515 research outputs found
College of Business Dean\u27s Advisory Council on Diversity & Inclusion
Dean’s Advisory Council on Diversity and Inclusion (DACODI) is compromised of students, faculty, and staff who work together to ensure that the College of Business Administration (CBA) at Bowling Green State University (BGSU) is using best practices for a culture of diversity and inclusion. DACODI creates and evaluates the CBA’s strategic goals and missions related to diversity and inclusion to achieve the best possible business outcomes for students, faculty, staff, and alumni of the CBA.
DACODI was inspired by research done by Catalyst on the better business outcomes produced by gender diverse businesses. To leverage the gender, ethnic, and age diversity represented in the CBA, a student organization was proposed to provide diversity and inclusion programming for students, faculty, staff, and alumni
Signatures of selection in natural populations adapted to chronic pollution
<p>Abstract</p> <p>Background</p> <p>Populations of the teleost fish <it>Fundulus heteroclitus </it>appear to flourish in heavily polluted and geographically separated Superfund sites. Populations from three Superfund sites (New Bedford Harbor, MA, Newark Bay, NJ, and Elizabeth River, VA) have independently evolved adaptive resistance to chemical pollutants. In these polluted populations, natural selection likely has altered allele frequencies of loci that affect fitness or that are linked to these loci. The aim of this study was to identify loci that exhibit non-neutral behavior in the <it>F. heteroclitus </it>genome in polluted populations <it>versus </it>clean reference populations.</p> <p>Results</p> <p>To detect signatures of natural selection and thus identify genetic bases for adaptation to anthropogenic stressors, we examined allele frequencies for many hundreds of amplified fragment length polymorphism markers among populations of <it>F. heteroclitus</it>. Specifically, we contrasted populations from three Superfund sites (New Bedford Harbor, MA, Newark Bay, NJ, and Elizabeth River, VA) to clean reference populations flanking the polluted sites. When empirical F<sub>ST </sub>values were compared to a simulated distribution of F<sub>ST </sub>values, 24 distinct outlier loci were identified among pairwise comparisons of pollutant impacted <it>F. heteroclitus </it>populations and both surrounding reference populations. Upon removal of all outlier loci, there was a strong correlation (R<sup>2 </sup>= 0.79, p < 0.0001) between genetic and geographical distance. This apparently neutral evolutionary pattern was not evident when outlier loci were included (R<sup>2 </sup>= 0.092, p = 0.0721). Two outlier loci were shared between New Bedford Harbor and Elizabeth River populations, and two different loci were shared between Newark Bay and Elizabeth River populations.</p> <p>Conclusion</p> <p>In total, 1% to 6% of loci are implicated as being under selection or linked to areas of the genome under selection in three <it>F. heteroclitus </it>populations that reside in polluted estuaries. Shared loci among polluted sites indicate that selection may be acting on multiple loci involved in adaptation, and loci shared between polluted sites potentially are involved in a generalized adaptive response.</p
Digital Repository of Mathematical Formulae
The purpose of the NIST Digital Repository of Mathematical Formulae (DRMF) is
to create a digital compendium of mathematical formulae for orthogonal
polynomials and special functions (OPSF) and of associated mathematical data.
The DRMF addresses needs of working mathematicians, physicists and engineers:
providing a platform for publication and interaction with OPSF formulae on the
web. Using MediaWiki extensions and other existing technology (such as software
and macro collections developed for the NIST Digital Library of Mathematical
Functions), the DRMF acts as an interactive web domain for OPSF formulae.
Whereas Wikipedia and other web authoring tools manifest notions or
descriptions as first class objects, the DRMF does that with mathematical
formulae. See http://gw32.iu.xsede.org/index.php/Main_Page
Development of an innovative bio-binder using Asphalt-rubber technology
This research work evaluates several parameters that can affect Asphalt Rubber (AR) binder performance and applies the AR
technology to the development of an innovative renewable bio-binder that can fully and cost-effectively replace asphaltic bitumen derived
from petroleum in flexible pavement construction. The “Binder Accelerated Separator” method was used to divide the constituents of the
Asphalt Rubber and bio-binder (residual binder and swelled rubber). The physical and chemical changes in the Asphalt Rubber and
bio-binder and in the residual binders (residual bitumen and residual bio-oil) were evaluated. The results demonstrate that the produced
bio-binder is suitable for use in flexible pavements with properties comparable to those of conventional and Asphalt Rubber binders
Functional genomics of physiological plasticity and local adaptation in killifish
Evolutionary solutions to the physiological challenges of life in highly variable habitats can span the continuum from evolution of a cosmopolitan plastic phenotype to the evolution of locally adapted phenotypes. Killifish (Fundulus sp.) have evolved both highly plastic and locally adapted phenotypes within different selective contexts, providing a comparative system in which to explore the genomic underpinnings of physiological plasticity and adaptive variation. Importantly, extensive variation exists among populations and species for tolerance to a variety of stressors, and we exploit this variation in comparative studies to yield insights into the genomic basis of evolved phenotypic variation. Notably, species of Fundulus occupy the continuum of osmotic habitats from freshwater to marine and populations within Fundulus heteroclitus span far greater variation in pollution tolerance than across all species of fish. Here, we explore how transcriptome regulation underpins extreme physiological plasticity on osmotic shock and how genomic and transcriptomic variation is associated with locally evolved pollution tolerance. We show that F. heteroclitus quickly acclimate to extreme osmotic shock by mounting a dramatic rapid transcriptomic response including an early crisis control phase followed by a tissue remodeling phase involving many regulatory pathways. We also show that convergent evolution of locally adapted pollution tolerance involves complex patterns of gene expression and genome sequence variation, which is confounded with body-weight dependence for some genes. Similarly, exploiting the natural phenotypic variation associated with other established and emerging model organisms is likely to greatly accelerate the pace of discovery of the genomic basis of phenotypic variation. The American Genetic Association. 2010. All rights reserved. For permissions, please email: [email protected] © The American Genetic Association. 2010. All rights reserved. For permissions, please email: [email protected]
Can diversifying selection be distinguished from history in geographic clines? A population genomic study of killifish (Fundulus heteroclitus)
© The Author(s), 2012. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in PLoS ONE 7 (2012): e45138, doi:10.1371/journal.pone.0045138.A common geographical pattern of genetic variation is the one-dimensional cline. Clines may be maintained by diversifying selection across a geographical gradient but can also reflect historical processes such as allopatry followed by secondary contact. To identify loci that may be undergoing diversifying selection, we examined the distribution of geographical variation patterns across the range of the killifish (Fundulus heteroclitus) in 310 loci, including microsatellites, allozymes, and single nucleotide polymorphisms. We employed two approaches to detect loci under strong diversifying selection. First, we developed an automated method to identify clinal variation on a per-locus basis and examined the distribution of clines to detect those that exhibited signifcantly steeper slopes. Second, we employed a classic -outlier method as a complementary approach. We also assessed performance of these techniques using simulations. Overall, latitudinal clines were detected in nearly half of all loci genotyped (i.e., all eight microsatellite loci, 12 of 16 allozyme loci and 44% of the 285 SNPs). With the exception of few outlier loci (notably mtDNA and malate dehydrogenase), the positions and slopes of Fundulus clines were statistically indistinguishable. The high frequency of latitudinal clines across the genome indicates that secondary contact plays a central role in the historical demography of this species. Our simulation results indicate that accurately detecting diversifying selection using genome scans is extremely difficult in species with a strong signal of secondary contact; neutral evolution under this history produces clines as steep as those expected under selection. Based on these results, we propose that demographic history can explain all clinal patterns observed in F. heteroclitus without invoking natural selection to either establish or maintain the pattern we observe today.This work was supported by the National Science Foundation (DEB-0919064 and IOS-105226
Measuring the Educational Benefits of Diversity in Engineering Education: A Multi-Institutional Survey Analysis of Women and Underrepresented Minorities
Changing demographics of the U.S. population drive growing emphases on diversity in engineering education. Still, questions persist about the educational benefits of race and gender diversity within the student population, despite decades of supportive research. The present study sought to estimate the educational benefits that accrue to undergraduate engineering students who interact with diverse peers and perspectives. Furthermore, differences across gender and race were explored. Multi-institutional survey data were analyzed for over 100 undergraduate engineering students using a 2007 administration of the National Survey of Student Engagement (NSSE). Findings show that encouraging contact among students from different economic, social, or racial/ethnic backgrounds can produce greater perceived learning gains amongst engineering students
SNP identification, verification, and utility for population genetics in a non-model genus
<p>Abstract</p> <p>Background</p> <p>By targeting SNPs contained in both coding and non-coding areas of the genome, we are able to identify genetic differences and characterize genome-wide patterns of variation among individuals, populations and species. We investigated the utility of 454 sequencing and MassARRAY genotyping for population genetics in natural populations of the teleost, <it>Fundulus heteroclitus </it>as well as closely related <it>Fundulus </it>species (<it>F. grandis</it>, <it>F. majalis </it>and <it>F. similis</it>).</p> <p>Results</p> <p>We used 454 pyrosequencing and MassARRAY genotyping technology to identify and type 458 genome-wide SNPs and determine genetic differentiation within and between populations and species of <it>Fundulus</it>. Specifically, pyrosequencing identified 96 putative SNPs across coding and non-coding regions of the <it>F. heteroclitus </it>genome: 88.8% were verified as true SNPs with MassARRAY. Additionally, putative SNPs identified in <it>F. heteroclitus </it>EST sequences were verified in most (86.5%) <it>F. heteroclitus </it>individuals; fewer were genotyped in <it>F. grandis </it>(74.4%), <it>F. majalis </it>(72.9%), and <it>F. similis </it>(60.7%) individuals. SNPs were polymorphic and showed latitudinal clinal variation separating northern and southern populations and established isolation by distance in <it>F. heteroclitus </it>populations. In <it>F. grandis</it>, SNPs were less polymorphic but still established isolation by distance. Markers differentiated species and populations.</p> <p>Conclusions</p> <p>In total, these approaches were used to quickly determine differences within the <it>Fundulus </it>genome and provide markers for population genetic studies.</p
Redistribution of Transcription Factor AP-2α in Differentiating Cultured Human Epidermal Cells
Expression of the transcription factor AP-2α was examined in cultured human epidermal cells. Levels of AP-2α mRNA increased substantially after the cultures reached confluence, similar to the expression pattern of the differentiation markers involucrin and keratinocyte transglutaminase. The level of AP-2α protein in nuclear extracts declined markedly after confluence, however, along with its ability to form complexes with oligonucleotides containing the AP-2 response element. In contrast, the levels of AP-2α protein in cytoplasmic extracts increased dramatically after confluence, but these extracts had low DNA binding activity. Supershift experiments with specific antisera detected only AP-2α and not the β or γ isoforms. Examination of its localization by confocal microscopy revealed that AP-2α was primarily in the nucleus of basal cells and largely cytoplasmic in the most superficial cells. Localization was a dynamic phenomenon in that changing the medium resulted in accumulation of this transcription factor in the nucleus after several hours. Overall, the data indicate that AP-2α transcriptional activity is regulated in a differentiation-dependent manner in cultured keratinocytes and that this occurs by relocalization of the protein. Nuclear localization of the AP-2α protein in basal cells permits its accessibility to response elements in gene promoters, whereas sequestration in the cytoplasm as the differentiation program progresses curtails its transcriptional activity. This regulatory scheme may provide keratinocytes with the ability to restore AP-2 transcriptional activity rapidly by redistribution to the nucleus after receiving an appropriate growth signal, such as a medium change
Redistribution of Transcription Factor AP-2α in Differentiating Cultured Human Epidermal Cells
Expression of the transcription factor AP-2α was examined in cultured human epidermal cells. Levels of AP-2α mRNA increased substantially after the cultures reached confluence, similar to the expression pattern of the differentiation markers involucrin and keratinocyte transglutaminase. The level of AP-2α protein in nuclear extracts declined markedly after confluence, however, along with its ability to form complexes with oligonucleotides containing the AP-2 response element. In contrast, the levels of AP-2α protein in cytoplasmic extracts increased dramatically after confluence, but these extracts had low DNA binding activity. Supershift experiments with specific antisera detected only AP-2α and not the β or γ isoforms. Examination of its localization by confocal microscopy revealed that AP-2α was primarily in the nucleus of basal cells and largely cytoplasmic in the most superficial cells. Localization was a dynamic phenomenon in that changing the medium resulted in accumulation of this transcription factor in the nucleus after several hours. Overall, the data indicate that AP-2α transcriptional activity is regulated in a differentiation-dependent manner in cultured keratinocytes and that this occurs by relocalization of the protein. Nuclear localization of the AP-2α protein in basal cells permits its accessibility to response elements in gene promoters, whereas sequestration in the cytoplasm as the differentiation program progresses curtails its transcriptional activity. This regulatory scheme may provide keratinocytes with the ability to restore AP-2 transcriptional activity rapidly by redistribution to the nucleus after receiving an appropriate growth signal, such as a medium change
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