Replicative Study in Performance-Related Genes of Brazilian Elite Soccer Players Highlights Genetic Differences from African Ancestry and Similarities between Professional and U20 Youth Athletes.

Classically, genetic association studies have attempted to assess genetic polymorphisms related to human physiology and physical performance. However, the heterogeneity of some findings drives the research to replicate, validate, and confirmation as essential aspects for ensuring their applicability in sports sciences. Genetic distance matrix and molecular variance analyses may offer an alternative approach to comparing athletes' genomes with those from public databases. Thus, we performed a complete sequencing of 44 genomes from male Brazilian first-division soccer players under 20 years of age (U20_BFDSC). The performance-related SNP genotypes were obtained from players and from the "1000 Genomes" database (European, African, American, East Asian, and South Asian). Surprisingly, U20_BFDSC performance-related genotypes had significantly larger FST levels (p < 0.00001) than African populations, although studies using ancestry markers have shown an important similarity between Brazilian and African populations (12-24%). U20_BFDSC were genetically similar to professional athletes, showing the intense genetic selection pressure likely to occur before this maturation stage. Our study highlighted that performance-related genes might undergo selective pressure due to physical performance and environmental, cognitive, and sociocultural factors. This replicative study suggests that molecular variance and Wright's statistics can yield novel conclusions in exercise science.

The first Brazilian bovine breed: structure and genetic diversity of the Curraleiro Pé-duro.

Background: The production of animal-based foods from native breeds have a synergistic relationship with the regional culture, the local climate, and mainly the maintenance of alternative genetic resources for a system with a lower environmental impact. Thus the efficiency of conservation and production depends on assessing the variability of these local breeds. In the case of Curraleiro Pé-duro cattle, the most adapted individuals have undergone natural selection over five hundred years in the Brazilian savannas, mating with little or no human interference. The peculiarities of these biomes, where the regional flora is the food base and cattle is raised in extensive areas, likely influenced the genetic composition of the different groups that make up the first cattle breed of Brazil. Methods: To evaluate the composition, diversity, variation, differentiation, and genetic structure of the populations studied, samples of hair follicles from 474 individuals of different animal categories (calves, yearlings, heifers, cows, and bulls) from three farms, defined as subpopulations "A", "B", and "C", were collected. The animals were genotyped for 17 microsatellite markers using a DNA sequencer. After verification of monomorphic alleles, alleles outside the expected size range, and for the presence of stutter bands, the results were subjected to statistical analysis. Results: The markers used were suitable for the proposed application with a mean Polymorphism Information Content (PIC) of 0.62. On average, the effective alleles were 4.25 per marker, with mean heterozygosities of 0.74 (observed and expected), which was lower in herd A (0.70) in comparison to herds B (0.77) and C (0.74). The analysis of molecular variance (AMOVA) revealed a higher rate of variation within herds (98.5%) and lower among herds (1.5%) (FSTranging from 0.00723 and 0.03198; p-values < 0.05). However no significant differences among herds where found with the Mantel test based on geographic distances. The formation of genetic clusters of all animals sampled with the software Structure resulted in minimum cluster values, with two main genetic groups (K = 2) observed among the evaluated animals. Therefore, based on PIC and heterozygosity values, a wide genetic diversity was observed, despite little differences in population structure (AMOVA, FST, and Structure results) among sampling sites.

Genetic study with 21 autosomal STRs in five Peruvian macro regions for human identification purposes.

In this population study 1541 samples in total were collected and analyzed. The samples were collected from five jurisdictions: North macro region (n = 272), Central macro region (n = 404), South macro region (n = 272), East macro region (n = 197), and the Lima macro region (n = 396). The samples were analyzed using the Investigator 24 plex GO and Investigator 24 plex QS kits which enable typing of 21 autosomal STR loci and an amelogenin marker for sex determination. The combined power of discrimination and the combined probability of exclusion for the total population were 0.9999999999 and 0.99999978, respectively. These population geographic subgroupings are similar, supporting that the combined Peruvian data or individual subgroupings could be used for generating statistics in forensic casework.

DIVERSIDAD GENÉTICA DE POBLACIONES DE GUANÁBANA (Annona muricata L.) EN NAYARIT, MÉXICO MEDIANTE MARCADORES SSR Y SRAP / Genetic diversity of soursop populations (Annona muricata L.) in Nayarit, Mexico using SSR and SRAP markers

RESUMEN La guanábana (Annona muricata L.) es un cultivo de importancia económica para Nayarit, México. Los frutos han tenido una excelente aceptación en el mercado regional, dificultando su comercialización a lugares lejanos porque la producción es altamente perecedera, aunado a que los árboles de los huertos de guanábana son en su mayoría ecotipos o fenotipos sin ningún plan de mejoramiento genético. Debido a la falta de variedades comerciales y de un banco de germoplasma, es importante conocer la diversidad genética para identificar y seleccionar genotipos; una de las herramientas para este propósito es el uso de marcadores moleculares. El objetivo de esta investigación fue analizar la diversidad genética de guanábana de las principales zonas productoras de Nayarit. Se extrajo ADN genómico de hojas de guanábana, las cuales fueron recolectadas de 11 huertos (poblaciones) de las siguientes zonas: Compostela (cinco poblaciones), Tepic (tres poblaciones) y San Blas (tres poblaciones). Posteriormente, se realizó un análisis mediante marcadores moleculares SSR y SRAP. Los resultados indicaron que los SSR no mostraron polimorfismo entre las poblaciones. Por otro lado, en los marcadores SRAP se obtuvieron 116 loci polimórficos con un promedio de porcentaje de loci polimórfico (P) entre las zonas productoras de 29,55 %. Asimismo, se realizó un AMOVA, el cual mostró que el mayor porcentaje de varianza se encuentra dentro de las poblaciones. Además, los análisis de agrupamiento demostraron la formación de tres grupos independientes. Por tanto, se obtuvo una alta homocigocidad y baja diversidad genética de guanábana entre las zonas y poblaciones estudiadas.

ABSTRACT Soursop (Annona muricata L.) is a crop of economic importance for Nayarit, Mexico. Soursop fruits have had an excellent acceptance in the regional market, making it difficult its commercialization to distant places because the production is highly perishable, in addition to the fact that the trees in the soursop orchards are mostly ecotypes or phenotypes without any genetic improvement plan. Due to the lack of commercial varieties and a germplasm bank, it is important to know the genetic diversity to identify and select genotypes; one of the tools for this purpose is the use of molecular markers. The objective of this research was to analyze the genetic diversity of soursop in the main producing areas of Nayarit. Genomic DNA was extracted from soursop leaves from 11 orchards (populations) in the following areas: Compostela (five populations), Tepic (three populations) and San Blas (three populations). Subsequently, we performed molecular analysis using SSR and SRAP molecular markers. The results indicated that the SSRs showed no polymorphism between the populations. On the other hand, we found 116 polymorphic loci in the SRAP markers with an average percentage of polymorphic loci (P) among the producing areas of 29.55 %. Likewise, an AMOVA was performed, showing that the highest percentage of variance is found within the populations. Furthermore, cluster analyzes demonstrated the formation of three independent groups. Therefore, a high homozygosity and low genetic diversity of soursop were obtained between the areas and populations studied.

Integrative taxonomy reveals a new species of Cyphocharax (Characiformes: Curimatidae) from the Upper Paraíba do Sul River basin, Brazil

A new species of Cyphocharax is described from the Upper Paraíba do Sul River basin, São Paulo, Brazil based on integrated morphological and molecular delimitation criteria. It is morphologically distinguished from its congeners by the presence of a round, dark blotch at the midlength of the caudal peduncle not extending to the proximal portions of the median caudal-fin rays, 19-20 circumpeduncular scales, 34-41 perforated lateral-line scales, 6-7 longitudinal scale rows above and below the lateral line, greatest body depth corresponding to 34.7-39.9% of standard length (SL), and the caudal peduncle depth corresponding to 13.3-15.2% of SL. The lowest genetic distances between the new species and other congeners are: 2.5% from C. gilbert, followed by 3.0% from C. santacatarinae, and 3.2% from C. aff. gilbert. All species delimitation criteria employed herein corroborated the recognition of the new species. In addition, comments on its conservation status are provided.(AU)

Uma nova espécie de Cyphocharax é descrita do alto rio Paraíba do Sul, São Paulo, Brasil, baseada em dados morfológicos e moleculares integrados. A espécie se distingue morfologicamente de seus congêneres por: apresentar uma mancha escura arredondada na porção média do pedúnculo caudal, não se estendendo à porção proximal dos raios medianos da nadadeira caudal, 19-20 escamas circunpedunculares, 34-41 escamas perfuradas na linha lateral, 6-7 escamas acima e abaixo da linha lateral, altura do corpo correspondendo à 34,7-39,9% do comprimento padrão (CP), e a altura do pedúnculo caudal correspondendo a 13,3-15,2% do CP. As menores distâncias genéticas entre a espécie nova e outras congêneres são: 2,5% de C gilbert, seguida de 3,0% de C. santacatarinae, e 3,2% de C. aff. gilbert. Todos os critérios de delimitação de espécies aqui empregados corroboraram o reconhecimento da nova espécie. Adicionalmente, comentários sobre seu estado de conservação são fornecidos.(AU)

Multivariate analysis as a tool in the initial selections of golden flax (Linum usitatissimum L) / Análise multivariada como ferramenta nas seleções iniciais de linhaça dourada (Linum usitatissimum L)

The genetic variability in plant populations can be estimated through multivariate analysis, which allows to analyze the genotypes based on a set of traits to identify the traits with the greatest influence for the divergence and the correlation between them. In this sense, the objective of the present work was to estimate the genetic divergence between golden flax lines using multivariate analysis for initial plant selections. For this purpose, 73 lines, in addition to the control, were tested in a randomized complete block design, with three replications, and traits of cycle, stature, and yield were measured. Twelve groups were obtained based on the Mahalanobis distance estimate and Tocher cluster, and the technical length was the most important trait for the dissimilarity. The line of group XI was promising, with early maturation and satisfactory seed productivity. The graphic of dispersion of the canonical variables showed the most divergent lines, and the greatest divergence was observed between groups III and IV. Multivariate analysis was an important tool for the initial choice of superior golden flax.

A variabilidade genética em populações de plantas pode ser estimada através da análise multivariada, que permite analisar os genótipos com base em um conjunto de características, identificar aquela com maior influência para a divergência e a correlação entre elas. Neste sentido, o objetivo do presente trabalho foi estimar a divergência genética entre linhagens de linhaça dourada, a partir de análises multivariadas, para seleções iniciais de plantas. Para tanto, 73 linhagens, além da testemunha, foram testadas em delineamento de blocos ao acaso, com três repetições, sendo medidas as características de ciclo, estatura e produtividade. Foram obtidos 12 grupos, sendo a característica mais importante para a dissimilaridade o comprimento técnico. O gráfico de dispersão das variáveis canônicas mostrou as progênies mais divergentes, sendo que a maior divergência foi verificada entre os grupos III e IV. A análise multivariada foi importante ferramenta para a escolha inicial das linhagens superiores de linhaça dourada.

Integrative taxonomy reveals a new species of Cyphocharax (Characiformes: Curimatidae) from the Upper Paraíba do Sul River basin, Brazil

A new species of Cyphocharax is described from the Upper Paraíba do Sul River basin, São Paulo, Brazil based on integrated morphological and molecular delimitation criteria. It is morphologically distinguished from its congeners by the presence of a round, dark blotch at the midlength of the caudal peduncle not extending to the proximal portions of the median caudal-fin rays, 19­20 circumpeduncular scales, 34­41 perforated lateral-line scales, 6­7 longitudinal scale rows above and below the lateral line, greatest body depth corresponding to 34.7­39.9% of standard length (SL), and the caudal peduncle depth corresponding to 13.3­15.2% of SL. The lowest genetic distances between the new species and other congeners are: 2.5% from C. gilbert, followed by 3.0% from C. santacatarinae, and 3.2% from C. aff. gilbert. All species delimitation criteria employed herein corroborated the recognition of the new species. In addition, comments on its conservation status are provided.(AU)

Uma nova espécie de Cyphocharax é descrita do alto rio Paraíba do Sul, São Paulo, Brasil, baseada em dados morfológicos e moleculares integrados. A espécie se distingue morfologicamente de seus congêneres por: apresentar uma mancha escura arredondada na porção média do pedúnculo caudal, não se estendendo à porção proximal dos raios medianos da nadadeira caudal, 19­20 escamas circunpedunculares, 34­41 escamas perfuradas na linha lateral, 6­7 escamas acima e abaixo da linha lateral, altura do corpo correspondendo à 34,7­39,9% do comprimento padrão (CP), e a altura do pedúnculo caudal correspondendo a 13,3­15,2% do CP. As menores distâncias genéticas entre a espécie nova e outras congêneres são: 2,5% de C gilbert, seguida de 3,0% de C. santacatarinae, e 3,2% de C. aff. gilbert. Todos os critérios de delimitação de espécies aqui empregados corroboraram o reconhecimento da nova espécie. Adicionalmente, comentários sobre seu estado de conservação são fornecidos.(AU)

Diversity and Genetic Structure of Dioon holmgrenii (Cycadales: Zamiaceae) in the Mexican Pacific Coast Biogeographic Province: Implications for Conservation.

Dioon holmgrenii De Luca, Sabato et Vázq.Torres is an endangered species; it is endemic and its distribution is restricted to the biogeographic province of the Mexican Pacific Coast. The aim of this work was to determine the diversity and genetic structure of nine populations. The genetic diversity parameters and Wright's F statistics were determined with six microsatellite loci. The genetic structure was determined by using the Structure software and by a discriminant analysis. The genetic diversity of the populations was high. The proportion of polymorphic loci was 0.89, the observed heterogeneity was higher (Ho = 0.62 to 0.98) than expected (He = 0.48 to 0.78), and the fixation index was negative (IF = -0.091 to -0.601). Heterozygous deficiency (FIT = 0.071) was found at the species level and heterozygotes excess (FIS = -0.287) at the population level. The genetic differentiation between populations was high (FST = 0.287), with the number of migrants less than one. Three groups of populations were differentiated, and the variation within populations, between populations, and between groups was: 65.5, 26.3, and 8.2%, respectively. Multiple factors explain the high genetic diversity, while the genetic structure is due to geographic barriers. Community reserves are urgent in at least one most diverse population of each group.

Triatoma sordida (Hemiptera, Triatominae) from La Paz, Bolivia: an incipient species or an intraspecific chromosomal polymorphism?

BACKGROUND: Triatoma sordida is one of the main Chagas disease vectors in Brazil. In addition to Brazil, this species has already been reported in Bolivia, Argentina, Paraguay, and Uruguay. It is hypothesized that the insects currently identified as T. sordida are a species subcomplex formed by three cytotypes (T. sordida sensu stricto [s.s.], T. sordida La Paz, and T. sordida Argentina). With the recent description of T. rosai from the Argentinean specimens, it became necessary to assess the taxonomic status of T. sordida from La Paz, Bolivia, since it was suggested that it may represent a new species, which has taxonomic, evolutionary, and epidemiological implications. Based on the above, we carried out molecular and experimental crossover studies to assess the specific status of T. sordida La Paz. METHODS: To evaluate the pre- and postzygotic barriers between T. sordida La Paz and T. sordida s.s., experimental crosses and intercrosses between F1 hybrids and between F2 hybrids were conducted. In addition, cytogenetic analyses of the F1 and F2 hybrids were applied with an emphasis on the degree of pairing between the homeologous chromosomes, and morphological analyses of the male gonads were performed to evaluate the presence of gonadal dysgenesis. Lastly, the genetic distance between T. sordida La Paz and T. sordida s.s. was calculated for the CYTB, ND1, and ITS1 genes. RESULTS: Regardless of the gene used, T. sordida La Paz showed low genetic distance compared to T. sordida s.s. (below 2%). Experimental crosses resulted in offspring for both directions, demonstrating that there are no prezygotic barriers installed between these allopatric populations. Furthermore, postzygotic barriers were not observed either (since the F1 × F1 and F2 × F2 intercrosses resulted in viable offspring). Morphological and cytogenetic analyses of the male gonads of the F1 and F2 offspring demonstrated that the testes were not atrophied and did not show chromosome pairing errors. CONCLUSION: Based on the low genetic distance (which configures intraspecific variation), associated with the absence of prezygotic and postzygotic reproductive barriers, we confirm that T. sordida La Paz represents only a chromosomal polymorphism of T. sordida s.s.

Variability analyses of the maternal lineage of horses and donkeys.

Equid breeds originating from the Iberian Peninsula and North Africa are believed to have genetically contributed to the formation of breeds and ecotypes from Brazil. The country has numerous breeds and ecotypes of horses and donkeys but there are no extensive studies on maternal genetic diversity and their origins. This study reports the results of the first genetic analysis of all horse and donkey breeds/ecotypes from Brazil based on sequences of the mitochondrial DNA control region (D-loop) whose main objective was to characterize the genetic variation in these animals. These analyses will contribute to the understanding of the current population structure and diversity of breeds/ecotypes of horses and donkeys raised in the Brazil. We analyzed 310 D-loop sequences representing 41 breeds/ecotypes of Equus caballus and Equus asinus, including 14 native horse breeds/ecotypes, 3 native donkey breeds/ecotypes and 24 cosmopolite horse breeds. The results revealed that the breeds are well structured genetically and that they comprise different groups. A total of 80 and 14 haplotypes were identified for horses and donkeys, respectively. Most of the horse mtDNA haplotypes were shared by many breeds, whereas donkey mtDNA haplotypes seemed to be more group-especif. Some groups presented a low intrabreed distance and/or a low haplotype/nucleotide diversity such as Lavradeiro, Crioulo, Piquira and Percheron horses and Brazilian donkey. Thus, specific actions must be designed for each population. The different levels of genetic diversity provided important information for conservation resource management of adapted groups as well as for mating orientation of breed associations. Some autochthonous ecotypes require attention because of their low genetic variability.

Diversity Analysis and Genetic Relationships among Local Brazilian Goat Breeds Using SSR Markers.

The genetic diversity of six Brazilian native goats was reported using molecular markers. Hair samples of 332 animals were collected from different goat breeds (Moxotó, Canindé, Serrana Azul, Marota, Repartida, and Graúna) from five states of Northeast Brazil (Paraíba, Pernambuco, Rio Grande do Norte, Bahia, and Piauí). A panel of 27 microsatellites or single sequence repeats (SSRs) were selected and amplified using a polymerase chain reaction (PCR) technique. All populations showed an average allele number of over six. The mean observed heterozygosity for Brazilian breeds was superior to 0.50. These results demonstrated the high genetic diversity in the studied populations with values ranging from 0.53 (Serrana Azul) to 0.62 (Repartida). The expected average heterozygosity followed the same trend ranging from 0.58 (Serrana Azul) to 0.65 (Repartida), and the values obtained are very similar for all six breeds. The fixation index (Fis) had values under 10% except for the Moxotó breed (13%). The mean expected heterozygosity of all Brazilian populations was over 0.50. Results indicated a within-breed genetic variability in the Brazilian breeds based on the average number of alleles and the average observed heterozygosity. The interbreed genetic diversity values showed proper genetic differentiation among local Brazilian goat breeds.

Species delimitation in a range-restricted group of cascudinhos (Loricariidae: Epactionotus) supports morphological and genetic differentiation across coastal rivers of southern Brazil.

Epactionotus species are known for inhabiting the rocky-bottom stretches of fast-flowing rivers in a limited geographic area along the Atlantic coast of southern Brazil. These species are endemic to single coastal river drainages (two neighbouring drainages for Epactionotus bilineatus) isolated from each other by the coastal lacustrine environments or the Atlantic Ocean. E. bilineatus is from the Maquiné and Três Forquilhas River basins, both tributaries of the Tramandaí River system, whereas E. itaimbezinho is endemic to the Mampituba River drainage and Epactionotus gracilis to the Araranguá River drainage. Recent fieldwork in the Atlantic coastal drainages of southern Brazil revealed new populations in the Urussanga, Tubarão, d'Una and Biguaçu River drainages. Iterative species delimitation using molecular data (cytochrome c oxidase subunit I) and morphology (morphometrics and meristics) was applied to evaluate species recognition of isolated populations. With regard to new data, the genus was re-diagnosed, the status of Epactionotus species/populations was re-evaluated, formerly described species were supported and population structure was recognized. As for the newly discovered populations, both morphological and molecular data strongly support the population from the Biguaçu River drainage, in Santa Catarina State, as a new species. Molecular data revealed strong per-basin population structure, which may be related to species habitat specificity and low or no dispersal among drainages.

A new species of Odontostilbe cope (Characiformes: Cheirodontinae) from rio Madeira basin diagnosed based on morphological and molecular data.

A new species of Odontostilbe is described from the rio Jaciparaná, rio Madeira basin, Rondônia, Brazil. Odontostilbe pacaasnovos differs from all its congeners, except O. pequira, by the colour pattern. Additionally, it differs from its congeners by the terminal mouth, number of cusps in the teeth of the premaxilla (5-7), number of branched rays in the anal fin (19-22), by the shape of dentary teeth (5-7 cusps with central cusp larger and longer than laterals cusps) and by the number of lamellae of the olfactory rosette (17-18 in male and 14 in female). Morphological and molecular comparisons corroborate the distinctiveness between O. pacaasnovos and its congeners, justifying its recognition as a new species.

Genetic diversity among wild pomegranate (Punica granatum) in Azad Jammu and Kashmir region of Pakistan

BACKGROUND: Pomegranate (Punica granatum L.), one of the most important tropical fruits in Azad Jammu and Kashmir regions of Pakistan, is highly valued for its nutrition and medicinal purposes. Although pomegranate is native to this region, the genetic diversity among wild pomegranate accessions is currently unknown. Such information would be vital for germplasm conservation and breeding efforts. In the current study, genetic diversity among forty-eight wild pomegranate accessions collected from different agro-ecological zones of Azad Jammu and Kashmir was assessed using 41 simple sequence repeat (SSR) markers. RESULTS: The markers revealed 303 alleles averaging 7.39 alleles per marker. Polymorphic information content ranged from 0.12 (PGCT093B) to 0.88 (Pom006), with a mean of 0.54. The average genetic distance (GD) across all genotypes was 0.52, and was lowest between Chattar Class and Thorar genotypes (GD = 0.27), but highest between Khun Bandway and Akhor Ban (GD = 0.74). A neighbor-joining dendrogram separated the genotypes into three major clusters, with further sub-clustering within each cluster. CONCLUSIONS: Overall, the results presented here show significant genetic diversity among wild pomegranate accessions in Azad Jammu and Kashmir region of Pakistan. These accessions present a valuable genetic resource to breeding and cultivar improvement programs within the region.

Toward unified molecular surveillance of RSV: A proposal for genotype definition.

BACKGROUND: Human respiratory syncytial virus (RSV) is classified into antigenic subgroups A and B. Thirteen genotypes have been defined for RSV-A and 20 for RSV-B, without any consensus on genotype definition. METHODS: We evaluated clustering of RSV sequences published in GenBank until February 2018 to define genotypes by using maximum likelihood and Bayesian phylogenetic analyses and average p-distances. RESULTS: We compared the patterns of sequence clustering of complete genomes; the three surface glycoproteins genes (SH, G, and F, single and concatenated); the ectodomain and the 2nd hypervariable region of G gene. Although complete genome analysis achieved the best resolution, the F, G, and G-ectodomain phylogenies showed similar topologies with statistical support comparable to complete genome. Based on the widespread geographic representation and large number of available G-ectodomain sequences, this region was chosen as the minimum region suitable for RSV genotyping. A genotype was defined as a monophyletic cluster of sequences with high statistical support (≥80% bootstrap and ≥0.8 posterior probability), with an intragenotype p-distance ≤0.03 for both subgroups and an intergenotype p-distance ≥0.09 for RSV-A and ≥0.05 for RSV-B. In this work, the number of genotypes was reduced from 13 to three for RSV-A (GA1-GA3) and from 20 to seven for RSV-B (GB1-GB7). Within these, two additional levels of classification were defined: subgenotypes and lineages. Signature amino acid substitutions to complement this classification were also identified. CONCLUSIONS: We propose an objective protocol for RSV genotyping suitable for adoption as an international standard to support the global expansion of RSV molecular surveillance.

Introduction of human gammaherpesvirus 8 genotypes A, B, and C into Brazil from multiple geographic regions

Variations in the open reading frame (ORF) K1 gene sequence of human gammaherpesvirus 8 (HHV-8) has led to the identification of 6 major genotypic clades (A, B, C, D, E, and F) in specimens isolated from around the world. These clades exhibit clear clustering among individuals in different ethnic groups and from different geographic regions. The human population of Brazil varies greatly in ethnicity because of multiple immigration events from Africa, Europe, Asia, and indigenous communities. However, there is scant information about the HHV-8 genotypes currently circulating in Brazil. Here, we describe HHV-8 genotypic diversity in isolates from Brazilian HIV-infected patients living with Kaposi's sarcoma (KS) by analysis of the complete ORF-K1 region. We also identified the most likely geographic origins of these different Brazilian genotypes. We extracted HHV-8 DNA (24 positive samples) from individuals with HIV/KS from the states of São Paulo and Rio de Janeiro, amplified the ORF-K1 gene using nested PCR (about 870 base pairs), performed sequencing and phylogenetic analysis, and then calculated the mean genetic distances of Brazilian sequences from sequences in other regions of the world (523 sequences analyzed). Phylogenetic analysis showed that genotypes C, A, and B were present in 45.8 %, 29.2 % and 25 % of the isolates from Brazil, respectively. These isolates grouped into separate clades, rather than a single monophyletic cluster. Mean genetic distance analyses suggested that these genotypes were introduced into the Brazil multiple times from different geographical regions. HHV-8/A isolates appear to be from Ukraine, Russia, and the Tartar ethnic group; HHV-8/B isolates appear to be from Congo and Democratic Republic of the Congo; and HHV-8/C isolates appear to be from Australia, Algeria, England, and French Guiana. These results contribute to a better understanding of the genetic diversity and origins of HHV-8 strains circulating in Brazil, and will provide a foundation for further epidemiological and evolutionary studies of HHV-8

Introduction of human gammaherpesvirus 8 genotypes A, B, and C into Brazil from multiple geographic regions.

Variations in the open reading frame (ORF) K1 gene sequence of human gammaherpesvirus 8 (HHV-8) has led to the identification of 6 major genotypic clades (A, B, C, D, E, and F) in specimens isolated from around the world. These clades exhibit clear clustering among individuals in different ethnic groups and from different geographic regions. The human population of Brazil varies greatly in ethnicity because of multiple immigration events from Africa, Europe, Asia, and indigenous communities. However, there is scant information about the HHV-8 genotypes currently circulating in Brazil. Here, we describe HHV-8 genotypic diversity in isolates from Brazilian HIV-infected patients living with Kaposi's sarcoma (KS) by analysis of the complete ORF-K1 region. We also identified the most likely geographic origins of these different Brazilian genotypes. We extracted HHV-8 DNA (24 positive samples) from individuals with HIV/KS from the states of São Paulo and Rio de Janeiro, amplified the ORF-K1 gene using nested PCR (about 870 base pairs), performed sequencing and phylogenetic analysis, and then calculated the mean genetic distances of Brazilian sequences from sequences in other regions of the world (523 sequences analyzed). Phylogenetic analysis showed that genotypes C, A, and B were present in 45.8 %, 29.2 % and 25 % of the isolates from Brazil, respectively. These isolates grouped into separate clades, rather than a single monophyletic cluster. Mean genetic distance analyses suggested that these genotypes were introduced into the Brazil multiple times from different geographical regions. HHV-8/A isolates appear to be from Ukraine, Russia, and the Tartar ethnic group; HHV-8/B isolates appear to be from Congo and Democratic Republic of the Congo; and HHV-8/C isolates appear to be from Australia, Algeria, England, and French Guiana. These results contribute to a better understanding of the genetic diversity and origins of HHV-8 strains circulating in Brazil, and will provide a foundation for further epidemiological and evolutionary studies of HHV-8.

High abundance of Amphidomataceae (Dinophyceae) during the 2015 spring bloom of the Argentinean Shelf and a new, non-toxigenic ribotype of Azadinium spinosum.

Azaspiracids (AZA) are the most recently discovered group of lipophilic marine biotoxins of microalgal origin, and associated with human incidents of shellfish poisoning. They are produced by a few species of Amphidomataceae, but diversity and occurrence of the small-sized dinophytes remain poorly explored for many regions of the world. In order to analyze the presence and importance of Amphidomataceae in a highly productive area of Argentinean coastal waters (El Rincón area, SW Atlantic), a scientific cruise was performed in 2015 to sample the early spring bloom. In a multi-method approach, light microscopy was combined with real-time PCR molecular detection of Amphidomataceae, with chemical analysis of AZA, and with the establishment and characterization of amphidomatacean strains. Both light microscopy and PCR revealed that Amphidomataceae were widely present in spring plankton communities along the El Rincón area. They were particularly abundant offshore at the shelf front, reaching peak densities of 2.8 × 105 cells L-1, but no AZA were detected in field samples. In total, 31 new strains were determined as Az. dalianense and Az. spinosum, respectively. All Az. dalianense were non-toxigenic and shared the same rRNA sequences. The large majority of the new Az. spinosum strains revealed for the first time the presence of a non-toxigenic ribotype of this species, which is otherwise the most important AZA producer in European waters. One of the new Az. spinosum strains, with a particular slender shape and some other morphological peculiarities, clustered with toxigenic strains of Az. spinosum from Norway and, exceptionally for the species, produced only AZA-2 but not AZA-1. Results indicate a wide diversity within Az. spinosum, both in terms of sequence data and toxin profiles, which also will affect the qualitative and quantitative performance of the specific qPCR assay for this species. Overall, the new data provide a more differentiated perspective of diversity, toxin productivity and occurrence of Amphidomataceae in a poorly explored region of the global ocean.

Patrones de frecuencias en 100 marcadores informativos de ancestría entre dos etnias indígenas y dos poblaciones mestizas de Colombia / Frequency pattern analysis of 100 ancestry informative markers between two ethnics groups and two populations of Colombia

Colombia es el segundo país con mayor cantidad de etnias Amerindias del continente gracias a su ubicación geográfica y a que se encuentra en el Noroccidente del continente Sur Americano tuvo que haber sido un corredor para las migraciones de los Amerindios. Pero debido a la mezcla amerindia, europea y africana, ocurrida en diferentes proporciones a lo largo del país hubo cambios en las dinámicas poblacionales. Ojetivo: se caracterizó molecularmente una muestra indígena proveniente de dos etnias ­ Pijao y Nasa Paez, - y otra muestra de individuos mestizos no relacionados del Tolima; con el fin de identificar heterocigocidad, frecuencias alélicas y distancias Fst, mediante el análisis de 100 marcadores informativos de ancestría (SNPs autosómicos). Metodología: Para la realización de este estudio se obtuvo ADN a partir de muestras de sangre tomadas en personas indígenas y mestizas de las regiones ya mencionadas, para tipificar 100 SNPs autosómicos o Marcadores de informativos de Ancestría (AIMs). Resultados: los análisis de la Heterocigocidad (Het) mostraron que los valores bajos se presentaban en las etnias indígenas Nasa (0,181) y Pijaos (0,250), mientras que los de Planadas (0,402) e Ibagué (0,415) presentaron los valores altos. Los análisis realizados de manera global mostraron que las poblaciones del Tolima son menos heterocigotas que las poblaciones ancestrales. Conclusiones: La población nativa Nasa, es la de mayor conservación de la variación nativa ancestral reflejada con los análisis de heterocigocidad y posee una mayor distancia genética con respecto a las poblaciones mestizas.

Colombia is the second country with the largest number of amerindian ethnic groups on the continent thanks to its geographical location and that it is located in the Northwest of the South American continent, it had to have been a corridor for the Amerindian migrations. But due to the Amerindian, European and African mix, which occurred in different proportions throughout the country, there were changes in population dynamics. Objective: an indigenous sample from two ethnic groups - Pijao and Nasa Paez, was molecularly characterized - and another sample of unrelated mestizo individuals from Tolima; to identify heterozygosity, allelic frequencies and Fst distances, by analyzing 100 informative markers of ancestry (autosomal SNPs). Methodology: To carry out this study, DNA was obtained from blood samples taken in indigenous and mestizo people from the aforementioned regions, to typify 100 autosomal SNPs or ancestry informative markers (AIMs). Results: Heterozygous (Het) analyzes showed that low values were presented in the Nasa (0,181) and Pijaos (0,250) indigenous ethnic groups, while those of Planadas (0,402) and Ibagué (0,415) presented high values. Analyzes performed globally showed that Tolima populations are less heterozygous than ancestral populations. Conclusions: The Nasa native population is the one with the greatest conservation of the ancestral native variation reflected with the heterozygous analyzes and has a greater genetic distance concerning the mestizo populations.

Factors affecting interspecific differences in genetic divergence among populations of Anolis lizards in Cuba.

BACKGROUND: Geographical patterns and degrees of genetic divergence among populations differ between species, reflecting relative potentials for speciation or cladogenesis and differing capacities for environmental adaptation. Identification of factors that contribute to genetic divergence among populations is important to the understanding of why some species exhibit greater interpopulation genetic divergence. In this study, we calculated the mean pairwise genetic distances among populations as species' average genetic divergence by a phylogeny using nuclear and mitochondrial genes of 303 individuals from 33 Cuban Anolis species and estimated species ages by another phylogeny using nuclear and mitochondrial genes of 51 Cuban and 47 non-Cuban Anolis species. We identified factors that influence species' differences in genetic divergence among 26 species of Anolis lizards from Cuba. Species ages, environmental heterogeneity within species ranges, and ecomorph types were considered as factors affecting average genetic divergences among populations. RESULTS: The phylogenies presented in this study provide the most comprehensive sampling of Cuban Anolis species to date. The phylogeny showed more conservative evolution of Anolis ecomorphs within Cuba and identified twig anoles as a monophyletic group. Subsequent Phylogenetic Generalized Least Squares (PGLS) analyses showed that species age was positively correlated with species' average genetic divergence among populations. CONCLUSION: Although previous studies have focused on factors affecting genetic divergence within species, the present study showed for the first time that species differences in genetic divergence could be largely affected by species age.