2006). A 4 aa deletion of AAAG (codons 67-70; Fig.…”

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confidence: 88%

“…Additionally, the B. taurus sequences had three silent mutations: 37CAT, 288AAG and 360GAA (numbered relative to the ORF). In B. frontalis, one allele was the same as the cattle wild-type sequence (Uboldi et al, 2006) except for a change to serine in codon 71. The other allele had a deletion of the amino acids SAAG (codons 71-74; Fig.…”

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confidence: 99%

Genetic analysis of the SPRN gene in ruminants reveals polymorphisms in the alanine-rich segment of shadoo protein

Stewart

Shen

Zhao

et al. 2009

Journal of General Virology

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Prion diseases in ruminants, especially sheep scrapie, cannot be fully explained by PRNP genetics, suggesting the influence of a second modulator gene. The SPRN gene is a good candidate for this role. The SPRN gene encodes the shadoo protein (Sho) which has homology to the PRNP gene encoding prion protein (PrP). Murine Sho has a similar neuroprotective activity to PrP and SPRN gene variants are associated with human prion disease susceptibility. SPRN gene sequences were obtained from 14 species in the orders Artiodactyla and Rodentia. We report here the sequences of more than 20 different Sho proteins that have arisen due to single amino acid substitutions and amino acid deletions or insertions. All Sho sequences contained an alanine-rich sequence homologous to a hydrophobic region with amyloidogenic characteristics in PrP. In contrast with PrP, the Sho sequence showed variability in the number of alanine residues.

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The PrP-Like Proteins Shadoo and Doppel

Westaway

Daude

Wohlgemuth

et al. 2011

Topics in Current Chemistry

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An almost unique place within protein databases, twenty-five years of study has underscored the enigmatically subtle role of PrP(C) in normal cell biology. It seems that PrP has evolved (and survived) to perform a function that does not have a precedent amongst transmembrane cell-surface proteins, perhaps representing a new type of plasma membrane ecosystem. In a context where we await a clarifying insight to unify a panoply of PrP(C) data into logical molecular framework, the GPI-anchored N-glycosylated Doppel and Sho proteins are tantalizing in that they correspond roughly to the front and back halves of PrP(C) itself. These molecules may be simpler - and more "understandable" - entities that can be pursued in parallel to PrP(C), and could open up the biology of mammalian prion proteins from fresh directions. Dpl has a profound role in successful gametogenesis that warrants close scrutiny and a case for deeper study can be made for Sho, a recently discovered CNS-expressed protein with many parallels to established facets of PrP biochemistry. In an aerial view of biomedical research, Sho and Dpl can be considered as adjacent islands in a prion protein archipelago. As such, the coming years of molecular exploration should be extremely interesting.

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Cloning of the bovine prion-like Shadoo (SPRN) gene by comparative analysis of the predicted genomic locus

Cited by 19 publications

References 29 publications

Characterization of the genomic region containing the Shadow of Prion Protein (SPRN) gene in sheep

Characterization of the genomic region containing the Shadow of Prion Protein (SPRN) gene in sheep

Genetic analysis of the SPRN gene in ruminants reveals polymorphisms in the alanine-rich segment of shadoo protein

The PrP-Like Proteins Shadoo and Doppel

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