El pato criollo peruano (Cairina moschata domestica) es una de las especies de mayor importancia económica en la alimentación humana. Las especies de patos forman grupos genéticos complejos y ...difíciles de reconocer, por lo que el uso marcadores microsatélites (SSR) identificados en una especie relacionada como Anas platyrhynchos, representa una opción atractiva, de menor costo y útil para resolver temas relacionados con la conservación de la diversidad genómica, flujo génico e hibridación entre poblaciones. El objetivo de la investigación fue evaluar la transferibilidad de 24 SSR identificados para A. platyrhynchos a las poblaciones peruanas de C. moschata doméstica y determinar el grado de polimorfismo (PIC) de los marcadores transferibles. Para ello, se obtuvo ADN a partir de plumas alares usando el método cloroformo-alcohol isoamílico. Los SSR se construyeron con una secuencia adicional de 19 pb (cola M13) y se utilizaron fluoróforos 6-FAM, VIC, NED y PET para su etiquetado. Los fragmentos amplificados fueron visualizados en geles de agarosa 2% y separados por electroforesis capilar en un secuenciador automático ABI 3130XL. Los resultados mostraron 7 SSRs con un valor PIC alto (PIC>0.5) y que el marcador CMO211 se expresaba con un tamaño molecular menor del de la referencia. En conclusión, el presente trabajo demostró que el 75% de los SSR diseñados para A. platyrhynchos son transferibles a C. moschata domestica; y que sólo 7 fueron altamente informativos. Demostrando así que los SSRs son útiles en la detección de polimorfismos en especies relacionadas y pueden ser usados para mejorar las poblaciones peruanas de patos criollos.
The aim of this study was the identification of candidate genomic regions associated with fiber diameter in alpacas. DNA samples were collected from 1011 female Huacaya alpacas from two geographical ...Andean regions in Peru (Pasco and Puno), and three alpaca farms within each region. The samples were genotyped using an Affymetrix Custom Alpaca genotyping array containing 76,508 SNPs. After the quality controls, 960 samples and 51,742 SNPs were retained. Three association study methodologies were performed. The GWAS based on a linear model allowed us to identify 11 and 35 SNPs (−log10(p-values) > 4) using information on all alpacas and alpacas with extreme values of fiber diameter, respectively. The haplotype and marker analysis method allowed us to identify nine haplotypes with standardized haplotype heritability higher than six standard deviations. The selection signatures based on cross-population extended haplotype homozygosity (XP-EHH) allowed us to identify 180 SNPs with XP-EHH values greater than |3|. Four candidate regions with adjacent SNPs identified via two association methods of analysis are located on VPA6, VPA9, VPA29 and one chromosomally unassigned scaffold. This study represents the first analysis of alpaca whole genome association with fiber diameter, using a recently assembled alpaca SNP microarray.
Llamas (
) are invaluable resources of Peru. Despite their importance, their population is decreasing. The Camelid Germplasm Bank-Quimsachata was created as a guardian of this South American camelid ...(SAC) species and established a bank of llamas from their two types, Ch'aku and Q'ara. However, these populations need to present high genetic diversity to be considered suitable conservation stocks. Thus, in the present study, 13 microsatellites specific for the SAC were used to assess the current genetic variability and differentiation of the llama population from the Bank. The global population showed high genetic diversity with a total of 157 different alleles, with an average of 12.08 alleles per microsatellite, an expected and observed heterozygosity of 0.758 and 0.707, respectively, and an average polymorphic information content (PIC) of 0.723. Although considered as two different breeds and managed separately, the genetic differentiation between Ch'aku and Q'ara was low (F
= 0.01). Accordingly, the gene flow value was high (Nm = 30.5). Overall, our results indicate the existence of high genetic variation among individuals, and thus, this llama population could be considered a suitable genetic stock for their conservation and for sustainability programs. Additionally, the 13 microsatellites can be used to study other Peruvian llama populations and monitor the genetic variability of llamas from the Camelid Germplasm Bank-Quimsachata.
•Genetic diversity and patrilineal origin of Peruvian creole cattle was studied.•Analyzed cattle showed low genetic diversity and absence of population structure.•Y-chromosome analysis revealed an ...Iberian Peninsula origin of the Peruvian creoles.•Some degree of male -mediated African cattle influence in the Peruvian creole cattle was evidenced.
The aim of this study was the identification of the genetic diversity and paternal origin of Peruvian creole cattle. A panel of 7 Y-chromosome specific markers (INRA189, UMN0103, BM861, UMN307, BYM-1, DDX3Y_1STR and ZFY10) were analyzed in 229 cattle from 6 regions of the Peruvian highlands. The creole cattle exhibited low genetic diversity (H= 0.50) mostly explained by within-population variation (98%) and absence of population structure (FST = 0.019) in the analyzed regions. These results are in concordance to other studies in Spanish cattle populations. The overall frequency and distribution of the major B. taurus haplogroups: Y1 (19%) and Y2 (81%), suggests that Peruvian creole cattle derived from the Iberian Peninsula cattle. Furthermore, our results some degree of male-mediated African cattle influence in the Peruvian creoles, supporting the findings of other studies in South American creole cattle populations. Altogether, our results revealed unique genetic characteristics of Peruvian creole cattle that may have important implications for future conservation programs.
The creole pigs represent 67% of the national population in Peru. They are a source of economic income in rural communities, and due to their rusticity, they are not much labor demanding. However, ...knowledge about its genetic diversity remains scarce. The objective of this study was to determine the population structure and genetic diversity of creole pigs from rural communities in south central Peru. Thirteen microsatellites were used to characterize 120 creole pigs from the departments of Ayacucho (57) and Apurimac (63). The samples were taken from hair follicles and ear tissue. Nine microsatellites were highly polymorphic and informative (PIC > 0.5) for both departments. The Ayacucho population had a mean number of alleles (MNA) and expected heterozygosity (
H
E
) of 8.8 and 0.68, respectively, while in the Apurimac population, these were 8.9 and 0.71, respectively. Both populations showed in less than 50% of their loci a deviation from Hardy–Weinberg equilibrium. There was a moderate genetic structure according to the analysis of molecular variance and the
F
ST
statistics (0.06), which was corroborated by Bayesian methods. In conclusion, the genetic diversity was mostly due to the intrapopulation variance (91%). Some individuals from Ayacucho shared similar alleles with those from Apurimac. This latter result may be due to their geographic proximity and the introduction of the same new exotic breeds. This is the first research on the genetic diversity of creole pigs in south central Peru. In fact, this study could serve as a basis for conservation strategies and actions in this region.
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