MEN WITHOUT SAWMILLS: MASCULINITY, RURAL POVERTY, AND FAMILY STABILITY

Using ethnographic and interview data, this paper explores the impacts of economic strain and job loss on the construction and experience of masculinity, as well as the effects of threats to masculine identity on family stability in a rural American community. It looks at these issues specifically with reference to the high correlation between poverty and single parenting, in order to better understand the causal mechanisms responsible for this link in a rural setting. It challenges the mainstream argument that it is women�s marriage choices that are mainly responsible for this correlation. Building on and extending the work of previous researchers, the paper argues that men�s experiences with masculinity in times of economic and labor market stress seriously undermine their abilities to sustain functioning relationships.Food Security and Poverty,

Contraceptive Utilization Among New Exotic Dancers: A Cross-Sectional Study

Background Female exotic dancers are a population at high risk of unintended pregnancy. The objective of this study is to describe the reproductive health needs and contraceptive utilization of exotic dancers. Methods New exotic dancers (\u3c 6 months dancing) from 26 clubs in Baltimore City/County completed a one-time survey. Results Of 117 participants, 96 (82%) had current contraceptive need. The mean age was 24 years, and 55% were black. Sex work (45%), alcohol use disorder (73%), illicit (44%; e.g., heroin, crack, cocaine), and injection drug use (8%) were common. The majority (66%) reported contraception use in the prior 6 months. Condoms were reported by 46% whereas 45% reported non-barrier methods, most commonly hormonal injection. Consistent condom use was rare (3%), and only 11% used a long-acting reversible method. Conclusions Despite their unique reproductive health vulnerabilities, female exotic dancers have unmet contraceptive needs. Targeted harm reduction strategies are needed to fill this gap

Transcription factor LSF: a mitotic regulator in hepatocellular carcinoma cells

Hepatocellular carcinoma (HCC) is the third leading cause of cancer mortality worldwide. Current treatments are subpar, with late stage diagnosis and poor prognosis contributing to limited treatment options. The evolutionarily conserved, ubiquitously expressed transcription factor LSF is overexpressed in HCC, and its expression is positively correlated with disease severity. Certain small molecules, known as Factor Quinolinone Inhibitors (FQIs), specifically inhibit LSF DNA-binding activity, inhibit HCC cell proliferation in vitro and prevent tumor growth in an endogenous mouse liver cancer model without apparent toxicity. The targeting of transcription factors by small molecule inhibitors has been historically difficult (Dunker and Uversky, 2010), warranting further molecular investigation into the requirement for LSF in HCC to confirm that the anti-tumor effects of FQIs are the consequence of LSF inhibition. This body of work investigates a dual approach for inhibiting LSF function in order to determine the molecular consequences for HCC cells. To identify the specific point of the cell cycle where LSF is required for HCC proliferation, synchronous HCC cells were treated with FQI or with short interfering RNA to reduce levels of LSF. The results indicate that LSF is required for proper mitotic progression in HCC cells. Specifically, these data show a reduction of key mitotic regulators Aurora Kinase B and Cdc20, at the level of mRNA and protein expression. Time-lapse microscopy also demonstrated an increase in the time for progression through mitosis, with a prometaphase/metaphase delay. Immunofluorescence analysis revealed a prometaphase delay plus aberrant cell division and generation of multi-nucleated cells. These findings were consistent with both FQI1 treatment and RNA interference. Additionally, shorter incubation with FQI1 surprisingly revealed a distinct, non-transcriptional regulation of mitosis in HCC cells, suggesting that mitotic regulation by LSF is multi-faceted. As a targeted therapy for use in the clinic, the in vivo toxicity of FQIs is critical to investigate. Whole blood provides populations of rapidly dividing normal cells that can test susceptibility to anti-mitotic compounds. When mice were treated with FQI1, the blood analysis showed no toxicity. Taken together, these findings indicate that LSF is a mitotic regulator in HCC, further supporting the therapeutic promise of molecular therapies targeting LSF.2019-03-04T00:00:00

Publication of topographic atlas and control network of Mars

To aid planetary studies and the planning of future Mars missions, the Topographic Atlas and Control Network for Mars will be submitted by the end of fiscal year 1992 for publication as a NASA Special Publication. It will consist of reduced versions of 108 1:2 million-scale photomosaics that show contour lines from topographic maps at the same scale, as well as precisely located control points. The control points are from the planetwide network, which is not only instrumental in the compilation of maps at various scales, but is also widely used in other research such as studies of Mars' gravity and atmosphere. An example, a combination of MC 8-NW and -SW, of the photomosaics to be included in the atlas is presented. Contour lines in the figure are at 1-km intervals. The final adjusted ground coordinates and elevations of the 77 control points shown are given in table form. The last column in the table lists the topographic datum (zero elevation) that can be used to compute the solid radius of the control point from the center of mass of Mars. The atlas will also include information such as the adjusted C-matrices of each image, descriptions of the methods used, and their accuracy, and guidelines for users

What Judges Want and Need: User-Friendly Foundations for Effective Judicial Education

This article evaluates the connection between judicial education and judges’ needs and preferences. In Part I, we begin by discussing the history, purpose, and form of judicial education, charting its evolution over time. In Part II, we examine current judicial education programs and scholarship, highlighting differences and similarities between federal and state programming. In Part III, we analyze the limitations of existing scholarship and programming, arguing judicial education programs are insufficiently tied to evidence of judicial demands. We conclude in Parts IV and V by suggesting two proposals to align programming with needs: (1) an annual needs-based assessment of judicial education offerings and (2) a voucher system for judges to attend their choice of judicial education programs

Students With Special Needs, Reading Education, and Principals: Bridging the Divide Through Instructional Leadership

Principals are held accountable for achievement results of students on state-mandated assessments. Special needs students who struggle with literacy can impact the pass rates on these assessments. This study identifies how reading is taught to special needs students in both self-contained and inclusion settings at the secondary level in one school district determines how school leaders may or may not be facilitating this process and identifies ways school leaders can more effectively facilitate special education reading programs and processes

Impact of Flower Harvesting on the Salt Marsh Plant \u3cem\u3eLimonium carolinianum\u3c/em\u3e

Because of the potentially detrimental effects of seed production on adult survivorship and growth, moderate flower harvesting may have little negative impact on population growth of long-lived perennial plants such as Limonium carolinianum (Walter) Britton. We examined this by collecting data on survivorship, growth, and fecundity of an unharvested population over a period of 5 years and conducted a controlled experiment to examine the effect of harvesting on adult survivorship and growth over a 3-year period. Data were summarized in the form of a stage structured matrix population model with a stochastic element that incorporated year-to-year variation in transition probabilities. Contrary to our original hypothesis, we found that preventing seed set through removal of flowers did not increase adult survivorship or growth. By determining the harvest level that reduced population growth rate to 1.0, we estimated the maximum sustainable harvest level to be 16%, a value that is approximately half that of reported harvest levels on accessible marshes in the study area. In spite of this, the reported harvest levels are unlikely to drive local populations to extinction in the foreseeable future. Providing the adult population size is \u3e100 and harvest levels are \u3c90%, time to local extinction will exceed 100 years. This is a function of the very high survivorship of adults in this species and the fact that harvesting has no negative impact on adult survivorship or growth. However, because of the long preadult phase in this species (8–9 years) and the fact that fecundity of young adults is low, recovery from overharvesting is extremely slow. Adult population size can be reduced to 25% of its original value in 7 years at high harvest levels, but it will take 34 years on average to recover once harvesting is terminated

Oxidative Stress Responses and Nutrient Starvation in MCHM Treated Saccharomyces cerevisiae

In 2014, the coal cleaning chemical 4-methylcyclohexane methanol (MCHM) spilled into the water supply for 300,000 West Virginians. Initial toxicology tests showed relatively mild results, but the underlying effects on cellular biology were underexplored. Treated wildtype yeast cells grew poorly, but there was only a small decrease in cell viability. Cell cycle analysis revealed an absence of cells in S phase within thirty minutes of treatment. Cells accumulated in G1 over a six-hour time course, indicating arrest instead of death. A genetic screen of the haploid knockout collection revealed 329 high confidence genes required for optimal growth in MCHM. These genes encode three major cell processes: mitochondrial gene expression/translation, the vacuolar ATPase, and aromatic amino acid biosynthesis. The transcriptome showed an upregulation of pleiotropic drug response genes and amino acid biosynthetic genes and downregulation in ribosome biosynthesis. Analysis of these datasets pointed to environmental stress response activation upon treatment. Overlap in datasets included the aromatic amino acid genes ARO1, ARO3, and four of the five TRP genes. This implicated nutrient deprivation as the signal for stress response. Excess supplementation of nutrients and amino acids did not improve growth on MCHM, so the source of nutrient deprivation signal is still unclear. Reactive oxygen species and DNA damage were directly detected with MCHM treatment, but timepoints showed these accumulated slower than cells arrested. We propose that wildtype cells arrest from nutrient deprivation and survive, accumulating oxidative damage through the implementation of robust environmental stress responses

Observations of Shear Stress Effects on Staphylococcus aureus Biofilm Formation

Staphylococcus aureus bacteria form biofilms and distinctive microcolony or “tower” structures that facilitate their ability to tolerate antibiotic treatment and to spread within the human body. The formation of microcolonies, which break off, get carried downstream, and serve to initiate biofilms in other parts of the body, is of particular interest here. It is known that flow conditions play a role in the development, dispersion, and propagation of biofilms in general. The influence of flow on microcolony formation and, ultimately, what factors lead to microcolony development are, however, not well understood. The hypothesis being examined is that microcolony structures form within a specific range of levels of shear stress. In this study, laminar shear flow over a range of 0.15 to 1.5 dynes/cm2 was examined. It was found that microcolony structures form in a narrow range of shear stresses around 0.6 dynes/cm2. Further, measurements of cell density as a function of space and time showed that shear dependence can be observed hours before microcolonies form. This is significant because, among other physiologic flows, this is the same shear stress found in large veins in the human vasculature, which, along with catheters of similar diameters and flow rates, may therefore play a critical role in biofilm development and subsequent spreading of infections throughout the body

Preservice mathematics teachers’ professional noticing of students’ mathematical thinking with technology

The purpose of this study is to examine the ways in which preservice secondary mathematics teachers (PSMT) professionally notice middle school students’ mathematical thinking on a technology enhanced mathematical task. The middle school students’ work was captured as a videocase for PSMTs to examine. Findings show that every PSMT included a discussion of the middle school students’ interaction with the technology in their noticing prompts, demonstrating that PSMTs recognized that the middle school students’ mathematical understanding was tied to their interactions with the technology. Additionally, results from PSMTs’ justifications for their predictions of middle school students’ responses to the task, incorporated the middle school students language and described how the middle school students would interact with the technology