Your search keyword '"Davide Calascibetta"' showing total 3 results

1. Polymorphisms of β-defensin genes in Valle del Belice dairy sheep

Author

Marisa Palmeri, Baldassare Portolano, Davide Calascibetta, Mariangela Scaturro, Valentina Riggio, Paola Galluzzo, Giuseppina Monteleone, Monteleone,G, Calascibetta,D, Scaturro,M, Galluzzo,P, Palmeri,M, Riggio,V, and Portolano,B

Subjects

Untranslated region, beta-Defensins, Genotype, Molecular Sequence Data, Single-nucleotide polymorphism, Biology, Polymorphism, Single Nucleotide, Settore AGR/17 - Zootecnica Generale E Miglioramento Genetico, Gene Frequency, b-Defensin, SNPs, Sheep Valle del Belice, Genetics, Animals, Coding region, RNA, Messenger, Molecular Biology, Defensin, Gene, Peptide sequence, Sheep, Domestic, chemistry.chemical_classification, Base Sequence, Computational Biology, General Medicine, Molecular biology, Amino acid, Dairying, chemistry, Genetic marker, Nucleic Acid Conformation

Abstract

The aim of this work was to study β-defensin 1 (SBD1) and β-defensin 2 (SBD2) genes in Valle del Belice dairy sheep in order to identify polymorphisms that can be utilized as markers of the analyzed genes, and search for the functional effects and roles of the identified polymorphisms (variation of the amino acid sequence of the protein and stability of mRNA molecule). The study was conducted on 300 randomly selected animals belonging to four flocks. A total of seven SNPs were identified, two in SBD1 and five in SBD2. The two SNPs identified in SBD2 coding region, at position 1659 and position 1667, were non-synonymous, leading to amino acid changes in the protein product. Nevertheless, the functional effects predicted by the two SNPs demonstrated that amino acid substitutions may not have effect on β-defensin 2 protein function. Moreover, we demonstrated that SBD2 mutant sequence shows changes in mRNA secondary structure. These results suggest that identified SNPs could play a role in the modulation of the immune response.

Published

2011

2. Sequence characterization of the melanocortin 1 receptor (MC1R) gene in sheep with different coat colour and identification of the putative e allele at the ovine Extension locus

Author

Vincenzo Russo, Francesca Beretti, Baldassare Portolano, Valentina Riggio, Davide Calascibetta, Luca Fontanesi, Stefania Dall'Olio, Fontanesi L, Beretti F, Riggio V, Dall'Olio S, Calascibetta D, Russo V, Portolano B., Fontanesi, L, Beretti, F, Riggio, V, Dall’Olio, S, Calascibetta, D, Russo, V, and Portolano, B

Subjects

Genetics, Haplotype, Coat colour, MC1R, Missense mutation, Ovine breeds, Single-nucleotide polymorphism, Locus (genetics), Biology, Settore AGR/17 - Zootecnica Generale E Miglioramento Genetico, COAT COLOUR, Food Animals, SHEEP, BREEDS, Epistasis, Animal Science and Zoology, Allele, Gene, Allele frequency, POLYMORPHISMS, Melanocortin 1 receptor

Abstract

Sequence of the melanocortin 1 receptor (MC1R) gene (the Extension locus) was obtained from a panel of 73 animals belonging to 9 Italian sheep breeds or populations (Appenninica, Bergamasca, Comisana, Cornigliese-like, Delle Langhe, Massese, Merinizzata Italiana, Sarda and Valle del Belice) with different coat colours. Evaluation of the identified polymorphisms on this phenotype was reported with in silico predictions and comparative approaches within and across breeds and across species. Five novel single nucleotide polymorphisms (SNPs), organized in three haplotypes, were detected. Another haplotype, including the two missense mutations already described for the ED allele, was identified in few Massese sheep. One SNP (c.199C > T) caused a predicted amino acid substitution (p.R67C) in a highly conserved position of the first intracellular loop of the MC1R protein. The same substitution causes recessive pheomelanism in other species. We propose that the p.67C allele represents the recessive e allele at the ovine Extension series that was, so far, not completely recognized in sheep by classical genetic studies. This polymorphism was analysed in a total of 388 sheep of the 9 investigated breeds. The p.67C allele was identified only in the Valle del Belice breed (allele frequency of 21.3% in 176 analysed animals of this breed) in which the presence of epistatic white-determining loci might mask, at least in part, its effects. Confirming the effect of this novel allele on coat colour will lead to new perspectives on the composition of specialized coloured sheep lines.

Published

2010

3. Study of β-defensin polymorphisms in Valle del Belice dairy sheep

Author

Rosa Reina, Giuseppina Monteleone, Davide Calascibetta, B. Portolano, MONTELEONE, G, CALASCIBETTA, D, REINA, R, and PORTOLANO, B

Subjects

Genetics, Untranslated region, sheep, 040301 veterinary sciences, 0402 animal and dairy science, Intron, β-defensin, SNP, Sheep, SNP, Single-nucleotide polymorphism, 04 agricultural and veterinary sciences, Biology, 040201 dairy & animal science, Molecular biology, β-defensin, 0403 veterinary science, Exon, Settore AGR/17 - Zootecnica Generale E Miglioramento Genetico, Coding region, Animal Science and Zoology, lcsh:Animal culture, Defensin, Gene, lcsh:SF1-1100

Abstract

The aim of this work was to sequence the exons of β-defensin 1 and 2 genes (SBD1 and SBD2) in Valle del Belice dairy sheep in order to identify polymorphisms. The study was conducted on 60 samples from three flocks. Six SNPs were identified: two in SBD1 and four in SBD2. Both genes consist of two exons and one intron. In SBD1 gene, SNPs were found only in the exon 2, whereas in SBD2, SNPs were detected in both exons. In both genes, SNPs were located in the coding regions and in the 3'-UTR. The SNP in SBD2 located at position 1659 determined a change in the protein sequence. Further studies will be necessary to investigate if the amino acid change modifies the biological function of the protein and the association with SCC, in order to use this information in a breeding program for mastitis resistance in Valle del Belice sheep.

Published

2009