The turkey is second only to the chicken in importance as an agriculturally important poultry species. Unlike the chicken, however, genetic studies of the turkey continue to be limited. For example, to date, many genomic investigations have been conducted to characterize genetic relationships between commercial (CO) and non-CO chicken breeds, whereas the nature of the genetic relatedness between CO and heritage turkeys remains unknown. The objective of the current research was to use microsatellites to analyze the genetic relatedness between CO and heritage domestic turkeys including Narragansett, Bourbon Red, Blue Slate, Spanish Black, and Royal Palm. Primer pairs specific for 10 previously described turkey microsatellite markers were used. The phylogenetic analysis showed that the Blue Slate, Bourbon Red, and Narragansett were genetically closely related to the CO strain, with a Nei distance of 0.30, and the Royal Palm and Spanish Black were the least related to the CO strain, with Nei distances of 0.41 and 0.40, respectively. The present work provides a foundation for the basis of using heritage turkeys to genetically improve CO populations by introgression.
Determining variation in genes is fundamental to understanding their function in the disease state. Cardiac troponin T (cTnT) and phospholamban (PLN) genes have been implicated in dilated cardiomyopathy (DCM) in human and model species. To investigate the role of these 2 candidate genes in DCM in the turkey Meleagris gallopavo, understanding sequence variants and map position distribution is necessary. To this end, a total of 1854 and 1771 bp of cTnT and PLN gene sequences, respectively, were scanned for single nucleotide polymorphisms (SNPs) in a randomly bred population. A total of 15 SNPs was identified in the cTnT and PLN genomic sequences. Nine haplotypes, 5 in cTnT and 4 in PLN, were identified. Observed heterozygosities (0.02-0.39) in the turkey population were low for both genes. Within each gene, 1 SNP corresponding to a restriction enzyme site was identified and used to develop a PCR-restriction fragment length polymorphism (RFLP) genotyping assay. The PLN gene was genetically mapped to turkey chromosome 2, equivalent to Gallus gallus chromosome 3, and cTnT mapped to a turkey microchromosome. Although limited because of the relatively small sample size of 55 birds, the data from this SNP analysis of PLN and cTnT provide a foundation from which to evaluate the function of cTnT and PLN in the turkey. Information about the distribution of the SNPs and haplotypes will facilitate future association and linkage studies.
The budgerigar, Melopsittacus undulatus, belongs to a group of birds that are among the most common captive‐held avian species that are also most threatened. Budgies are also a valuable resource as model species for many important vertebrate characteristics including auditory and ageing. Several microsatellite‐enriched genomic libraries were developed using standard protocols. Twelve of 20 primer pairs developed from microsatellite‐containing sequences were codominant and polymorphic when tested on 21 birds from three different states. The number of alleles detected ranged from two to four, with the expected and observed heterozygosities ranging from 0.09 to 0.61 and from 0.00 to 0.85, respectively. The genomic libraries and the primers described here will be useful in characterizing budgies.
The recent completion of the draft of the chicken genome sequence, the first for an agriculturally important animal species, confirms the utility of this extensively-studied and most understood avian species, as well as the utility of other little-studied birds in vertebrate biology and human medicine. The emerging information from the chicken genome is expected to increase our understanding of phenomena important in human biology and that of other avian and livestock species. Insight into the genomes of the chicken and other birds may help us validate and also discover genetic mechanisms that underlie many important human diseases and conditions. An understanding of the budgerigar genome, for example, may provide information about the molecular mechanisms that influence the budgie's apparent resistance to oxidative stress. Similarly, our understanding of the turkey genome may help us define the relationship between oxidative stress and dilated cardiomyopathy in humans and other species. In this review, we will discuss the progress in avian genomics and provide a road map about where this progress will lead in the broad area of comparative genomics and our understanding of medically and biologically important phenomena.
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