Showing 4051 - 4060 of 5713 Items

Ancient Art of Middle America

Date: 1969-01-01

Creator: Roger Howell, Jr.

Access: Open access

Catalog of an exhibition. Essay by Roger Howell; note by Richard V. West.


Homolog Pairing at the Push of a Button

Date: 2019-11-04

Creator: Jack R. Bateman, Judith A. Kassis

Access: Open access

Homologous chromosomes pair in somatic cells in Drosophila, but how this occurs is poorly understood. In this issue of Developmental Cell, Viets et al. (2019) show that proteins and chromatin structure mediate pairing and argue against a DNA sequence-based mechanism.


The interest group response to campaign finance reform

Date: 2008-04-03

Creator: Michael M. Franz

Access: Open access

Has the most recent campaign finance reform failed relative to interest groups? More broadly, what's next in the realm of interest group electioneering? This paper explores the role of interest groups in two areas: as contributors to candidates and parties and as candidate and issue advocates. Overall, the numbers reported here show that direct interest group influence with candidates and parties likely declined in the wake of reform. On the other hand, recent uncertainty in the regulatory environment should foster the expansion of interest group advocacy efforts (and has already done so in this year's presidential primary elections). On this score, the attempts of reformers to reduce interest group electioneering have likely failed. Instead of concluding that such a development is bad for American elections, however, this paper argues that such discontent is misplaced. Copyright ©2008 The Berkeley Electronic Press. All rights reserved.


Reflections questionnaire response by Anonymous on March 24, 2021

Date: 2021-01-01

Creator: Anonymous

Access: Open access

This is a response to the Documenting Bowdoin & COVID-19 Reflections Questionnaire. The questionnaire was created in March 2021 by staff of Bowdoin's George J. Mitchell Department of Special Collections & Archives. Author is class of 2024.


Rachel Carson and the rhetoric of revolution

Date: 2019-07-01

Creator: David K. Hecht

Access: Open access

Rachel Carson's Silent Spring is justly remembered as a landmark in the history of modern environmentalism. It is, however, a more complicated text than cultural memory tends to acknowledge. Blending conservative and traditional elements with more progressive and pioneering ones, Silent Spring is marked by a complexity that extends to its reception and legacy. This article argues that-in a seeming paradox-it was the more conservative elements of Silent Spring that allowed it to be considered a revolutionary book. Carson carefully constructed her argument in ways that facilitated its initial acceptance. But those same decisions made it easier for supporters to de-emphasize its more radical implications, even as they granted it revolutionary status.


The Importance of What We Care About: A Solidarity Approach to Resource Allocation

Date: 2020-01-01

Creator: Kristi A. Olson

Access: Open access

At some point in your life, you will need to allocate resources among individuals, but how should you do so? One prominent suggestion is the envy test: the envy test is satisfied when and only when no one prefers someone else’s bundle. In Part I, I explain and then reject Tom Parr’s recent attempt to justify the envy test. Yet, like Parr, I believe the envy test captures something important. Thus, in Part II, I distinguish two approaches to resource allocation. Parr’s defense of the envy test assumes what I will call an individualist approach: what matters are each individual’s preferences. In lieu of the individualist approach, I endorse the solidarity approach: what matters are everyone’s preferences. After explaining the distinction, I show that the envy test—or at least something like it—can be defended using the solidarity approach even if it cannot be defended using the individualist approach.


Formation of rarefaction waves in origami-based metamaterials

Date: 2016-04-15

Creator: H. Yasuda, C. Chong, E. G. Charalampidis, P. G. Kevrekidis, J., Yang

Access: Open access

We investigate the nonlinear wave dynamics of origami-based metamaterials composed of Tachi-Miura polyhedron (TMP) unit cells. These cells exhibit strain softening behavior under compression, which can be tuned by modifying their geometrical configurations or initial folded conditions. We assemble these TMP cells into a cluster of origami-based metamaterials, and we theoretically model and numerically analyze their wave transmission mechanism under external impact. Numerical simulations show that origami-based metamaterials can provide a prototypical platform for the formation of nonlinear coherent structures in the form of rarefaction waves, which feature a tensile wavefront upon the application of compression to the system. We also demonstrate the existence of numerically exact traveling rarefaction waves in an effective lumped-mass model. Origami-based metamaterials can be highly useful for mitigating shock waves, potentially enabling a wide variety of engineering applications.


Captured segment exchange: A strategy for custom engineering large genomic regions in Drosophila melanogaster

Date: 2013-04-24

Creator: Jack R. Bateman, Michael F. Palopoli, Sarah T. Dale, Jennifer E. Stauffer, Anita L., Shah, Justine E. Johnson, Conor W. Walsh, Hanna Flaten, Christine M. Parsons

Access: Open access

Site-specific recombinases (SSRs) are valuable tools for manipulating genomes. In Drosophila, thousands of transgenic insertions carrying SSR recognition sites have been distributed throughout the genome by several large-scale projects. Here we describe a method with the potential to use these insertions to make custom alterations to the Drosophila genome in vivo. Specifically, by employing recombineering techniques and a dual recombinase-mediated cassette exchange strategy based on the phiC31 integrase and FLP recombinase, we show that a large genomic segment that lies between two SSR recognition-site insertions can be "captured" as a target cassette and exchanged for a sequence that was engineered in bacterial cells. We demonstrate this approach by targeting a 50-kb segment spanning the tsh gene, replacing the existing segment with corresponding recombineered sequences through simple and efficient manipulations. Given the high density of SSR recognition-site insertions in Drosophila, our method affords a straightforward and highly efficient approach to explore gene function in situ for a substantial portion of the Drosophila genome. © 2013 by the Genetics Society of America.


Anthropogenic Impacts on Atmospheric Carbonyl Sulfide Since the 19th Century Inferred From Polar Firn Air and Ice Core Measurements

Date: 2020-08-27

Creator: M. Aydin, G. L. Britten, S. A. Montzka, C. Buizert, F., Primeau, V. Petrenko, M. B. Battle, M. R. Nicewonger, J. Patterson, B. Hmiel, E. S. Saltzman

Access: Open access

Carbonyl sulfide (COS) was measured in firn air collected during seven different field campaigns carried out at four different sites in Greenland and Antarctica between 2001 and 2015. A Bayesian probabilistic statistical model is used to conduct multisite inversions and to reconstruct separate atmospheric histories for Greenland and Antarctica. The firn air inversions cover most of the 20th century over Greenland and extend back to the 19th century over Antarctica. The derived atmospheric histories are consistent with independent surface air time series data from the corresponding sites and the Antarctic ice core COS records during periods of overlap. Atmospheric COS levels began to increase over preindustrial levels starting in the 19th century, and the increase continued for much of the 20th century. Atmospheric COS peaked at higher than present-day levels around 1975 CE over Greenland and around 1987 CE over Antarctica. An atmosphere/surface ocean box model is used to investigate the possible causes of observed variability. The results suggest that changes in the magnitude and location of anthropogenic sources have had a strong influence on the observed atmospheric COS variability.


Developmental genetic mechanisms of evolutionary tooth loss in cypriniform fishes

Date: 2006-08-01

Creator: David W. Stock, William R. Jackman, Josh Trapani

Access: Open access

The fossil record indicates that cypriniform fishes, a group including the zebrafish, lost oral teeth over 50 million years ago. Despite subsequent diversification of feeding modes, no cypriniform has regained oral teeth, suggesting the zebrafish as a model for studying the developmental genetic basis of evolutionary constraint. To investigate the mechanism of cypriniform tooth loss, we compared the oral expression of seven genes whose mammalian orthologs are involved in tooth initiation in the zebrafish and the Mexican tetra, Astyanax mexicanus, a related species retaining oral teeth. The most significant difference we found was an absence in zebrafish oral epithelium of expression of dlx2a and dlx2b, transcription factors that are expressed in early Astyanax odontogenic epithelium. Analysis of orthologous genes in the Japanese medaka (Oryzias latipes) and a catfish (Synodontis multipunctatus) suggests that expression was lost in cypriniforms, rather than gained in Astyanax. Treatment of Astyanaxwith an inhibitor of Fibroblast growth factor (Fgf) signaling produced a partial phenocopy of the zebrafish oral region, in that oral teeth, and expression of d1x2a and d1x2b, were lost, whereas shh and pitx2, genes whose expression is present in zebrafish oral epithelium, were unaffected. We hypothesize that a loss of Fgf signaling to oral epithelium was associated with cypriniform tooth loss.