I Never Had to Use the Library in High School : A Library Instruction Program for At-Risk Students

Most academic library instruction is limited to one class period, despite empirical evidence that this approach is likely less effective than more sustained instruction. To determine if additional sessions would boost student learning and reduce library anxiety, the authors collaborated with representatives from a program for at-risk undergraduates to develop a three-workshop model for basic instruction and orientation. They first delivered the program during the summer of 2012 and subsequently offered it to three additional groups of students, including a cohort of doctoral students in the sciences. This article describes the process of designing the workshops and evaluating their effectiveness, with special attention to demonstrating how the program supported the parent institution’s goals and mission

If You Can\u27t Expand, How Can You Grow? Space Assessment Studies in the Academic Library

As space in libraries is usually finite and in high demand, how can librarians ensure the best allocation of space to meet users\u27 ever growing and changing needs? A team from the University of Tennessee\u27s School of Information Sciences and Libraries designed and implemented two academic library space assessment studies to find meaningful answers to these questions as well as learn the principles, methods, and tools of space design and space assessment, many of which they will share with session attendees

The writing on the wall? John Ingram’s verse and the dissemination of Catholic prison writing

The strong association between prison writing and writing on walls, whether by graffiti or carving, is as true of Tudor and Stuart England as of other times and places. Yet even if prison-writers associated themselves with the idea of writing on a wall, they need not have done so in reality. This article considers the topos in the writings and afterlife of the Catholic priest, poet and martyr John Ingram, and asks whether it is to be taken at face value. Ingram’s verse, composed in Latin and mostly epigrammatic, survives in two contemporary manuscripts. The notion that the author carved his verses with a blunt knife on the walls of the Tower of London while awaiting death derives from a previous editorial interpretation of a prefatory sentence within the more authoritative manuscript of the two, traditionally held to be autograph. However, though several Tudor and Stuart inscriptions survive to this day on the walls of the Tower of London, no portions of Ingram’s verse are among them, nor any inscriptions of similar length and complexity. Ingram might instead have written his verse down in the usual way, using wall-carving as a metaphor for the difficulty of writing verse when undergoing incarceration and torture

Are the police embracing evidence-informed practice? A view from England and Wales

The What Works Centre for Crime Reduction (WWCCR) in the UK’s College of Policing has a key role in promoting the use of research in policing. Since 2014, the WWCCR has aimed to review - and make accessible - research to better inform and target crime reduction and to build police capacity to identify, evaluate and apply research evidence to practice. This comes amidst significant changes to entry requirements for policing in the UK as part of efforts to further professionalise the service and prepare for future challenges in policing. We report findings from in-depth interviews with senior police officers from forces across England and Wales, conducted as part of a three-year evaluation of the WWCCR. These interviews explored the traction of ‘evidence-based practice’ among senior officers and showed shifts over time in their accounts of the value placed on research and how it is promoted and used within their force. Additionally, an online survey across policing ranks, conducted in 2016, found differences by seniority in perceptions about the relevance of research for policing, and the level of organisational support for it. Findings are used to consider the status of research evidence in policing and its development within a policing profession

The proteasome cap RPT5/Rpt5p subunit prevents aggregation of unfolded ricin A chain

The plant cytotoxin ricin enters mammalian cells by receptor-mediated endocytosis, undergoing retrograde transport to the endoplasmic reticulum (ER) where its catalytic A chain (RTA) is reductively separated from the holotoxin to enter the cytosol and inactivate ribosomes. The currently accepted model is that the bulk of ER-dislocated RTA is degraded by proteasomes. We show here that the proteasome has a more complex role in ricin intoxication than previously recognised, that the previously reported increase in sensitivity of mammalian cells to ricin in the presence of proteasome inhibitors simply reflects toxicity of the inhibitors themselves, and that RTA is a very poor substrate for proteasomal degradation. Denatured RTA and casein compete for a binding site on the regulatory particle of the 26S proteasome, but their fates differ. Casein is degraded, but the mammalian 26S proteasome AAA-ATPase subunit RPT5 acts as a chaperone that prevents aggregation of denatured RTA and stimulates recovery of catalytic RTA activity in vitro. Furthermore, in vivo, the ATPase activity of Rpt5p is required for maximal toxicity of RTA dislocated from the Saccharomyces cerevisiae ER. Our results implicate RPT5/Rpt5p in the triage of substrates in which either activation (folding) or inactivation (degradation) pathways may be initiated

Exciton Dynamics in Photosynthetic Complexes: Excitation by Coherent and Incoherent Light

In this paper we consider dynamics of a molecular system subjected to external pumping by a light source. Within a completely quantum mechanical treatment, we derive a general formula, which enables to asses effects of different light properties on the photo-induced dynamics of a molecular system. We show that once the properties of light are known in terms of certain two-point correlation function, the only information needed to reconstruct the system dynamics is the reduced evolution superoperator. The later quantity is in principle accessible through ultrafast non-linear spectroscopy. Considering a direct excitation of a small molecular antenna by incoherent light we find that excitation of coherences is possible due to overlap of homogeneous line shapes associated with different excitonic states. In Markov and secular approximations, the amount of coherence is significant only under fast relaxation, and both the populations and coherences between exciton states become static at long time. We also study the case when the excitation of a photosynthetic complex is mediated by a mesoscopic system. We find that such case can be treated by the same formalism with a special correlation function characterizing ultrafast fluctuations of the mesoscopic system. We discuss bacterial chlorosom as an example of such a mesoscopic mediator and propose that the properties of energy transferring chromophore-protein complexes might be specially tuned for the fluctuation properties of their associated antennae.Comment: 12 page

Communities, Knowledge Creation, and Information Diffusion

In this paper, we examine how patterns of scientific collaboration contribute to knowledge creation. Recent studies have shown that scientists can benefit from their position within collaborative networks by being able to receive more information of better quality in a timely fashion, and by presiding over communication between collaborators. Here we focus on the tendency of scientists to cluster into tightly-knit communities, and discuss the implications of this tendency for scientific performance. We begin by reviewing a new method for finding communities, and we then assess its benefits in terms of computation time and accuracy. While communities often serve as a taxonomic scheme to map knowledge domains, they also affect how successfully scientists engage in the creation of new knowledge. By drawing on the longstanding debate on the relative benefits of social cohesion and brokerage, we discuss the conditions that facilitate collaborations among scientists within or across communities. We show that successful scientific production occurs within communities when scientists have cohesive collaborations with others from the same knowledge domain, and across communities when scientists intermediate among otherwise disconnected collaborators from different knowledge domains. We also discuss the implications of communities for information diffusion, and show how traditional epidemiological approaches need to be refined to take knowledge heterogeneity into account and preserve the system's ability to promote creative processes of novel recombinations of idea

Quantum entanglement in photosynthetic light harvesting complexes

Light harvesting components of photosynthetic organisms are complex, coupled, many-body quantum systems, in which electronic coherence has recently been shown to survive for relatively long time scales despite the decohering effects of their environments. Within this context, we analyze entanglement in multi-chromophoric light harvesting complexes, and establish methods for quantification of entanglement by presenting necessary and sufficient conditions for entanglement and by deriving a measure of global entanglement. These methods are then applied to the Fenna-Matthews-Olson (FMO) protein to extract the initial state and temperature dependencies of entanglement. We show that while FMO in natural conditions largely contains bipartite entanglement between dimerized chromophores, a small amount of long-range and multipartite entanglement exists even at physiological temperatures. This constitutes the first rigorous quantification of entanglement in a biological system. Finally, we discuss the practical utilization of entanglement in densely packed molecular aggregates such as light harvesting complexes.Comment: 14 pages, 7 figures. Improved presentation, published versio

Intelligent driver profiling system for cars – a basic concept

Many industries have been transformed by the provision of service solutions characterised by personalisation and customisation - most dramatically the development of the iPhone. Personalisation and customisation stand to make an impact on cars and mobility in comparable ways. The automobile industry has a major role to play in this change, with moves towards electric vehicles, auton-omous cars, and car sharing as a service. These developments are likely to bring disruptive changes to the business of car manufacturers as well as to drivers. However, in the automobile industry, both the user's preferences and demands and also safety issues need to be confronted since the frequent use of different makes and models of cars, implied by car sharing, entails several risks due to variations in car controls depending on the manufacturer. Two constituencies, in particular, are likely to experience even more difficulties than they already do at present, namely older people and those with capability variations. To overcome these challenges, and as a means to empower a wide car user base, the paper here presents a basic concept of an intelligent driver profiling system for cars: the sys-tem would enable various car characteristics to be tailored according to individual driver-dependent profiles. It is intended that wherever possible the system will personalise the characteristics of individual car components; where this is not possible, however, an initial customisation will be performed

Jupiter's X‐Ray and UV Dark Polar Region

We present 14 simultaneous Chandra X-ray Observatory (CXO)-Hubble Space Telescope (HST) observations of Jupiter's Northern X-ray and ultraviolet (UV) aurorae from 2016 to 2019. Despite the variety of dynamic UV and X-ray auroral structures, one region is conspicuous by its persistent absence of emission: the dark polar region (DPR). Previous HST observations have shown that very little UV emission is produced by the DPR. We find that the DPR also produces very few X-ray photons. For all 14 observations, the low level of X-ray emission from the DPR is consistent (within 2-standard deviations) with scattered solar emission and/or photons spread by Chandra's Point Spread Function from known X-ray-bright regions. We therefore conclude that for these 14 observations the DPR produced no statistically significant detectable X-ray signature