Your search keyword '"Arranz, Juan José"' showing total 8 results

1. Fine-Mapping of Quantitative Trait Loci by Identity by Descent in Outbred Populations: Application to Milk Production in Dairy Cattle

Author

Riquet, Juliette, Coppieters, Wouter, Cambisano, Nadine, Arranz, Juan-José, Berzi, Paulette, Davis, Scott K., Grisart, Bernard, Farnir, Frédérick, Karim, Latifa, Mni, Myriam, Simon, Patricia, Taylor, Jeremy F., Vanmanshoven, Pascal, Wagenaar, Danny, Womack, James E., and Georges, Michel

Published

1999

2. Mitochondrial diversity and the origin of Iberian sheep

Author

Bayón Yolanda, San Primitivo Fermín, Molina Antonio, Brito Nuno, Arranz Juan-José, and Pedrosa Susana

Subjects

mitochondrial DNA, local sheep, sheep origin, Animal culture, SF1-1100, Genetics, QH426-470

Abstract

Abstract Mitochondrial DNA diversity was analysed in 19 Iberian and six foreign sheep breeds. Three mtDNA lineages (B, A and C) were found in the Iberian sheep, with type B clearly predominating over the others. The results were analysed for each of the morphologically determined breed groups in Iberian sheep: Merino, Entrefino, Churro and Iberian trunks. MtDNA lineage C was found only in the Iberian trunk composed of Montesina and Ojalada. These two populations had high mtDNA variability, and in the Iberian sheep only Merino Branco had more variation. The other three Merino types studied showed moderate variability, including the most authentic Merino, the Spanish Merino. These three Merinos clustered closely in a multidimensional scaling representation of distances, while the fourth breed (Merino Branco) showed a clear separation. As for the other two trunks, breeds from the Churro group showed greater maternal uniformity while results for populations included in the so-called Entrefino trunk seemed to have a more heterogeneous maternal origin. The results obtained are discussed with available data from nuclear markers and with morphological classifications, and all this information is analysed in relation to the origin of the different Iberian sheep breeds.

Published

2007

3. Genetic relationships among Turkish sheep

Author

Kaya Mehmet, Saatci Mustafa, Primitivo Fermín, Arranz Juan-José, Gutiérrez-Gil Beatriz, Uzun Metehan, and Bayón Yolanda

Subjects

DNA microsatellites, local sheep breeds, genetic relationships, Animal culture, SF1-1100, Genetics, QH426-470

Abstract

Abstract Genetic relationships among Turkish sheep breeds were analysed on the basis of 30 microsatellite markers. Phylogenetic analyses based on the estimation of genetic distances revealed the closest relationships for the Akkaraman, Morkaraman and Tuj breeds, which were clearly differentiated from the others in the dendrogram. Our pattern was completely confirmed by results from the Factorial Correspondence Analysis. All the results described analysing either population parameters or individuals revealed a clear separation between the fat-tailed group and the others. These results, based on nuclear DNA, are discussed along with those already reported for these breeds through the investigation of mitochondrial DNA, which had revealed the invaluable significance of the genetic background of these Turkish sheep.

Published

2006

4. Differentiation among Spanish sheep breeds using microsatellites

Author

Primitivo Fermín, Bayón Yolanda, and Arranz Juan-José

Subjects

microsatellites, sheep breeds, population assignment, individual clustering analysis, Animal culture, SF1-1100, Genetics, QH426-470

Abstract

Abstract Genetic variability at 18 microsatellites was analysed on the basis of individual genotypes in five Spanish breeds of sheep – Churra, Latxa, Castellana, Rasa-Aragonesa and Merino -, with Awassi also being studied as a reference breed. The degree of population subdivision calculated between Spanish breeds from FST diversity indices was around 7% of total variability. A high degree of reliability was obtained for individual-breed assignment from the 18 loci by using different approaches among which the Bayesian method provided to be the most efficient, with an accuracy for nine microsatellites of over 99%. Analysis of the Bayesian assignment criterion illustrated the divergence between any one breed and the others, which was highest for Awassi sheep, while no great differences were evident among the Spanish breeds. Relationships between individuals were analysed from the proportion of shared alleles. The resulting dendrogram showed a remarkable breed structure, with the highest level of clustering among members of the Spanish breeds in Latxa and the lowest in Merino sheep, the latter breed exhibiting a peculiar pattern of clustering, with animals grouped into several closely set nodes. Analysis of individual genotypes provided valuable information for understanding intra- and inter-population genetic differences and allowed for a discussion with previously reported results using populations as taxonomic units.

Published

2001

5. Mapping quantitative trait loci for milk production and genetic polymorphisms of milk proteins in dairy sheep

Author

Barillet Francis, Arranz Juan-José, and Carta Antonello

Subjects

dairy sheep, milk proteins, genetic polymorphisms, QTL, milk production, Animal culture, SF1-1100, Genetics, QH426-470

Abstract

Abstract In this paper, we present recent advances in the molecular dissection of complex traits in dairy sheep and discuss their possible impact on breeding schemes. In the first step, we review the literature data on genetic polymorphisms and the effects of sheep αs1-casein and β-lactoglobulin loci. It is concluded that the results are rather inconsistent and cannot be used in dairy sheep selection. In a second step, we describe the strategy implemented in France, Italy and Spain taking advantage of the genetic maps for QTL detection. These studies were part of a European project, called "genesheepsafety", which investigated both milk production and functional traits. Preliminary QTL results are presented for production traits.

Published

2005

6. Quantitative trait loci for resistance to trichostrongylid infection in Spanish Churra sheep

Author

Primitivo Fermin San, Meana Aranzazu, Bayón Yolanda, de la Fuente Luis-Fernando, Martínez-Valladares Maria, Álvarez Lorena, Pérez Jorge, Gutiérrez-Gil Beatriz, Rojo-Vázquez Francisco-Antonio, and Arranz Juan-José

Subjects

Animal culture, SF1-1100, Genetics, QH426-470

Abstract

Abstract Background For ruminants reared on grazing systems, gastrointestinal nematode (GIN) parasite infections represent the class of diseases with the greatest impact on animal health and productivity. Among the many possible strategies for controlling GIN infection, the enhancement of host resistance through the selection of resistant animals has been suggested by many authors. Because of the difficulty of routinely collecting phenotypic indicators of parasite resistance, information derived from molecular markers may be used to improve the efficiency of classical genetic breeding. Methods A total of 181 microsatellite markers evenly distributed along the 26 sheep autosomes were used in a genome scan analysis performed in a commercial population of Spanish Churra sheep to detect chromosomal regions associated with parasite resistance. Following a daughter design, we analysed 322 ewes distributed in eight half-sib families. The phenotypes studied included two faecal egg counts (LFEC0 and LFEC1), anti-Teladorsagia circumcincta LIV IgA levels (IgA) and serum pepsinogen levels (Peps). Results The regression analysis revealed one QTL at the 5% genome-wise significance level on chromosome 6 for LFEC1 within the marker interval BM4621-CSN3. This QTL was found to be segregating in three out of the eight families analysed. Four other QTL were identified at the 5% chromosome-wise level on chromosomes 1, 10 and 14. Three of these QTL influenced faecal egg count, and the other one had an effect on IgA levels. Conclusion This study has successfully identified segregating QTL for parasite resistance traits in a commercial population. For some of the QTL detected, we have identified interesting coincidences with QTL previously reported in sheep, although most of those studies have been focused on young animals. Some of these coincidences might indicate that some common underlying loci affect parasite resistance traits in different sheep breeds. The identification of new QTL may suggest the existence of complex host-parasite relationships that have unique features depending on the host-parasite combination, perhaps due to the different mechanisms underlying resistance in adult sheep (hypersensitivity reactions) and lambs (immunity). The most significant QTL identified on chromosome 6 for LFEC1 may be the target for future fine-mapping research efforts.

Published

2009

7. Hereditary lissencephaly and cerebellar hypoplasia in Churra lambs.

Author

Pérez, Valentín, Suárez-Vega, Aroa, Fuertes, Miguel, Benavides, Julio, Delgado, Laetitia, Ferreras, M Carmen, and Arranz, Juan José

Subjects

NAVAJO-Churro sheep, LISSENCEPHALY, GENETIC disorders, NEURAL development, ABNORMALITIES in animals, HEREDITY, GENETICS

Abstract

Background: Lissencephaly is a rare developmental brain disorder in veterinary and human medicine associated with defects in neuronal migration leading to a characteristic marked reduction or absence of the convolutional pattern of the cerebral hemispheres. In many human cases the disease has a genetic basis. In sheep, brain malformations, mainly cerebellar hypoplasia and forms of hydrocephalus, are frequently due to in utero viral infections. Although breed-related malformations of the brain have been described in sheep, breed-related lissencephaly has not been previously recorded in a peer reviewed publication. Results: Here we report neuropathological findings in 42 newborn lambs from a pure Churra breed flock, with clinical signs of weakness, inability to walk, difficulty in sucking and muscular rigidity observed immediately after birth. All the lambs showed near-total agyria with only a rudimentary formation of few sulci and gyri, and a severe cerebellar hypoplasia. On coronal section, the cerebral grey matter was markedly thicker than that of age-matched unaffected lambs and the ventricular system was moderately dilated. Histologically, the normal layers of the cerebral cortex were disorganized and, using an immunohistochemical technique against neurofilaments, three layers were identified instead of the six present in normal brains. The hippocampus was also markedly disorganised and the number and size of lobules were reduced in the cerebellum. Heterotopic neurons were present in different areas of the white matter. The remainder of the brain structures appeared normal. The pathological features reported are consistent with the type LCH-b (lissencephaly with cerebellar hypoplasia group b) defined in human medicine. No involvement of pestivirus or bluetongue virus was detected by immunohistochemistry. An analysis of pedigree data was consistent with a monogenic autosomal recessive pattern inheritance. Conclusions: The study describes the clinical and pathological findings of lissencephaly with cerebellar hypoplasia in Churra lambs for which an autosomal recessive inheritance was the most likely cause. Histopathological features observed in the cerebral cortex and hippocampus are consistent with a possible failure in neuronal migration during brain development. This report suggests that lissencephaly should be considered in the differential diagnosis of congenital neurological disease in newborn lambs showing weakness, inability to walk and difficulty sucking. [ABSTRACT FROM AUTHOR]

Published

2013

8. Genetic diversity in Turkish sheep.

Author

Gutiérrez-Gil, Beatriz, Uzun, Metehan, Arranz, Juan-José, San Primitivo, Fermín, Yildiz, Sedat, Cenesiz, Metin, and Bayón, Yolanda

Subjects

MICROSATELLITE repeats, LIVESTOCK genetics, ANIMAL breeding, ANIMAL diversity, GENETICS, SHEEP

Abstract

The genetic relevance of Turkish sheep has recently been revealed by mtDNA analysis, which has led to the identification of a third maternal lineage in that species. We present here a study of the genetic variation of these breeds at a nuclear level from the analysis of 30 microsatellite loci. Parameters of variability indicated a high level of variation in the breeds analysed. Mean number of alleles per locus ranged from 7.8 to 10.4 and gene diversity varied between 0.69 and 0.74. Considerable differences were detected between breeds regarding the pattern of within-breed variability. Breed-specific alleles were detected at most loci and all breeds analysed, a total of 75 private variants being identified. The Hemsin sheep showed noticeably lower genetic variation in accordance with the present status of this breed. Percentages of shared alleles (from 54.8% to 69.5%) and gene flow estimates (from 5.98 to 28.32) gave information about the relative genetic differentiation of breeds. The results presented here for nuclear DNA complement those reported for mtDNA and bear out the need to preserve this invaluable genetic material. [ABSTRACT FROM AUTHOR]

Published

2006