Background One of the consequences of the presentation of reproductive failures in sows is the economic losses in production because it alters the estimated values of the volume of production, decreasing the productivity of the farm. Porcine circovirosis by porcine circovirus 2 (PCV2) has been associated with reproductive disorders, and porcine parvovirus (PVP) is one of the pathological agents most related to the presentation of reproductive failure in pigs. In Colombia, there are reports of the presence of PCV2 through molecular techniques, and PVP through serum tests; however, in the department of Tolima, the prevalence of these two viruses is unknown. Objective In this study, the aim was to establish a report of the prevalence of viruses in five municipalities of the department of Tolima‐Colombia. Methods Blood samples from 150 breeding sows of five municipalities in Tolima, Colombia, were obtained. Quantitative polymerase chain reaction (qPCR) was used to detect the PCV2 and PVP virus in the blood samples followed by PCR and sequencing of 16 PCR products of the amplification of the cap gene of PCV2. A phylogenetic tree was constructed to identify the genotype of the PCV2 virus. Results The presence of PCV2d in sows was detected in 135 samples (90%), as well as the identification of PVP in 2.6% of the samples. In addition, the phylogenetic analysis showed that 16 isolates were the PCV2d2 genotype. Conclusion PCV2d and PVP were found to coinfect the females, and the identification of variability in regions in the predicted amino acid sequence of the PCV2 capsid may be associated with virus pathogenicity.
BackgroundColombian Creole pigs are a valuable resource for rural livelihood and research. There are three o cially recognized Creole breeds in Colombia (Zungo, ZU; Casco de Mula, CM; and San Pedreño, SP). The phenotypic characterization of these breeds is still very limited, including the reproductive performance of their boars, which is a key issue for developing conservation and dissemination strategies. The aim of this research was to assess the semen quality of Colombian Creole breeds as compared to commonly used international breeds. ResultsSeven boars for each Colombian Creole (ZU, CM, and SP) and international (Duroc, Belgian Landrace, and Pietrain) breeds were used in the experiment. Two doses of semen per boar were assessed in duplicate for sperm kinetics and membrane and acrosome integrity using computer-assisted sperm analysis and ow cytometry, respectively. On average, the Creole pigs, as compared to international breeds, showed lower (P<0.05) volumeof uid ejaculated(185.5 mL vs 239.9 mL) as well as sperm concentration (340.5 vs to 395.4, in million sperm/mL), motility (90.9% vs 95.3%) and progressive motility (63.1% vs 67.2%).No relevant differences between breeds for sperm velocity traits were observed, but Creole pigs had lower (P<0.05) proportion of morphologic normal sperm (86.1% vs 90.6%) and of sperm with intact mitochondria plasma membrane and acrosome (76.8% vs 87.5%). Mitochondrial membrane potential did not differ between Creole and international breeds. These results mean that Creole breeds had 60.5% less normal and motile sperm per ejaculate than international breeds. Amongst Creole breeds, SP had larger ejaculates and ZU showed greater proportion of normal and motile sperm, but they did not differ for the amount of normal and motile sperm per ejaculate. ConclusionThe semen of Colombian Creole pigs is acceptable but less abundant and rich in normal and motile spermatozoa than that collected from commercial breeds. This fact should be considered in developing recommendations for semen processing in Creole pigs. Findings provided here can give new impetus to the conservation and insemination of Creole pigs.
El objetivo del presente trabajo fue evidenciar la presencia del circovirus porcino 2 (PVC2) y la serorreactividad en granjas porcícolas en las regiones de Tolima y Huila, Colombia, mediante un estudio transversal. Se tomaron muestras de sangre y tejidos (linfonodos, pulmón y riñón) de animales de todas las etapas productivas, incluyendo animales sanos y con signos de la enfermedad. Mediante la prueba de ELISA se detectaron animales seropositivos en todas las etapas productivas. Para identificar la presencia del virus se amplificó el ORF2 completo del PCV2 mediante PCR punto final utilizando ADN extraído de sangre, linfonodos, pulmón y riñón. Las muestras fueron genotipificadas, encontrándose animales positivos a PCV2, tanto sanos como enfermos, en todas las etapas de producción. El análisis de las secuencias demostró un porcentaje de identidad entre 93 y 99% con el genotipo PCV2d. Se encontraron animales sin signos clínicos positivos a la prueba de ELISA y al PCR, lo cual sugiere la presencia de infecciones subclínicas o variaciones en la virulencia de las cepas infectantes. Adicional a estas pruebas, se realizó una encuesta epidemiológica, donde no se detectaron asociaciones significativas entre la presencia del virus y el manejo de la producción.
Background There is a growing interest to decipher the genetic background of resilience and its possible improvement through selective breeding. The objective of the present study was to provide new insights into the genetic make-up of resilience in growing pigs by identifying genomic regions and candidate genes associated with resilience indicators. Commercial Duroc pigs were challenged with an attenuated Aujeszky vaccine at 12 weeks of age. Two resilience indicators were used: deviation from the expected body weight at 16 weeks of age given the growth curve of non-vaccinated pigs (∆BW) and the increase in acute-phase protein haptoglobin at four days post-vaccination (∆HP). Genome-wide association analyses were carried out on 445 pigs, using genotypes at 41,165 single nucleotide polymorphisms (SNPs) and single-marker and Bayesian multiple-marker regression approaches. Results Genomic regions on pig chromosomes 2, 8, 9, 11 (∆BW) and 8, 9, 13 (∆HP) were found to be associated with the resilience indicators and explained high proportions of their genetic variance. The genomic regions that were associated explained 27 and 5% of the genetic variance of ∆BW and ∆HP, respectively. These genomic regions harbour promising candidate genes that are involved in pathways related to immune response, response to stress, or signal transduction (CD6, PTGDR2, IKZF1, RNASEL and MYD88), and growth (GRB10 and LCORL). Conclusions Our study identified novel genomic regions that are associated with two resilience indicators (∆BW and ∆HP) in pigs. These associated genomic regions harbour potential candidate genes involved in immune response and growth pathways, which emphasise the strong relationship between resilience and immune response.
Una microbiota intestinal equilibrada constituye una barrera eficaz contra la colonización de patógenos, además de producir sustratos metabólicos (e.g. vitaminas, enzimas) y estimular el sistema inmunológico de mucosas. La suplementación con probióticos ha demostrado mejorar la digestibilidad en cerdos y servir como inmunoestimulante. El objetivo del presente trabajo fue evaluar el perfil metabólico lipídico en cerdas suplementadas con Lactobacillus casei a través de un ciclo reproductivo. Se emplearon 18 cerdas F1 Landrace x Large White distribuidas completamente al azar en tres grupos: control, T1 suplementado con 10 x 106 UFC (unidades formadoras de colonias/g) de L. casei y T2 suplementado con 10 x 108 UFC/g de L. casei, con frecuencia de administración semanal por vía oral, durante 180 días, cubriendo un ciclo reproductivo. Se analizaron los metabolitos del perfil lipídico, hemático y proteico de cada hembra en el día del servicio, a los 80 y 113 días de gestación, al primer y décimo día posparto y a los 21 días de la lactancia (destete). En el periparto se encontraron diferencias en triglicéridos y nitrógeno ureico en sangre (BUN), donde T1 y T2 presentaron mayores concentraciones de triglicéridos (p
Background Colombian Creole pigs are a valuable resource for rural livelihood and research. There are three officially recognized Creole breeds in Colombia (Zungo, ZU; Casco de Mula, CM; and San Pedreño, SP). The phenotypic characterization of these breeds is still very limited, including the reproductive performance of their boars, which is a key issue for developing conservation and dissemination strategies. The aim of this research was to assess the semen quality of Colombian Creole breeds as compared to commonly used international breeds. Results Seven boars for each Colombian Creole (ZU, CM, and SP) and international (Duroc, Belgian Landrace, and Pietrain) breeds were used in the experiment. Two doses of semen per boar were assessed in duplicate for sperm kinetics and membrane and acrosome integrity using computer-assisted sperm analysis and flow cytometry, respectively. On average, the Creole pigs, as compared to international breeds, showed lower (P<0.05) volumeof fluid ejaculated(185.5 mL vs 239.9 mL) as well as sperm concentration (340.5 vs to 395.4, in million sperm/mL), motility (90.9% vs 95.3%) and progressive motility (63.1% vs 67.2%). No relevant differences between breeds for sperm velocity traits were observed, but Creole pigs had lower (P<0.05) proportion of morphologic normal sperm (86.1% vs 90.6%) and of sperm with intact mitochondria plasma membrane and acrosome (76.8% vs 87.5%). Mitochondrial membrane potential did not differ between Creole and international breeds. These results mean that Creole breeds had 60.5% less normal and motile sperm per ejaculate than international breeds. Amongst Creole breeds, SP had larger ejaculates and ZU showed greater proportion of normal and motile sperm, but they did not differ for the amount of normal and motile sperm per ejaculate. Conclusion The semen of Colombian Creole pigs is acceptable but less abundant and rich in normal and motile spermatozoa than that collected from commercial breeds. This fact should be considered in developing recommendations for semen processing in Creole pigs. Findings provided here can give new impetus to the conservation and insemination of Creole pigs.
Dissecting genetic variation of local breeds is important for the success of conservation. In this research, we investigated the genomic variation of Colombian Creole (CR) pigs, with a focus on the breed-specific variants in the exonic region of 34 genes with reported effects on adaptive and economic traits. Seven individuals of each of the three CR breeds (CM, Casco de Mula; SP, San Pedreño; and ZU, Zungo) were whole-genome sequenced along with 7 Iberian (IB) pigs and 7 pigs of each of the four most used cosmopolitan (CP) breeds (Duroc, Landrace × Large White, and Pietrain). Molecular variability in CR (6,451,218 variants; from 3,919,242, in SP, to 4,648,069, in CM) was comparable to that in CP, but higher than in IB. For the investigated genes, SP pigs displayed less exonic variants (178) than ZU (254), CM (263), IB (200), and the individual CP genetic types (201 to 335). Sequence variation in these genes confirmed the resemblance of CR to IB and indicates that CR pigs, particularly ZU and CM, are not exempt from selective introgression of other breeds. A total of 50 exonic variants were identified as being potentially specific to CR, including a high-impact deletion in the intron between exons 15 and 16 of the leptin receptor gene, which was only found in CM and ZU. The identification of breed-specific variants in genes related to adaptive and economical traits can bolster the understanding of the role of gene-environment interactions on local adaptation and points the way for effective breeding and conservation of CR pigs.
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