Demography and linked selection interact to shape the genomic landscape of codistributed woodpeckers during the Ice Age.

The influence of genetic drift on population dynamics during Pleistocene glacial cycles is well understood, but the role of selection in shaping patterns of genomic variation during these events is less explored. We resequenced whole genomes to investigate how demography and natural selection interact to generate the genomic landscapes of Downy and Hairy Woodpecker, species codistributed in previously glaciated North America. First, we explored the spatial and temporal patterns of genomic diversity produced by neutral evolution. Next, we tested (i) whether levels of nucleotide diversity along the genome are correlated with intrinsic genomic properties, such as recombination rate and gene density, and (ii) whether different demographic trajectories impacted the efficacy of selection. Our results revealed cycles of bottleneck and expansion, and genetic structure associated with glacial refugia. Nucleotide diversity varied widely along the genome, but this variation was highly correlated between the species, suggesting the presence of conserved genomic features. In both taxa, nucleotide diversity was positively correlated with recombination rate and negatively correlated with gene density, suggesting that linked selection played a role in reducing diversity. Despite strong fluctuations in effective population size, the maintenance of relatively large populations during glaciations may have facilitated selection. Under these conditions, we found evidence that the individual demographic trajectory of populations modulated linked selection, with purifying selection being more efficient in removing deleterious alleles in large populations. These results highlight that while genome-wide variation reflects the expected signature of demographic change during climatic perturbations, the interaction of multiple processes produces a predictable and highly heterogeneous genomic landscape.

Spatial predictors of genomic and phenotypic variation differ in a lowland Middle American bird (Icterus gularis).

Spatial patterns of intraspecific variation are shaped by geographical distance among populations, historical changes in gene flow and interactions with local environments. Although these factors are not mutually exclusive and operate on both genomic and phenotypic variation, it is unclear how they affect these two axes of variation. We address this question by exploring the predictors of genomic and phenotypic divergence in Icterus gularis, a broadly distributed Middle American bird that exhibits marked geographical variation in body size across its range. We combined a comprehensive single nucleotide polymorphism and phenotypic data set to test whether genome-wide genetic and phenotypic differentiation are best explained by (i) isolation by distance, (ii) isolation by history or (iii) isolation by environment. We find that the pronounced genetic and phenotypic variation in I. gularis are only partially correlated and differ regarding spatial predictors. Whereas genomic variation is largely explained by historical barriers to gene flow, phenotypic diversity can be best predicted by contemporary environmental heterogeneity. Our genomic analyses reveal strong phylogeographical structure coinciding with the Chivela Pass at the Isthmus of Tehuantepec that was formed during the Pleistocene, when populations were isolated in north-south refugia. In contrast, we found a strong association between body size and environmental variables, such as temperature and precipitation. The relationship between body size and local climate is consistent with a pattern produced by either natural selection or environmental plasticity. Overall, these results provide empirical evidence for why phenotypic and genomic data are often in conflict in taxonomic and phylogeographical studies.

Mating system and pollen dispersal in Eugenia dysenterica (Myrtaceae) germplasm collection: tools for conservation and domestication.

Eugenia dysenterica DC. (Myrtaceae) is a perennial tree producing edible fruits and ornamental flowers of potential value widely distributed in Brazilian "Cerrados" (savannas), but available genetic resources and potential for future breeding programs must be evaluated. Here we evaluated the reproductive system and pollen-mediated gene flow in one generation of Eugenia dysenterica germplasm collection of Agronomy School, Federal University of Goiás (in Goiânia city, Central Brazil). We collected leaves from all adults from the germplasm collection (682 plants) and seeds (542) from 23 mother-trees. Genotypes were obtained for seven microsatellite loci. Genetic diversity was high and did not significantly differ between adults (H e = 0.777) and progeny arrays (H e = 0.617). Our results showed that E. dysenterica has an allogamous mating system in the germplasm collection (t m = 0.957), but with high and significant biparental inbreeding (t m - t s = 0.109). Because sibs are very close to each other, mating between closely related individuals is likely. Paternity correlation was also relatively high, indicating a 11.9 % probability that a randomly chosen pair of outcrossed progeny from the same array are full sibs. The maximum pollen dispersal distance (224 m), estimated using assignment test, corresponded to the boundaries of the orchard. We were able to assign the paternity to only 64 % of the 349 seeds analyzed, indicating potential pollen immigration to the germplasm collection. The variance effective population size estimated for one maternal family in the germplasm collection (N ev = 3.42) is very close to the theoretical maximum value for half-sibs (Nev = 4.0). Because E. dysenterica has a long life cycle and generation time, the maintenance of an effective population size of at least 100 in the germplasm collection is suggested, which can be achieved by maintaining a seed-trees number around 30 individuals.

Convergent genomic signatures of local adaptation across a continental-scale environmental gradient.

Convergent local adaptation offers a glimpse into the role of constraint and stochasticity in adaptive evolution, in particular the extent to which similar genetic mechanisms drive adaptation to common selective forces. Here, we investigated the genomics of local adaptation in two nonsister woodpeckers that are codistributed across an entire continent and exhibit remarkably convergent patterns of geographic variation. We sequenced the genomes of 140 individuals of Downy (Dryobates pubescens) and Hairy (Dryobates villosus) woodpeckers and used a suite of genomic approaches to identify loci under selection. We showed evidence that convergent genes have been targeted by selection in response to shared environmental pressures, such as temperature and precipitation. Among candidates, we found multiple genes putatively linked to key phenotypic adaptations to climate, including differences in body size (e.g., IGFPB) and plumage (e.g., MREG). These results are consistent with genetic constraints limiting the pathways of adaptation to broad climatic gradients, even after genetic backgrounds diverge.

Evolutionary constraint and innovation across hundreds of placental mammals.

Zoonomia is the largest comparative genomics resource for mammals produced to date. By aligning genomes for 240 species, we identify bases that, when mutated, are likely to affect fitness and alter disease risk. At least 332 million bases (~10.7%) in the human genome are unusually conserved across species (evolutionarily constrained) relative to neutrally evolving repeats, and 4552 ultraconserved elements are nearly perfectly conserved. Of 101 million significantly constrained single bases, 80% are outside protein-coding exons and half have no functional annotations in the Encyclopedia of DNA Elements (ENCODE) resource. Changes in genes and regulatory elements are associated with exceptional mammalian traits, such as hibernation, that could inform therapeutic development. Earth's vast and imperiled biodiversity offers distinctive power for identifying genetic variants that affect genome function and organismal phenotypes.

Isolation and characterization of ten novel microsatellite loci in the red-winged tinamou (Rhynchotus rufescens, Tinamiformes, Aves) and cross-amplification in other tinamous.

We describe the isolation and characterization of ten microsatellite loci from the red-winged tinamou (Rhynchotus rufescens) and also evaluated the cross-amplification of these loci and other ten loci previously developed for the great tinamou (Tinamus major) in other tinamous. Genetic variability was assessed using 24 individuals. Six loci were polymorphic with moderate to high number of alleles per locus (2-12 alleles) and showed expected heterozygosity (HE) ranging from 0.267 to 0.860. All loci conformed to the Hardy-Weinberg expectation and linkage disequilibrium was not significant for any pair of loci. This battery of polymorphic loci showed high paternity exclusion probability (0.986) and low genetic identity probability (4.95 × 10(-5)), proving to be helpful for parentage tests and population analyses in the red-winged tinamou. The cross-amplification was moderate where of the 160 locus/taxon combinations, 46 (28.75%) successfully amplified.

Investigação do efeito do declínio reprodutivo e da suplementação com Tribulus terrestris L. no comportamento de camundongos suíços submetidos ao teste do nado forçado / Investigation of the effect of reproductive decline and supplementation with Tribulus terrestris L. on the behavior of Swiss mice submitted to the forced swimming test

Introdução: a redução dos esteroides sexuais ocasionada pelo hipogonadismo se associa a depressão. Tratamentos alternativos com plantas medicinais como o extrato do Tribulus terrestris (TT) tem sido frequentemente usado por pessoas nesta condição. Objetivo: este estudo teve por objetivo investigar a influência do declínio de testosterona, da suplementação com TT e propionato de testosterona no comportamento de animais. Método: foram utilizados 40 camundongos da linhagem Swiss, machos, divididos em quatro grupos. Os grupos controle e castrado receberam veículo aquoso; o grupo TT recebeu 10 mg/kg do extrato da planta e o grupo propionato de testosterona foi tratado com 20 mg/kg deste fármaco. A avaliação comportamental foi feita pelo teste do nado forçado. Após trinta dias de tratamento, foi coletado sangue para dosagem de testosterona livre. Resultado e Discussão: os resultados evidenciaram efeito antidepressivo significativo nos animais castrados e suplementados com propionato de testosterona. Houve também significância no efeito depressivo nos animais tratados com TT; redução significativa na concentração de testosterona nos animais castrados e aumento significativo nos animais do grupo TT e propionato de testosterona. Conclusão: conclui-se que a castração, suplementação com TT e propionato de testosterona apresentaram suposta capacidade de alterar o comportamento e modificar as concentrações sérias de testosterona.

Introcution: the reduction of sexual steroids caused by hypogonadism is associated with depression. Alternative treatments with medicinal plants like Tribulus terrestris (TT) extract have often been used by people in this condition. Objective: this study aimed to investigate the influence of testosterone decline, supplementation with TT and testosterone propionate on animal behavior. Method: fourty Swiss male mice were divided into four groups. The control and castrated groups received aqueous vehicle; the TT group received 10 mg / kg of the plant extract and the testosterone propionate group was treated with 20 mg / kg of this drug. Behavioral assessment was performed by the forced swim test. After 30 days of treatment, blood was collected for free testosterone dosing. Results and Discussion: the results showed a significant antidepressant effect in castrated animals supplemented with testosterone propionate. There was also significance in the depressive effect in animals treated with TT; significant reduction in the concentration of testosterone in castrated animals and a significant increase in the animals of the TT group and testosterone propionate. Conclusion: it was concluded that castration, supplementation with TT and testosterone propionate presented a supposed capacity to alter the behavior and modify serum concentrations of testosterone.