Current status and applications of somatic cell nuclear transfer in dogs

Although somatic cell nuclear transfer (SCNT) technology and applications are well developed in most domesticated and laboratory animals, their use in dogs has advanced only slowly. Many technical difficulties had to be overcome before preliminary experiments could be conducted. First, due to the very low efficiency of dog oocyte maturation in vitro, in vivo matured oocytes were generally used. The nucleus of an in vivo matured oocyte was removed and a donor cell (from fetal or adult fibroblasts) was injected into the oocyte. Secondly, fusion of the reconstructed oocytes was problematic, and it was found that a higher electrical voltage was necessary, in comparison to other mammalian species. By transferring the resulting fused oocytes into surrogate females, several cloned offspring were born. SCNT was also used for producing cloned wolves, validating reproductive technologies for aiding conservation of endangered or extinct breeds. Although examples of transgenesis in canine species are very sparse, SCNT studies are increasing, and together with the new field of gene targeting technology, they have been applied in many fields of veterinary or bio-medical science. This review summarizes the current status of SCNT in dogs and evaluates its potential future applications.     

Association of missense variants in GDF9 with litter size in Entlebucher Mountain dogs

In the past two decades, average litter size (ALS) in Entlebucher Mountain dogs decreased by approximately 0.8 puppies. We conducted a GWAS for ALS using the single-step methodology to take advantage of 1632 pedigree records, 892 phenotypes and 372 genotypes (173 662 markers) for which only 12% of the dogs had both phenotypes and genotypes available. Our analysis revealed associations towards the growth differentiation factor 9 gene (GDF9), which is known to regulate oocyte maturation. The trait heritability was estimated at 43.1%, from which approximately 15% was accountable by the GDF9 locus alone. Therefore, markers flanking GDF9 explained approximately 6.5% of the variance in ALS. Analysis of WGSs revealed two missense substitutions in GDF9, one of which (g.11:21147009G>A) affected a highly conserved nucleotide in vertebrates. The derived allele A was validated in 111 dogs and shown to be associated with decreased ALS (−0.75 ± 0.22 puppies per litter). The variant was further predicted to cause a proline to serine substitution. The affected residue was immediately followed by a six-residue deletion that is fixed in the canine species but absent in non-canids. We further confirmed that the deletion is prevalent in the Canidae family by sequencing three species of wild canids. Since canids uniquely ovulate oocytes at the prophase stage of the first meiotic division, requiring maturation in the oviduct, we conjecture that the amino acid substitution and the six-residue deletion of GDF9 may serve as a model for insights into the dynamics of oocyte maturation in canids.     

Part of my story. The meaning and experiences of genes and genetics for sperm donor-conceived offspring

Existing empirical research often do not explain which concepts about genetics underlie the assumption that genetic information is deemed important for donor-conceived offspring. This study focused on how donor-conceived individuals following anonymous sperm donation give meaning to and make sense of genes and genetics. Analysis is based on focus groups and interviews with adult donor-conceived offspring. Findings suggest that genes are part of their specific context of being donor-conceived but also play a role in daily life. Genes make sense on an individual level and a relational level, both on parent-child as sibling-level. On an individual level they were perceived as (1) a biological starting package, (2) their own unique combination and (3) as a reference point. On a relational level, genes were seen as (1) “person-al”, (2) connecting and (3) locating individuals. This information is essential for those supporting/counseling donor conceived offspring and families as well as for policy-members.     

Assessing the roles of population density and predation risk in the evolution of offspring size in populations of a placental fish

Population density is an ecological variable that is hypothesized to be a major agent of selection on offspring size. In high-density populations, high levels of intraspecific competition are expected to favor the production of larger offspring. In contrast, lower levels of intraspecific competition and selection for large offspring should be weaker and more easily overridden by direct selection for increased fecundity in low-density populations. Some studies have found associations between population density and offspring size consistent with this hypothesis. However, their interpretations are often clouded by a number of issues. Here, we use data from a 10-year study of nine populations of the least killifish, Heterandria formosa, to describe the associations of offspring size with habitat type, population density, and predation risk. We found that females from spring populations generally produced larger offspring than females from ponds; however, the magnitude of this difference varied among years. Across all populations, larger offspring were associated with higher densities and lower risks of predation. Interestingly, the associations between the two ecological variables (density and predation risk) and offspring size were largely independent of one another. Our results suggest that previously described genetic differences in offspring size are due to density-dependent natural selection.     

Offspring-driven local dispersal in female sand lizards (Lacerta agilis)

We report on a field study in which determinants of female breeding dispersal (i.e. the shift in the mean home range coordinates between successive breeding events) was investigated. Offspring were released in full sib groups (or half sib ones if there was within-clutch multiple paternity) at a separation distance from the females that varied between 'families'. This allowed for analysis of 'offspring nearness' effects on maternal dispersal. When a female's offspring were released more closely to her, she responded with greater dispersal. Furthermore, when the data set was truncated at 100 m maternal-offspring separation distance at offspring release (because perception at longer distances is likely to be unrealistic), maternal dispersal resulted in greater separation distance between female and offspring in the following year. A corresponding analysis for juveniles revealed no effect of maternal nearness on offspring dispersal but identified a significant effect of clutch size, to our surprise with dispersal declining with increasing clutch size. We discuss this result in a context of the 'public information hypothesis' (reinterpreted for juveniles in a nonsocial foraging species), suggesting that conspecific abundance perhaps acts as an indicator of local habitat quality. Thus, our analysis suggests a microgeographic structuring of the adult female population driven by genetic factors, either through inbreeding avoidance, or from simply avoiding individuals with a similar genotype regardless of their pedigree relatedness, while a nongenetic factor seems more important in their offspring.     

Reproductive Biology ofCephalonomia hyalinipennis(Hymenoptera: Bethylidae), a Native Parasitoid of the Coffee Berry Borer,Hypothenemus hampei(Coleoptera: Scolytidae), in Chiapas, Mexico

The coffee berry borer,Hypothenemus hampei(Ferrari) (Coleoptera: Scolytidae), is the most important pest of coffee worldwide.Cephalonomia hyalinipennisAshmead (Hymenoptera: Bethylidae) was recently discovered naturally attackingH. hampeiin Mexico.C. hyalinipennisboth preys upon and parasitizesH. hampei.We report laboratory investigations on the reproductive biology ofC. hyalinipennisaimed at assessing the suitability of this parasitoid for culturing and release in biological control programs. Adult females lived up to 95 days (mean for mated females = 57 days), and risk of death increased with age. Mating status, reproductive effort, and female size influenced adult female longevity, but only weakly. The number ofH. hampeipreyed upon did not affect longevity. Rates of attack (predation plus parasitism) declined with age, but the proportion of attackedH. hampeithat were parasitized increased. Overall, about half of the attackedH. hampeiwere preyed upon and half were parasitized. Females received approximately 46 sperm per mating and 77% became sperm depleted before the end of their reproductive lives. Estimated mean lifetime fecundity was 88 eggs. Offspring survival from egg to adulthood was 60%, with batches of eggs tending to survive or die collectively; 21.2% of surviving progeny were males. These results suggest thatC. hyalinipennismay be suitable for mass rearing and release, but further work is needed to investigate interactions betweenC. hyalinipennisand other parasitoids ofH. hampei.     

Effects of mycorrhizal fungi on plant populations

We discuss four potentially important interactions between mycorrhizal fungi and populations of plants. First, vesicular-arbuscular mycorrhizal colonization has been shown to increase reproduction (via both male and female functions) and offspring survival, and thus it can increase population size, at least in the short term. This is undoubtedly important to wild plant species and especially to those whose success depends on high rates of reproduction such as early successional annuals. Second, the positive response in growth and reproduction to vesicular-arbuscular mycorrhizal colonization may be inversely related to plant population density. All else being equal, this would tend to stabilize the density of natural plant populations over time. It may also explain why positive responses to mycorrhizal inoculation of dense crops are rare. Third, vesicular-arbuscular mycorrhizal fungi can increase inequality in size and reproduction among plants within a population. Mycorrhizal fungi may thus exaggerate the genetic overrepresentation in the next generation of the most robust individuals in the current generation. Fourth, established mycorrhizal plants may serve as important sources of inoculum for initially nonmycorrhizal, conspecific seedlings. This may affect regeneration, and could contribute to patchy distributions of species within the community.     

Influence of temperature on the reproductive success,brood development and brood fitness of the eastern larch beetle Dendroctonus simplex LeConte

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