RESUMO
During the last century, the critically endangered cotton-top tamarin (Saguinus oedipus) has been threatened by multiple anthropogenic factors that drastically affected their habitat and population size. As the genetic impact of these pressures is largely unknown, this study aimed to establish a genetic baseline with the use of temporal sampling to determine the genetic makeup before detrimental anthropogenic impact. Genomes were resequenced from a combination of historical museum samples and modern wild samples at low-medium coverage, to unravel how the cotton-top tamarin population structure and genomic diversity may have changed during this period. Our data suggest two populations can be differentiated, probably separated historically by the mountain ranges of the Paramillo Massif in Colombia. Although this population structure persists in the current populations, modern samples exhibit genomic signals consistent with recent inbreeding, such as long runs of homozygosity and a reduction in genome-wide heterozygosity especially in the greater northeast population. This loss is likely the consequence of the population reduction following the mass exportation of cotton-top tamarins for biomedical research in the 1960s, coupled with the habitat loss this species continues to experience. However, current populations have not experienced an increase in genetic load. We propose that the historical genetic baseline established in this study can be used to provide insight into alteration in the modern population influenced by a drastic reduction in population size as well as providing background information to be used for future conservation decision-making for the species.
RESUMO
BACKGROUND: The Barcode of Life initiative was originally motivated by the large number of species, taxonomic difficulties and the limited number of expert taxonomists. Colombia has 1,610 freshwater fish species and comprises the second largest diversity of this group in the world. As genetic information continues to be limited, we constructed a reference collection of DNA sequences of Colombian freshwater fishes deposited in the Ichthyology Collection of the University of Antioquia (CIUA), thus joining the multiple efforts that have been made in the country to contribute to the knowledge of genetic diversity in order to strengthen the inventories of biological collections and facilitate the solution of taxonomic issues in the future. NEW INFORMATION: This study contributes to the knowledge on the DNA barcodes and occurrence records of 96 species of Colombian freshwater fishes. Fifty-seven of the species represented in this dataset were already available in the Barcode Of Life Data System (BOLD System), while 39 correspond to new species to the BOLD System. Forty-nine specimens were collected in the Atrato River Basin and 708 in the Magdalena-Cauca asin during the period 2010-2020. Two species (Loricariichthysbrunneus (Hancock, 1828) and Poeciliasphenops Valenciennes, 1846) are considered exotic to the Atrato, Cauca and Magdalena Basins and four species (Oncorhynchusmykiss (Walbaum, 1792), Oreochromisniloticus (Linnaeus, 1758), Parachromisfriedrichsthalii (Heckel, 1840) and Xiphophorushelleri Heckel, 1848) are exotic to the Colombian hydrogeographic regions. All specimens are deposited in CIUA and have their DNA barcodes made publicly available in the BOLD online database. The geographical distribution dataset can be freely accessed through the Global Biodiversity Information Facility (GBIF).
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Abstract Background: Two biotypes of Aberdeen Angus cattle breed, known as Old Type and New Type, that differ in their origin and beef production are formally recognized. In Colombia, this breed has been commercialized for approximately 80 years. Studies on the origin, kinship and levels of genetic diversity of this breed in Colombian herds are scarce, yet important for planning crossing and management strategies. Objective: To measure the genetic diversity and structure of two Colombian herds of Old Type and New Type biotypes of Aberdeen Angus from Huila and Cundinamarca provinces and assess mitochondrial introgression with other breeds. Methods: A set of ten microsatellites and sequences of the Mitochondrial Control Region were characterized. Estimators of genetic diversity and population differentiation along with tests of population assignment were applied. Results: Nuclear loci were highly polymorphic as shown by the Polymorphic Information Content (0.599) and the Probability of Identity (1.896 10-08). Both populations were highly diverse and clearly differentiated into two groups corresponding to the Old Type and New Type phenotypes. In contrast, mitochondrial data failed to distinguish these two groups and showed extensive admixture. Conclusions: This study optimized a set of ten highly polymorphic nuclear markers that may be used for parentage and population genetic studies of Aberdeen Angus. Genetic differentiation in these loci agreed with phenotypic differences of the Old and New Types. However, mitochondrial data indicated ancestry of multiple European breeds in the origin of Colombian Aberdeen Angus.
Resumen Antecedentes: Dentro de la raza Aberdeen Angus existen dos biotipos conocidos como Old Type y New Type, las cuales difieren en su origen y producción de carne. En Colombia, esta raza se ha venido comercializando desde hace aproximadamente 80 años. No obstante, aún no se han realizado estudios sobre su origen, parentesco y niveles de diversidad genética de esta raza en hatos colombianos, lo cual es importante para planear estrategias de cruce y manejo. Objetivo: Medir la diversidad y estructura genética de dos hatos colombianos de Aberdeen Angus Old Type y New Type de Huila y Cundinamarca y evaluar la introgresión mitocondrial con otras razas. Métodos: Se caracterizó un grupo de diez loci microsatélite y se secuenció la Región Control Mitocondrial. Se aplicaron estimadores de diversidad genética y diferenciación poblacional, junto con pruebas de asignación poblacional. Resultados: Los loci microsatélite fueron altamente polimórficos, tal como lo indicaron el Contenido de Información Polimórfica (0,599) y la Probabilidad de Identidad (1,896 10-08). Las poblaciones evaluadas de Aberdeen Angus en Colombia fueron altamente diversas y se diferenciaron claramente en dos grupos correspondientes a los fenotipos Old Type y New Type. En contraste, los datos mitocondriales no recobraron estos dos grupos y mostraron una amplia mezcla genética. Conclusiones: Este estudio optimizó un grupo de diez marcadores altamente polimórficos que pueden ser usados para estudios de parentesco y genética poblacional de Aberdeen Angus. La diferenciación genética en loci nucleares concordó con las diferencias fenotípicas entre Old y New Types, pero los datos mitocondriales indicaron ancestría de múltiples razas europeas en el origen del Aberdeen Angus colombiano.
Resumo Antecedentes: Dentro da raça Aberdeen Angus há dois biótipos conhecidos como Old Type e New Type, que diferem em sua origem e produção de carne. Na Colômbia, esta raça é comercializada há aproximadamente 80 anos. Entretanto, estudos sobre a origem, o parentesco e os níveis de diversidade genética desta raça em rebanhos colombianos ainda não foram realizados, o que é importante para o planejamento de cruzamentos e estratégias de manejo. Objetivo: Medir a diversidade genética e a estrutura de dois rebanhos colombianos de biótipos de Old Type e New Type de Aberdeen Angus de Huila e Cundinamarca e avaliar a introgressão mitocondrial com outras raças. Métodos: Um grupo de dez loci de microssatélites foi caracterizado e a Região de Controle Mitocondrial foi sequenciada. As estimativas de diversidade genética e diferenciação populacional foram aplicadas, juntamente com testes de designação populacional. Resultados: Os locus microssatélites foram altamente polimórficos, conforme indicado pelo Conteúdo de Infomação Polimórfica (0,599) e Probabilidade de Identidade (1,896 10-08). As populações avaliadas de Aberden Angus na Colômbia eram altamente diversificadas e claramente diferenciadas em dois grupos correspondentes aos fenótipos do Old Type e New Type. Em contraste, os dados mitocondriais não recuperaram esses dois grupos e mostraram um amplo mix genético. Conclusões: Este estudo otimizou um grupo de dez marcadores altamente polimórficos que podem ser usados para estudos genéticos de parentesco e população de Aberdeen Angus. A diferenciação genética nos loci nucleares concordou com as diferenças fenotípicas entre os Old e New Types, mas os dados mitocondriais indicam ancestralidade de várias raças européias na origem do Aberdeen Angus colombiano.
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Although captive populations of western gorilla have been maintained in the United States for over a century, little is known about the geographic origins and genetic composition of the current zoo population. Furthermore, although previous mitochondrial analyses have shown that free-range gorilla populations exhibit substantial regional differentiation, nothing is known of the extent to which this variation has been preserved in captive populations. To address these questions, we combined 379 pedigree records with data from 52 mitochondrial sequences to infer individual haplogroup affiliations, geographical origin of wild founders and instances of inter-breeding between haplogroups in the United States captive gorilla population. We show that the current captive population contains all major mitochondrial lineages found within wild western lowland gorillas. Levels of haplotype diversity are also comparable to those found in wild populations. However, the majority of captive gorilla matings have occurred between individuals with different haplogroup affiliations. Although restricting crosses to individuals within the same haplogroup would preserve the phylogeographic structure present in the wild, careful management of captive populations is required to minimize the risk of drift and inbreeding. However, when captive animals are released back into the wild, we recommend that efforts should be made to preserve natural phylogeographic structure.
Assuntos
Conservação dos Recursos Naturais , DNA Mitocondrial/genética , Variação Genética , Genética Populacional , Gorilla gorilla/genética , Animais , Animais de Zoológico/genética , Teorema de Bayes , Haplótipos , Linhagem , Filogenia , Análise de Sequência de DNARESUMO
The Western and Eastern species of gorillas (Gorilla gorilla and Gorilla beringei) began diverging in the mid-Pleistocene, but in a complex pattern with ongoing gene flow following their initial split. We sequenced the complete mitochondrial genomes of 1 Eastern and 1 Western gorilla to provide the most accurate date for their mitochondrial divergence, and to analyze patterns of nucleotide substitutions. The most recent common ancestor of these genomes existed about 1.9 million years ago, slightly more recent than that of chimpanzee and bonobo. We in turn use this date as a calibration to reanalyze sequences from the Eastern lowland and mountain gorilla subspecies to estimate their mitochondrial divergence at approximately 380000 years ago. These dates help frame a hypothesis whereby populations became isolated nearly 2 million years ago with restricted maternal gene flow, followed by ongoing male migration until the recent past. This process of divergence with prolonged hybridization occurred against the backdrop of the African Pleistocene, characterized by intense fluctuations in temperature and aridity, while at the same time experiencing tectonic uplifting and consequent shifts in the drainage of major river systems. Interestingly, this same pattern of introgression following divergence and discrepancies between mitochondrial and nuclear loci is seen in fossil hominins from Eurasia, suggesting that such processes may be common in hominids and that living gorillas may provide a useful model for understanding isolation and migration in our extinct relatives.
Assuntos
Evolução Biológica , Genoma Mitocondrial , Gorilla gorilla/genética , Animais , Teorema de Bayes , Variação Genética , Haplótipos , Masculino , Filogenia , Análise de Sequência de DNARESUMO
The present study set out to evaluate cross-species amplification of 34 bovid microsatellites in six central African duikers: Cephalophus callipygus, C. monticola, C. silvicultor, C. nigrifrons, C. dorsalis and C. leucogaster. Of these loci, 16 amplified across all species and appeared polymorphic when initially tested in polyacrylamide gel electrophoresis. Twelve of these loci were subsequently assembled into three multiplex panels of four loci each. These multiplexes successfully amplified across all six duiker species in the present study and the sympatric artiodactyls Tragelaphus spekei and Hyemoschus aquaticus. The only exception was the locus BM848 that did not amplify from C. leucogaster. For species with sufficient sample sizes (C. callipygus and C. monticola), the number of alleles ranged from three to ten and four to fifteen, respectively. Three loci deviated from Hardy-Weinberg equilibrium in C. callipygus and five in C. monticola. We attribute the latter result to possibilities of local population substructuring or to an excess of homozygotes because of null alleles. These multiplex assemblies will greatly facilitate studies of individual identification, parentage analysis, population size estimation and fine-scale analyses of population genetic structure in central African artiodactyls.
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The present study compares the effect of three storage media (silica, RNAlater®, ethanol) and time to extraction (1 week, 1 month and 3 months) on mitochondrial and nuclear marker amplification success in faecal DNA extracts from a sympatric community of small to medium-sized Central African forest ungulates (genera Cephalophus, Tragelaphus, Hyemoschus). The effect of storage type and time on nuclear DNA concentrations, genotyping errors and percentage recovery of consensus genotypes was also examined. Regardless of storage method, mitochondrial and nuclear amplification success was high in DNA extracted within the first week after collection. Over longer storage periods, RNAlater yielded better amplification success rates in the mitochondrial assay. However, samples stored on silica showed (i) highest nuclear DNA concentrations, (ii) best microsatellite genotyping success, (iii) lowest genotyping errors, and (iv) greatest percentage recovery of the consensus genotype. The quantity of nuclear DNA was generally a good predictor of microsatellite performance with 83% amplification success or greater achieved with sample DNA concentrations of ≥ 50 pg/µL. If faecal DNA samples are to be used for nuclear microsatellite analyses, we recommend silica as the best storage method. However, for maximum mitochondrial amplification success, RNAlater appears to be the best storage medium. In contrast, ethanol appeared inferior to the other two methods examined here and should not be used to store tropical ungulate faeces. Regardless of storage method, samples should be extracted as soon as possible after collection to ensure optimal recovery of DNA.
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The standardized use of mitochondrial cytochrome c oxidase subunit I (COI) gene sequences as DNA barcodes has been widely promoted as a high-throughput method for species identification and discovery. Species delimitation has been based on the following criteria: (1) monophyletic association and less frequently (2) a minimum 10x greater divergence between than within species. Divergence estimates, however, can be inflated if sister species pairs are not included and the geographic extent of variation within any given taxon is not sampled comprehensively. This paper addresses both potential biases in DNA divergence estimation by sampling range-wide variation in several morphologically distinct, endemic butterfly species in the genus Heteropsis, some of which are sister taxa. We also explored the extent to which mitochondrial DNA from the barcode region can be used to assess the effects of historical rainforest fragmentation by comparing genetic variation across Heteropsis populations with an unrelated forest-associated taxon Saribia tepahi. Unexpectedly, generalized primers led to the inadvertent amplification of the endosymbiont Wolbachia, undermining the use of universal primers and necessitating the design of genus-specific COI primers alongside a Wolbachia-specific PCR assay. Regardless of the high intra-specific genetic variation observed, most species satisfy DNA barcoding criteria and can be differentiated in the nuclear phylogeny. Nevertheless, two morphologically distinguishable candidate species fail to satisfy the barcoding 10x genetic distance criterion, underlining the difficulties of applying a standard distance threshold to species delimitation. Phylogeographic analysis of COI data suggests that forest fragmentation may have played an important role in the recent evolutionary diversification of these butterflies. Further work on other Malagasy taxa using both mitochondrial and nuclear data will provide better insight into the role of historical habitat fragmentation in species diversification and may potentially contribute to the identification of priority areas for conservation.