Copy number variation (CNV), which results from deletions or amplifications of large fragments of... more Copy number variation (CNV), which results from deletions or amplifications of large fragments of genomic DNA, is widespread in mammalian genomes and apart from its potential pathogenic effect it is considered as a source of natural genetic diversity. In cattle populations, this kind of genetic variability remains still insufficiently elucidated and studies focusing on the detection of new structural genomic variants in different cattle populations may contribute to a better understanding of cattle breeds' diversity and genetic basis of production traits. In this study, by using BovineSNP50 assay and cnvPartition algorithm we identified CNVs in two different cattle breeds: Holstein (859 animals) and Polish Red (301). In Holstein cattle we found 648 CNVs which could be reduced to 91 non-redundant variable genomic regions (CNVRs) covering in total 168.6 Mb of the genomic sequence. In Polish Red cattle we detected 62 CNVs, localized in 37 variable regions encompassing 22.3 Mb of the sequence, corresponding to 0.89 % of the autosomal genome. Within the regions we identified 1,192 unique RefSeq genes which are engaged in a variety of biological processes. High concordance of the regions' distribution was found between the studied breeds, however copy number variants seemed to be more common in Holstein cattle. About 26 % of the regions described in this study could be classified as newly identified. The results of this study will broaden the knowledge of CNVs in genomes of cattle of different breeds and will provide foundations for further research aiming to identify a relationship between this type of genetic variation and phenotypic traits.
The present study attempts to analyse sequences of the X- and Y-chromosome specific regions of th... more The present study attempts to analyse sequences of the X- and Y-chromosome specific regions of the amelogenin (AMEL) gene in red deer. To this end, primers specific for each form of the gene (AMELX and AMELY) were designed based on bovine genomic sequences and the homologous regions of the genes were sequenced. The obtained sequence of AMELX gene showed high
Abstract Text: Next generation sequencing - RNA-seq technology is a powerful tool which creates n... more Abstract Text: Next generation sequencing - RNA-seq technology is a powerful tool which creates new possibilities in whole transcriptome analysis. The proper reads quantification, is an essential element of receiving the relevant analysis results. The aim of the present work was to illustrate the post alignment reads quantification as an important element in RNA-seq pipeline. As an example, we considered 22 samples selected from 4 pig breeds (Polish Landrace, Polish Large White, Pietrain and Pulawska) to analyse global changes in transcriptome form the muscle tissue. Bowtie2 output alignments for each sample were subjected to RNA-SeQC quality control before continuing with differential expression analysis. Considering changes between the mean coefficient of variation and the mean per-base coverage for genes with low, middle and high expression, two samples were excluded from the further analysis. Keywords: reads quantification post-alignment RNA-Seq pig
Next-generation sequencing RNA-Seq technology is a powerful tool that creates new possibilities f... more Next-generation sequencing RNA-Seq technology is a powerful tool that creates new possibilities for whole-transcriptome analysis. In our study, the RNA-Seq method was applied to analyze global changes in transcriptome from muscle tissue (m. semimembranosus) in two pig breeds (Pietrain and Polish Landrace, PL). The breeds differ in terms of muscularity, growth rate and reproduction traits. Using three different approaches (deseq, cufflinks and edger) and taking into account the most restrictive criteria, 35 genes differentially expressed between Pietrain and PL pigs were identified. In both breeds, the most abundant were transcripts encoding ribosomal and cytoskeletal proteins (TPM3, TCAP, TMOD4, TPM2, TNNC1) and calcium-binding proteins involved in muscle contraction, calcium-mediated signaling or cation transport (CASQ1, MLC2V, SLC25A4, MYL3). In PL pigs, we identified up-regulation of several genes that play crucial roles in reproduction: female gamete generation (BDP1, PTPN21, US...
Bulletin of the Veterinary Institute in Pulawy, 2014
ABSTRACT The aim of this study was to identify mutations in the D-loop region of mtDNA in head, n... more ABSTRACT The aim of this study was to identify mutations in the D-loop region of mtDNA in head, neck, and limb tumours in dogs, and determination of their relationship with the process of neoplastic transformation. Blood and tumour tissue samples from 19 dogs with diagnosed sporadic malignant tumours were analysed. DNA extraction, amplification, and sequencing of the mtDNA D-loop, and bioinformatic analyses were performed. Five mutations and 19 polymorphisms were observed in 68.42% of all tumours. Polymorphic variants were noted in 42.86% of the head and neck tumours and in 58.33% of the limb tumours. Mutations were observed in 21.05% of dogs. The mutations were found in 28.57% of the head and neck tumours and in 16.66% of the limb tumours. The mutations were identified in 50% of the studied epithelial cancers. In the mesenchymal tumours, no mutations in the D-loop region were observed. Mitochondrial haplotype A17 was found in over 40% cases of limb tumours. No association between the age, breed, sex, type of tumour, and detected polymorphic variants were observed. Different mutational changes in the D-loop sequences of mtDNA identified in the blood and tumour tissues may indicate a relationship between the type of tumour and individual changes in the D-loop nucleotide sequences of mtDNA.
DNA methylation patterns and their relation with genetic polymorphisms were determined in the equ... more DNA methylation patterns and their relation with genetic polymorphisms were determined in the equine OAS1 locus. Genetic variants of OAS1 were previously found to be associated with susceptibility to West Nile virus infections in horses. The subject of the study were white blood cells of 13 juvenile and 13 old horses from AA and HC breed and a set of solid tissues from a single adult horse. The aim was to determine the degree of variation of CpG methylation profiles with concern for tissue type, horse breed and age. Results of direct BSPCR and cloned BSPCR sequencing revealed that all of determined CpG islands (CGIs) were hypermethylated in exception to CGI covering OAS1 promoter and exon 1. One of intragenic CGIs displayed variability of methylation patterns across eight tissue types. The variability of particular sub-types of white blood cells between AA and HC horses were considered as the possible cause of interbreed differences of methylation levels. Comparison of sequence variability between converted and unconverted DNAs of both horse breeds showed polymorphisms of CpG sites to be the source of monoallelic methylation in exception to the polymorphic CpGs located in the OAS1 promoter. Two of them are new polymorphic variants in the OAS1 promoter region. Application of methylation data in conjunction with genetic variation detected at the OAS1 locus might be useful to deepen the knowledge about mechanisms underlying immunity to viral infections in the horse.
MicroRNAs (miRNAs) are a class of small, noncoding RNAs, which play a vital role in the regulatio... more MicroRNAs (miRNAs) are a class of small, noncoding RNAs, which play a vital role in the regulation of gene expression by binding to the 3' untranslated region (3'UTR) of a target mRNA. Despite a significant improvement in the identification of miRNAs in a variety of species, the coverage of the porcine miRNAome is still scarce. To identify porcine miRNAs potentially regulating processes taking place in the liver, we applied next generation sequencing. As a result, we detected 206 distinct miRNAs, of which 68 represented potential novel miRNAs. Among these new miRNAs, there were miRNAs deriving from the opposite arm of a hairpin precursor of already known miRNAs. Moreover, we observed 3' and 5' length and sequence variants, probably constituting so called isomiRs, as well as differentially mapped precursor loci, alternative precursor sequences and clustering of miRNA encoding genes. On the basis of expression levels, reflected by the number of sequence reads, we identified the most abundant miRNAs followed by gene target prediction and pathway analysis. The enriched pathways were connected with cellular and metabolic processes, growth factors as well as enzymatic activity. The obtained results are the first ones to concern the porcine liver miRNAome. Consequently, they will increase the number of known porcine miRNAs and facilitate further research on gene regulation mechanisms as well as biological processes associated with the liver functioning in pigs.
Copy number variation (CNV), which results from deletions or amplifications of large fragments of... more Copy number variation (CNV), which results from deletions or amplifications of large fragments of genomic DNA, is widespread in mammalian genomes and apart from its potential pathogenic effect it is considered as a source of natural genetic diversity. In cattle populations, this kind of genetic variability remains still insufficiently elucidated and studies focusing on the detection of new structural genomic variants in different cattle populations may contribute to a better understanding of cattle breeds' diversity and genetic basis of production traits. In this study, by using BovineSNP50 assay and cnvPartition algorithm we identified CNVs in two different cattle breeds: Holstein (859 animals) and Polish Red (301). In Holstein cattle we found 648 CNVs which could be reduced to 91 non-redundant variable genomic regions (CNVRs) covering in total 168.6 Mb of the genomic sequence. In Polish Red cattle we detected 62 CNVs, localized in 37 variable regions encompassing 22.3 Mb of the sequence, corresponding to 0.89 % of the autosomal genome. Within the regions we identified 1,192 unique RefSeq genes which are engaged in a variety of biological processes. High concordance of the regions' distribution was found between the studied breeds, however copy number variants seemed to be more common in Holstein cattle. About 26 % of the regions described in this study could be classified as newly identified. The results of this study will broaden the knowledge of CNVs in genomes of cattle of different breeds and will provide foundations for further research aiming to identify a relationship between this type of genetic variation and phenotypic traits.
Genetic improvement of animals based on artificial selection is leading to changes in the frequen... more Genetic improvement of animals based on artificial selection is leading to changes in the frequency of genes related to desirable production traits. The changes are reflected by the neutral, intergenic single nucleotide polymorphims (SNPs) being in long-range linkage disequilibrium with functional polymorphisms. Genome-wide SNP analysis tools designed for cattle, allow for scanning divergences in allelic frequencies between distinct breeds and thus for identification of genomic regions which were divergently selected in breeds' histories. In this study, by using Bovine SNP50 assay, we attempted to identify genomic regions showing the highest differences in allele frequencies between two distinct cattle breeds - preserved, unselected Polish Red breed and highly selected Holstein cattle. Our study revealed 19 genomic regions encompassing 55 protein-coding genes and numerous quantitative trait loci which potentially may underlie some of the phenotypic traits distinguishing the breeds.
The breed assignment in cattle is one of the issues of molecular genetics which needs further tes... more The breed assignment in cattle is one of the issues of molecular genetics which needs further testing and development. Although several statistical approaches have been developed to enable such application, the obtained results strongly depend on specific populations differentiation and power of markers discrimination or their informativeness. Currently, all breeding animals are being tested for parentage with the use of panel of 12 microsatellite markers, which in near future probably will be replaced by about 100 single nucleotide polymorphisms (SNPs). Despite the fact that SNPs are mainly bi-allelic, the multilocus genotypes can reach the level of polymorphism of a panel of microsatellite markers. In this study we attempted to determine the breed of origin of 741 cattle by using 120 SNPs dedicated for parentage testing and included in the BovineSNP50 BeadChip genotyping assay (Illumina). The applied Bayesian and frequency-based methods allowed such differentiation, however, the reliability of the results was not completely satisfying, suggesting that the studied markers are not the best tool for breed assignment.
Prion protein gene (PRNP) variants determine the susceptibility of humans, sheep and mice to prio... more Prion protein gene (PRNP) variants determine the susceptibility of humans, sheep and mice to prion diseases, whereas polymorphisms in the open reading frame (ORF) of bovine PRNP seem to be unrelated to the incidence of bovine spongiform encephalopathy (BSE). According to the latest reports, the genetic susceptibility of cattle to BSE is associated with polymorphisms ofthe regulatory region of the PRNP gene and the level ofits expression. This review provides information on the bovine PRNP gene, its polymorphism, and recently identified genetic markers for BSE, and attempts to explain the mechanism behind the genetic resistance or susceptibility of cattle to this disease.
Scrapie, a fatal transmissible spongiform encephalopathy (TSE) occurs in two phenotypes: classica... more Scrapie, a fatal transmissible spongiform encephalopathy (TSE) occurs in two phenotypes: classical and atypical. Many authors point out that the polymorphism of three codons (136, 154, 171) of the PRNP (PrP gene) is associated with a sheep susceptibility to classical scrapie. Until now, only one PRNP gene variant coding phenylalanine at codon 141 has been found to be associated with atypical scrapie. Another recently identified and interesting candidate gene for scrapie susceptibility in sheep is an SPRN gene coding for Shadoo protein (Sho). Sho is a highly interspecies conserved protein and an insertion/deletion (indel) found in a sheep Sho gene was associated with classical scrapie occurrence. Here we determined the polymorphism of PRNP and SPRN genes in nine atypical scrapie cases (six in native born sheep and three in imported sheep) and compared these results with a control group of healthy animals comprising six corresponding Polish sheep breeds. In atypical scrapie cases five PRNP diplotypes were identified: A136R154Q171/ARQ, AHQ/ARQ, ARR/ARQ, ARR/AHQ and AHQ/AHQ. The ARR/AHQ diplotype was found only in imported sheep. A previously unobserved SNP in PRNP (E224K) was also found in both atypical scrapie and in a few control animals. In the ORF of the SPRN gene, six SNPs and one indel were identified. None of these variations was exclusive for scrapie animals and they were probably, naturally occurring polymorphisms. Special attention was given to the 6-bp indel SPRN polymorphism which was previously associated with classical scrapie occurrence.
Copy number variation (CNV), which results from deletions or amplifications of large fragments of... more Copy number variation (CNV), which results from deletions or amplifications of large fragments of genomic DNA, is widespread in mammalian genomes and apart from its potential pathogenic effect it is considered as a source of natural genetic diversity. In cattle populations, this kind of genetic variability remains still insufficiently elucidated and studies focusing on the detection of new structural genomic variants in different cattle populations may contribute to a better understanding of cattle breeds' diversity and genetic basis of production traits. In this study, by using BovineSNP50 assay and cnvPartition algorithm we identified CNVs in two different cattle breeds: Holstein (859 animals) and Polish Red (301). In Holstein cattle we found 648 CNVs which could be reduced to 91 non-redundant variable genomic regions (CNVRs) covering in total 168.6 Mb of the genomic sequence. In Polish Red cattle we detected 62 CNVs, localized in 37 variable regions encompassing 22.3 Mb of the sequence, corresponding to 0.89 % of the autosomal genome. Within the regions we identified 1,192 unique RefSeq genes which are engaged in a variety of biological processes. High concordance of the regions' distribution was found between the studied breeds, however copy number variants seemed to be more common in Holstein cattle. About 26 % of the regions described in this study could be classified as newly identified. The results of this study will broaden the knowledge of CNVs in genomes of cattle of different breeds and will provide foundations for further research aiming to identify a relationship between this type of genetic variation and phenotypic traits.
The present study attempts to analyse sequences of the X- and Y-chromosome specific regions of th... more The present study attempts to analyse sequences of the X- and Y-chromosome specific regions of the amelogenin (AMEL) gene in red deer. To this end, primers specific for each form of the gene (AMELX and AMELY) were designed based on bovine genomic sequences and the homologous regions of the genes were sequenced. The obtained sequence of AMELX gene showed high
Abstract Text: Next generation sequencing - RNA-seq technology is a powerful tool which creates n... more Abstract Text: Next generation sequencing - RNA-seq technology is a powerful tool which creates new possibilities in whole transcriptome analysis. The proper reads quantification, is an essential element of receiving the relevant analysis results. The aim of the present work was to illustrate the post alignment reads quantification as an important element in RNA-seq pipeline. As an example, we considered 22 samples selected from 4 pig breeds (Polish Landrace, Polish Large White, Pietrain and Pulawska) to analyse global changes in transcriptome form the muscle tissue. Bowtie2 output alignments for each sample were subjected to RNA-SeQC quality control before continuing with differential expression analysis. Considering changes between the mean coefficient of variation and the mean per-base coverage for genes with low, middle and high expression, two samples were excluded from the further analysis. Keywords: reads quantification post-alignment RNA-Seq pig
Next-generation sequencing RNA-Seq technology is a powerful tool that creates new possibilities f... more Next-generation sequencing RNA-Seq technology is a powerful tool that creates new possibilities for whole-transcriptome analysis. In our study, the RNA-Seq method was applied to analyze global changes in transcriptome from muscle tissue (m. semimembranosus) in two pig breeds (Pietrain and Polish Landrace, PL). The breeds differ in terms of muscularity, growth rate and reproduction traits. Using three different approaches (deseq, cufflinks and edger) and taking into account the most restrictive criteria, 35 genes differentially expressed between Pietrain and PL pigs were identified. In both breeds, the most abundant were transcripts encoding ribosomal and cytoskeletal proteins (TPM3, TCAP, TMOD4, TPM2, TNNC1) and calcium-binding proteins involved in muscle contraction, calcium-mediated signaling or cation transport (CASQ1, MLC2V, SLC25A4, MYL3). In PL pigs, we identified up-regulation of several genes that play crucial roles in reproduction: female gamete generation (BDP1, PTPN21, US...
Bulletin of the Veterinary Institute in Pulawy, 2014
ABSTRACT The aim of this study was to identify mutations in the D-loop region of mtDNA in head, n... more ABSTRACT The aim of this study was to identify mutations in the D-loop region of mtDNA in head, neck, and limb tumours in dogs, and determination of their relationship with the process of neoplastic transformation. Blood and tumour tissue samples from 19 dogs with diagnosed sporadic malignant tumours were analysed. DNA extraction, amplification, and sequencing of the mtDNA D-loop, and bioinformatic analyses were performed. Five mutations and 19 polymorphisms were observed in 68.42% of all tumours. Polymorphic variants were noted in 42.86% of the head and neck tumours and in 58.33% of the limb tumours. Mutations were observed in 21.05% of dogs. The mutations were found in 28.57% of the head and neck tumours and in 16.66% of the limb tumours. The mutations were identified in 50% of the studied epithelial cancers. In the mesenchymal tumours, no mutations in the D-loop region were observed. Mitochondrial haplotype A17 was found in over 40% cases of limb tumours. No association between the age, breed, sex, type of tumour, and detected polymorphic variants were observed. Different mutational changes in the D-loop sequences of mtDNA identified in the blood and tumour tissues may indicate a relationship between the type of tumour and individual changes in the D-loop nucleotide sequences of mtDNA.
DNA methylation patterns and their relation with genetic polymorphisms were determined in the equ... more DNA methylation patterns and their relation with genetic polymorphisms were determined in the equine OAS1 locus. Genetic variants of OAS1 were previously found to be associated with susceptibility to West Nile virus infections in horses. The subject of the study were white blood cells of 13 juvenile and 13 old horses from AA and HC breed and a set of solid tissues from a single adult horse. The aim was to determine the degree of variation of CpG methylation profiles with concern for tissue type, horse breed and age. Results of direct BSPCR and cloned BSPCR sequencing revealed that all of determined CpG islands (CGIs) were hypermethylated in exception to CGI covering OAS1 promoter and exon 1. One of intragenic CGIs displayed variability of methylation patterns across eight tissue types. The variability of particular sub-types of white blood cells between AA and HC horses were considered as the possible cause of interbreed differences of methylation levels. Comparison of sequence variability between converted and unconverted DNAs of both horse breeds showed polymorphisms of CpG sites to be the source of monoallelic methylation in exception to the polymorphic CpGs located in the OAS1 promoter. Two of them are new polymorphic variants in the OAS1 promoter region. Application of methylation data in conjunction with genetic variation detected at the OAS1 locus might be useful to deepen the knowledge about mechanisms underlying immunity to viral infections in the horse.
MicroRNAs (miRNAs) are a class of small, noncoding RNAs, which play a vital role in the regulatio... more MicroRNAs (miRNAs) are a class of small, noncoding RNAs, which play a vital role in the regulation of gene expression by binding to the 3' untranslated region (3'UTR) of a target mRNA. Despite a significant improvement in the identification of miRNAs in a variety of species, the coverage of the porcine miRNAome is still scarce. To identify porcine miRNAs potentially regulating processes taking place in the liver, we applied next generation sequencing. As a result, we detected 206 distinct miRNAs, of which 68 represented potential novel miRNAs. Among these new miRNAs, there were miRNAs deriving from the opposite arm of a hairpin precursor of already known miRNAs. Moreover, we observed 3' and 5' length and sequence variants, probably constituting so called isomiRs, as well as differentially mapped precursor loci, alternative precursor sequences and clustering of miRNA encoding genes. On the basis of expression levels, reflected by the number of sequence reads, we identified the most abundant miRNAs followed by gene target prediction and pathway analysis. The enriched pathways were connected with cellular and metabolic processes, growth factors as well as enzymatic activity. The obtained results are the first ones to concern the porcine liver miRNAome. Consequently, they will increase the number of known porcine miRNAs and facilitate further research on gene regulation mechanisms as well as biological processes associated with the liver functioning in pigs.
Copy number variation (CNV), which results from deletions or amplifications of large fragments of... more Copy number variation (CNV), which results from deletions or amplifications of large fragments of genomic DNA, is widespread in mammalian genomes and apart from its potential pathogenic effect it is considered as a source of natural genetic diversity. In cattle populations, this kind of genetic variability remains still insufficiently elucidated and studies focusing on the detection of new structural genomic variants in different cattle populations may contribute to a better understanding of cattle breeds' diversity and genetic basis of production traits. In this study, by using BovineSNP50 assay and cnvPartition algorithm we identified CNVs in two different cattle breeds: Holstein (859 animals) and Polish Red (301). In Holstein cattle we found 648 CNVs which could be reduced to 91 non-redundant variable genomic regions (CNVRs) covering in total 168.6 Mb of the genomic sequence. In Polish Red cattle we detected 62 CNVs, localized in 37 variable regions encompassing 22.3 Mb of the sequence, corresponding to 0.89 % of the autosomal genome. Within the regions we identified 1,192 unique RefSeq genes which are engaged in a variety of biological processes. High concordance of the regions' distribution was found between the studied breeds, however copy number variants seemed to be more common in Holstein cattle. About 26 % of the regions described in this study could be classified as newly identified. The results of this study will broaden the knowledge of CNVs in genomes of cattle of different breeds and will provide foundations for further research aiming to identify a relationship between this type of genetic variation and phenotypic traits.
Genetic improvement of animals based on artificial selection is leading to changes in the frequen... more Genetic improvement of animals based on artificial selection is leading to changes in the frequency of genes related to desirable production traits. The changes are reflected by the neutral, intergenic single nucleotide polymorphims (SNPs) being in long-range linkage disequilibrium with functional polymorphisms. Genome-wide SNP analysis tools designed for cattle, allow for scanning divergences in allelic frequencies between distinct breeds and thus for identification of genomic regions which were divergently selected in breeds' histories. In this study, by using Bovine SNP50 assay, we attempted to identify genomic regions showing the highest differences in allele frequencies between two distinct cattle breeds - preserved, unselected Polish Red breed and highly selected Holstein cattle. Our study revealed 19 genomic regions encompassing 55 protein-coding genes and numerous quantitative trait loci which potentially may underlie some of the phenotypic traits distinguishing the breeds.
The breed assignment in cattle is one of the issues of molecular genetics which needs further tes... more The breed assignment in cattle is one of the issues of molecular genetics which needs further testing and development. Although several statistical approaches have been developed to enable such application, the obtained results strongly depend on specific populations differentiation and power of markers discrimination or their informativeness. Currently, all breeding animals are being tested for parentage with the use of panel of 12 microsatellite markers, which in near future probably will be replaced by about 100 single nucleotide polymorphisms (SNPs). Despite the fact that SNPs are mainly bi-allelic, the multilocus genotypes can reach the level of polymorphism of a panel of microsatellite markers. In this study we attempted to determine the breed of origin of 741 cattle by using 120 SNPs dedicated for parentage testing and included in the BovineSNP50 BeadChip genotyping assay (Illumina). The applied Bayesian and frequency-based methods allowed such differentiation, however, the reliability of the results was not completely satisfying, suggesting that the studied markers are not the best tool for breed assignment.
Prion protein gene (PRNP) variants determine the susceptibility of humans, sheep and mice to prio... more Prion protein gene (PRNP) variants determine the susceptibility of humans, sheep and mice to prion diseases, whereas polymorphisms in the open reading frame (ORF) of bovine PRNP seem to be unrelated to the incidence of bovine spongiform encephalopathy (BSE). According to the latest reports, the genetic susceptibility of cattle to BSE is associated with polymorphisms ofthe regulatory region of the PRNP gene and the level ofits expression. This review provides information on the bovine PRNP gene, its polymorphism, and recently identified genetic markers for BSE, and attempts to explain the mechanism behind the genetic resistance or susceptibility of cattle to this disease.
Scrapie, a fatal transmissible spongiform encephalopathy (TSE) occurs in two phenotypes: classica... more Scrapie, a fatal transmissible spongiform encephalopathy (TSE) occurs in two phenotypes: classical and atypical. Many authors point out that the polymorphism of three codons (136, 154, 171) of the PRNP (PrP gene) is associated with a sheep susceptibility to classical scrapie. Until now, only one PRNP gene variant coding phenylalanine at codon 141 has been found to be associated with atypical scrapie. Another recently identified and interesting candidate gene for scrapie susceptibility in sheep is an SPRN gene coding for Shadoo protein (Sho). Sho is a highly interspecies conserved protein and an insertion/deletion (indel) found in a sheep Sho gene was associated with classical scrapie occurrence. Here we determined the polymorphism of PRNP and SPRN genes in nine atypical scrapie cases (six in native born sheep and three in imported sheep) and compared these results with a control group of healthy animals comprising six corresponding Polish sheep breeds. In atypical scrapie cases five PRNP diplotypes were identified: A136R154Q171/ARQ, AHQ/ARQ, ARR/ARQ, ARR/AHQ and AHQ/AHQ. The ARR/AHQ diplotype was found only in imported sheep. A previously unobserved SNP in PRNP (E224K) was also found in both atypical scrapie and in a few control animals. In the ORF of the SPRN gene, six SNPs and one indel were identified. None of these variations was exclusive for scrapie animals and they were probably, naturally occurring polymorphisms. Special attention was given to the 6-bp indel SPRN polymorphism which was previously associated with classical scrapie occurrence.
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Papers by Artur Gurgul