237 research outputs found
Radically Rethinking Agriculture for the 21st Century
Population growth, arable land and fresh water limits, and climate change have profound implications for the ability of agriculture to meet this century’s demands for food, feed, fiber, and fuel while reducing the environmental impact of their production. Success depends on the acceptance and use of contemporary molecular techniques, as well as the increasing development of farming systems that use saline water and integrate nutrient flows
“It’s not something I chose you know”: making sense of pedophiles’ sexual interest in children and the impact on their psychosexual identity
Sexual interest in children is one of the most strongly predictive of the known risk factors for sexual reconviction. It is an important aspect of risk assessment to identify the presence of such interest, and an important task for treatment providers to address such a sexual interest where it is present. It has been argued that understanding pedophiles’ deviant sexual interest in children can enhance risk assessment, management, and treatment planning. This research study aims to explore the phenomenology of deviant sexual interest in children, the impact it has on pedophilic offenders’ identities, and their views on the treatability of that interest. The study used semistructured interviews and repertory grids to make sense of participants’ experiences. The results revealed three superordinate themes: “‘living’ with a deviant sexual interest,” “relational sexual self,” and “possible and feared sexual self.” The analysis unpacks these themes and repertory grid analysis is used to explore a subset of participants’ identities in more detail. The results reveal that there needs to be an acceptance from both client and therapist that their sexual interest in children may never go away. Through this acceptance, clients could work on enhancing sexual self-regulation, recognizing their triggers, and so managing their sexual thoughts, feelings, and behavior. Implications for treatment are also discussed
Understanding fear of opportunism in global prize-based science contests: Evidence for gender and age differences
Global prize-based science contests have great potential for tapping into diverse knowledge on a global scale and overcoming important scientific challenges. A necessary step for knowledge to be utilized in these contests is for that knowledge to be disclosed. Knowledge disclosure, however, is paradoxical in nature: in order for the value of knowledge to be assessed, inventors must disclose their knowledge, but then the person who receives that knowledge does so at no cost and may use it opportunistically. This risk of potential opportunistic behavior in turn makes the inventor fearful of disclosing knowledge, and this is a major psychological barrier to knowledge disclosure. In this project, we investigated this fear of opportunism in global prize-based science contests by surveying 630 contest participants in the InnoCentive online platform for science contests. We found that participants in these science contests experience fear of opportunism to varying degrees, and that women and older participants have significantly less fear of disclosing their scientific knowledge. Our findings highlight the importance of taking differences in such fears into account when designing global prize-based contests so that the potential of the contests for reaching solutions to important and challenging problems can be used more effectively
Atributos micromorfológicos de solos do Projeto Jaíba, norte de Minas Gerais
Amostras indeformadas de horizontes representativos de solos do Projeto Jaíba, norte de Minas Gerais, e camadas compactadas e não compactadas de solos sob uso intensivo foram coletadas e analisadas micromorfologicamente, com vistas em obter maiores informações relativas ao seu grau de evolução e avaliar as alterações causadas nos solos pelo uso agrícola. Foram estudados quatro solos derivados de calcário (P1, P2, P3 e P4) e um originado a partir de sedimentos detríticos (P5), além das camadas com e sem indícios de compactação. A micromorfologia revelou que os solos apresentam características bastante distintas e variáveis, dependendo da classe e do material de origem. O Cambissolo originado de calcário tem como característica marcante o fluxo vertical de sílica e argila, sem, no entanto, caracterizar horizonte B textural, além de maior desenvolvimento de estrutura em blocos. O Cambissolo originado de sedimentos detríticos apresenta fluxo lateral de argila, presença marcante de cutãs de difusão de ferro e estrutura menos desenvolvida tendendo a granular. O Podzólico Vermelho-Escuro apresentou estrutura em blocos e presença de cutãs de deposição, muitos destes incorporados pela matriz, o que pode indicar transição para Latossolo. Os Latossolos apresentam-se com estrutura granular, mas esta é muito menos desenvolvida que a observada para os Latossolos gibbsíticos já analisados no País, o que pode indicar um menor grau de evolução destes solos. A atividade da fauna parece ser o principal agente responsável pelo desenvolvimento da microestrutura do Podzólico e dos Latossolos. Quanto à compactação, a micromorfologia relevou diferenças na organização do plasma e na forma dos poros, quando se compararam camadas compactadas com não compactadas. De maneira geral, o plasma das camadas compactadas é mais denso e os poros se apresentam alterados em razão do esforço físico impingido aos solos
Alternative splicing of the maize Ac transposase transcript in transgenic sugar beet (Beta vulgaris L.)
The maize Activator/Dissociation (Ac/Ds) transposable element system was introduced into sugar beet. The autonomous Ac and non-autonomous Ds element excise from the T-DNA vector and integrate at novel positions in the sugar beet genome. Ac and Ds excisions generate footprints in the donor T-DNA that support the hairpin model for transposon excision. Two complete integration events into genomic sugar beet DNA were obtained by IPCR. Integration of Ac leads to an eight bp duplication, while integration of Ds in a homologue of a sugar beet flowering locus gene did not induce a duplication. The molecular structure of the target site indicates Ds integration into a double strand break. Analyses of transposase transcription using RT–PCR revealed low amounts of alternatively spliced mRNAs. The fourth intron of the transposase was found to be partially misspliced. Four different splice products were identified. In addition, the second and third exon were found to harbour two and three novel introns, respectively. These utilize each the same splice donor but several alternative splice acceptor sites. Using the SplicePredictor online tool, one of the two introns within exon two is predicted to be efficiently spliced in maize. Most interestingly, splicing of this intron together with the four major introns of Ac would generate a transposase that lacks the DNA binding domain and two of its three nuclear localization signals, but still harbours the dimerization domain
Change of Gene Structure and Function by Non-Homologous End-Joining, Homologous Recombination, and Transposition of DNA
An important objective in genome research is to relate genome structure to gene function. Sequence comparisons among orthologous and paralogous genes and their allelic variants can reveal sequences of functional significance. Here, we describe a 379-kb region on chromosome 1 of maize that enables us to reconstruct chromosome breakage, transposition, non-homologous end-joining, and homologous recombination events. Such a high-density composition of various mechanisms in a small chromosomal interval exemplifies the evolution of gene regulation and allelic diversity in general. It also illustrates the evolutionary pace of changes in plants, where many of the above mechanisms are of somatic origin. In contrast to animals, somatic alterations can easily be transmitted through meiosis because the germline in plants is contiguous to somatic tissue, permitting the recovery of such chromosomal rearrangements. The analyzed region contains the P1-wr allele, a variant of the genetically well-defined p1 gene, which encodes a Myb-like transcriptional activator in maize. The P1-wr allele consists of eleven nearly perfect P1-wr 12-kb repeats that are arranged in a tandem head-to-tail array. Although a technical challenge to sequence such a structure by shotgun sequencing, we overcame this problem by subcloning each repeat and ordering them based on nucleotide variations. These polymorphisms were also critical for recombination and expression analysis in presence and absence of the trans-acting epigenetic factor Ufo1. Interestingly, chimeras of the p1 and p2 genes, p2/p1 and p1/p2, are framing the P1-wr cluster. Reconstruction of sequence amplification steps at the p locus showed the evolution from a single Myb-homolog to the multi-gene P1-wr cluster. It also demonstrates how non-homologous end-joining can create novel gene fusions. Comparisons to orthologous regions in sorghum and rice also indicate a greater instability of the maize genome, probably due to diploidization following allotetraploidization
The Endoplasmic Reticulum Stress Response in Neuroprogressive Diseases: Emerging Pathophysiological Role and Translational Implications
The endoplasmic reticulum (ER) is the main cellular organelle involved in protein synthesis, assembly and secretion. Accumulating evidence shows that across several neurodegenerative and neuroprogressive diseases, ER stress ensues, which is accompanied by over-activation of the unfolded protein response (UPR). Although the UPR could initially serve adaptive purposes in conditions associated with higher cellular demands and after exposure to a range of pathophysiological insults, over time the UPR may become detrimental, thus contributing to neuroprogression. Herein, we propose that immune-inflammatory, neuro-oxidative, neuro-nitrosative, as well as mitochondrial pathways may reciprocally interact with aberrations in UPR pathways. Furthermore, ER stress may contribute to a deregulation in calcium homoeostasis. The common denominator of these pathways is a decrease in neuronal resilience, synaptic dysfunction and even cell death. This review also discusses how mechanisms related to ER stress could be explored as a source for novel therapeutic targets for neurodegenerative and neuroprogressive diseases. The design of randomised controlled trials testing compounds that target aberrant UPR-related pathways within the emerging framework of precision psychiatry is warranted
Chromosome evolution in fishes: a new challenging proposal from Neotropical species
We present a database containing cytogenetic data of Neotropical actinopterygian fishes from Venezuela obtained in a single
laboratory for the first time. The results of this study include 103 species belonging to 74 genera assigned to 45 families and 17
out of the 40 teleost orders. In the group of marine fishes, the modal diploid number was 2n=48 represented in 60% of the
studied species, while in the freshwater fish group the modal diploid complement was 2n=54, represented in 21.21 % of the
studied species. The average number of chromosomes and the mean FN were statistically higher in freshwater fish than in
marine fish. The degree of diversification and karyotype variation was also higher in freshwater fish in contrast to a more
conserved cytogenetic pattern in marine fish. In contrast to the assumption according to which 48 acrocentric chromosomes
was basal chromosome number in fish, data here presented show that there is an obvious trend towards the reduction of the
diploid number of chromosomes from values near 2n=60 with high number of biarmed chromosomes in more basal species to
2n=48 acrocentric elements in more derived Actinopterygi
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