Oregon WoodFest: Assessing the Educational Impact

Oregon WoodFest had the goal of increasing awareness of Oregon citizens about the Oregon forest sector. The event featured two components: a continuing education course for architects and builders, and a public wood festival. This article reports the results of an assessment of the educational impact of Oregon WoodFest. Educational impact of Architectural Design with Wood was assessed using a post-test questionnaire and of the public festival using participant interviews. Results show that the CE course influenced participants\u27 intentions regarding their use of wood and that the public festival increased participants awareness of wood and the forest sector

A Lower-Class Advantage in Face Memory

People remember what they deem important. In line with research suggesting that lower-class (vs. higher class) individuals spontaneously appraise other people as more relevant, we show that social class is associated with the habitual use of face memory. We find that lower-class (vs. higher class) participants exhibit better incidental memory for faces (i.e., spontaneous memory for faces they had not been instructed to memorize; Studies 1 and 2). No social-class differences emerge for faces participants are instructed to learn (Study 2), suggesting that this pattern reflects class-based relevance appraisals rather than memory ability. Study 3 extends our findings to eyewitness identification. Lower-class (vs. higher-class) participants’ eyewitness accuracy is less impacted by the explicit relevance of a target (clearly relevant thief vs. incidental bystander). Integrative data analysis shows a robust negative association between social class and spontaneous face memory. Preregistration (Studies 1 and 3) and cross-cultural replication (Study 2) further strengthen the results.Division of Behavioral and Cognitive Sciences https://doi.org/10.13039/100000169Peer Reviewe

Ground Contact Time Imbalances Strongly Related to Impaired Running Economy

Running economy (RE) is defined as the oxygen consumption (VO2) or caloric unit cost required to move at a specific velocity and is an important performance marker. Ground contact time (GCT) has been associated with RE; however, it has not been established how GCT imbalances between feet impact RE. Purpose: Determine the relationship between cadence, GCT, and GCT imbalances and RE. Methods: 11 NCAA Division I distance runners (7 male) completed a graded exercise test on a treadmill to determine lactate threshold (LT) and VO2max. Body composition was also assessed via DEXA. Subjects ran with a heart rate monitor capable of measuring cadence, GCT, and GCT balance between feet. VO2 and respiratory exchange ratio were recorded over the last minute of the 5-minute stages. RE expressed as caloric unit cost (kcal·kg-1· km-1) was calculated for the stage determined to be just below the LT (prior to \u3e 4mmol/L) and was correlated with cadence, GCT, and GCT imbalance by Pearson correlations. Results: Pearson correlations between RE and the running dynamics measures were as follows: cadence (r = -.444, p = .171), GCT (r = .492, p = .125), GCT Imbalance (r = .808, p \u3c .005). An independent t-test revealed greater (p = .023) leg lean mass imbalances in runners with larger GCT imbalances compared to runners with smaller GCT imbalances. Conclusion: GCT imbalances are strongly related to impaired RE. Future research should determine how to improve GCT imbalances and if doing so improves RE

Chiasma

Newspaper reporting on events at the Boston University School of Medicine in the 1960s

Large-Scale Automatic Reconstruction of Neuronal Processes from Electron Microscopy Images

Automated sample preparation and electron microscopy enables acquisition of very large image data sets. These technical advances are of special importance to the field of neuroanatomy, as 3D reconstructions of neuronal processes at the nm scale can provide new insight into the fine grained structure of the brain. Segmentation of large-scale electron microscopy data is the main bottleneck in the analysis of these data sets. In this paper we present a pipeline that provides state-of-the art reconstruction performance while scaling to data sets in the GB-TB range. First, we train a random forest classifier on interactive sparse user annotations. The classifier output is combined with an anisotropic smoothing prior in a Conditional Random Field framework to generate multiple segmentation hypotheses per image. These segmentations are then combined into geometrically consistent 3D objects by segmentation fusion. We provide qualitative and quantitative evaluation of the automatic segmentation and demonstrate large-scale 3D reconstructions of neuronal processes from a $\mathbf{27,000}$ $\mathbf{\mu m^3}$ volume of brain tissue over a cube of $\mathbf{30 \; \mu m}$ in each dimension corresponding to 1000 consecutive image sections. We also introduce Mojo, a proofreading tool including semi-automated correction of merge errors based on sparse user scribbles

Oregon’s Forest Sector Innovation System: An Investigation Towards Advanced Performance

The forest products industry has faced numerous challenges in remaining innovative: outside forces such as industry culture and policy provide few incentives while poor communication among industry actors impedes creative growth from within. This article outlines results gathered from personal interviews with industry professionals and an industry survey on key policies, incentives, organizations, and the condition of Oregon’s forest sector innovation system. We conducted this research in order to provide recommendations for an improved forest sector innovation system that can, in turn, increase competitiveness and synergies among forest sector companies, higher education, and other businesses in Oregon.Keywords: wood products industry, innovation, sectoral innovation system, innovation system, forestryKeywords: wood products industry, innovation, sectoral innovation system, innovation system, forestr

Concern for the ingroup and opposition to affirmative action.

The present experiments suggest that the desire to benefit the in-group drives dominant-group members' policy preferences, independent of concern for out-groups' outcomes. In Experiment 1, the effect of a manipulation of affirmative action procedures on policy support was mediated by how Whites expected the policy to affect fellow Whites, but not by the expected effect on minorities. In Experiments 2 and 3, when focused on losses for the White in-group, Whites' racial identity was negatively related to support for affirmative action. However, when focused on gains for the Black out-group or when participants were told that Whites were not affected by the policy, racial identity did not predict attitudes toward the policy. In Experiments 2 and 3, perceived fairness mediated these effects

Modeling of autosomal-dominant retinitis pigmentosa in Caenorhabditis elegans uncovers a nexus between global impaired functioning of certain splicing factors and cell type-specific apoptosis

Retinitis pigmentosa (RP) is a rare genetic disease that causes gradual blindness through retinal degeneration. Intriguingly, seven of the 24 genes identified as responsible for the autosomal-dominant form (adRP) are ubiquitous spliceosome components whose impairment causes disease only in the retina. The fact that these proteins are essential in all organisms hampers genetic, genomic, and physiological studies, but we addressed these difficulties by using RNAi in Caenorhabditis elegans. Our study of worm phenotypes produced by RNAi of splicing-related adRP (s-adRP) genes functionally distinguishes between components of U4 and U5 snRNP complexes, because knockdown of U5 proteins produces a stronger phenotype. RNA-seq analyses of worms where s-adRP genes were partially inactivated by RNAi, revealed mild intron retention in developing animals but not in adults, suggesting a positive correlation between intron retention and transcriptional activity. interestingly, RNAi of s-adRP genes produces an increase in the expression of atl-1 (homolog of human ATR), which is normally activated in response to replicative stress and certain DNA-damaging agents. The up-regulation of atl-1 correlates with the ectopic expression of the pro-apoptotic gene egl-1 and apoptosis in hypodermal cells, which produce the cuticle, but not in other cell types. Our model in C. elegans resembles s-adRP in two aspects: The phenotype caused by global knockdown of s-adRP genes is cell type-specific and associated with high transcriptional activity. Finally, along with a reduced production of mature transcripts, we propose a model in which the retina-specific cell death in s-adRP patients can be induced through genomic instability

Sex-specific and developmental expression of Dmrt genes in the starlet sea anemone, Nematostella vectensis

BACKGROUND: The molecular mechanisms underlying sex determination and differentiation in animals are incredibly diverse. The Dmrt (doublesex and mab-3 related transcription factor) gene family is an evolutionary ancient group of transcription factors dating to the ancestor of metazoans that are, in part, involved in sex determination and differentiation in numerous bilaterian animals and thus represents a potentially conserved mechanism for differentiating males and females dating to the protostome-deuterostome ancestor. Recently, the diversity of this gene family throughout animals has been described, but the expression and potential function for Dmrt genes is not well understood outside the bilaterians. RESULTS: Here, we report sex- and developmental-specific expression of all 11 Dmrts in the starlet sea anemone Nematostella vectensis. Nine out of the eleven Dmrts showed significant differences in developmental expression, with the highest expression typically in the adult stage and, in some cases, with little or no expression measured during embryogenesis. When expression was compared in females and males, seven of the eleven Dmrt genes had significant differences in expression with higher expression in males than in females for six of the genes. Lastly, expressions of two Dmrt genes with differential expression in each sex are located in the mesenteries and into the pharynx in polyps. CONCLUSIONS: Our results show that the phylogenetic diversity of Dmrt genes in N. vectensis is matched by an equally diverse pattern of expression during development and in each sex. This dynamic expression suggests multiple functions for Dmrt genes likely present in early diverging metazoans. Detailed functional analyses of individual genes will inform hypotheses regarding the antiquity of function for these transcription factors.NTK was supported by the NSF Ocean Sciences Postdoctoral Fellowship, Award Number OCE-1323652, and Award Number 1012629 from the Burroughs Wellcome Fund Postdoctoral Enrichment Program. AMR was supported by Award Number F32HD062178 from the Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD) during a postdoctoral fellowship in Dr. Ann Tarrant's laboratory (WHOI) and Award Number R15GM114740 from National Institute of General Medicine (NIGMS). VS and EGK were supported by Binational Science Foundation Grant 2013119. AMR acknowledges generous funding from the University of North Carolina at Charlotte. (OCE-1323652 - NSF Ocean Sciences Postdoctoral Fellowship; 1012629 - Burroughs Wellcome Fund Postdoctoral Enrichment Program; F32HD062178 - Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD); R15GM114740 - National Institute of General Medicine (NIGMS); 2013119 - Binational Science Foundation; University of North Carolina at Charlotte)Published versio

In vivo rate-determining steps of tau seed accumulation in Alzheimer's disease.

[Figure: see text].We acknowledge funding from Sidney Sussex College Cambridge (GM) and the European Research Council Grant Number 669237 (to D.K.) and the Royal Society (to D.K.). The Cambridge Brain Bank is supported by the NIHR Cambridge Biomedical Research Centre