2,385 research outputs found
The Transition from Clinical Practice to Academic Citizenship in Nursing Faculty
The purpose of this phenomenological study was to explore the experience of female registered nurses who transitioned from clinical practice to a faculty role in a baccalaureate program of nursing as experienced by the study participants. An improved understanding of the experience of registered nurses who transition from clinical practice to academic citizenship in an academic community will fill a gap in the literature and assist administrators of schools of nursing in planning faculty orientation and development programs to facilitate a successful transition of new nursing faculty members into academic citizenship in an academic community. Most nursing faculty members begin their nursing careers in clinical practice or staff development roles. While many of the competencies developed in clinical practice transfer well into academia, nursing faculty members may have had less experience with scholarly writing and publishing. This study was conducted using individual semi-structured interviews followed by focus groups, of four nursing faculty members who are currently teaching in a baccalaureate program in one of four schools of nursing in a gulf coast state. Data from individual interviews and focus groups revealed ten themes which helped describe the experiences of registered nurses as they transitioned from a clinical practice role to academic citizenship within an academic community. These ten themes included: The easiest part, growth and fulfillment in the faculty role, hardest part, expert to novice, educational preparation, faculty scholarship, involvement in the broader university, culture shift, mentoring, and the full faculty role. Data analysis of participant’s sense of primary identity as nurse or educator revealed one overarching theme, identity nurse or educator. Subthemes which emerged related to participant’s sense of primary identity were identity as nurse, educator, blended nurse and educator, role confusion, and nurse faculty
Fault identification using multidisciplinary techniques at the Mars/Uranus Station antenna sites
A fault investigation was performed at the Mars and Uranus antenna sites at the Goldstone Deep Space Communications Complex in the Mojave desert. The Mars/Uranus Station consists of two large-diameter reflector antennas used for communication and control of deep-space probes and other missions. The investigation included interpretation of Landsat thematic mapper scenes, side-looking airborne radar transparencies, and both color-infrared and black-and-white aerial photography. Four photolineaments suggestive of previously undocumented faults were identified. Three generally discrete morphostratigraphic alluvial-fan deposits were also recognized and dated using geomorphic and soil stratigraphic techniques. Fourteen trenches were excavated across the four lineaments; the trenches show that three of the photolineaments coincide with faults. The last displacement of two of the faults occurred between about 12,000 and 35,000 years ago. The third fault was judged to be older than 12,000 years before present (ybp), although uncertainty remains. None of the surface traces of the three faults crosses under existing antennas or structures; however, their potential activity necessitates appropriate seismic retrofit designs and loss-prevention measures to mitigate potential earthquake damage to facilities and structures
The Evolution of Quorum Sensing as a Mechanism to Infer Kinship.
Bacteria regulate many phenotypes via quorum sensing systems. Quorum sensing is typically thought to evolve because the regulated cooperative phenotypes are only beneficial at certain cell densities. However, quorum sensing systems are also threatened by non-cooperative "cheaters" that may exploit quorum-sensing regulated cooperation, which begs the question of how quorum sensing systems are maintained in nature. Here we study the evolution of quorum sensing using an individual-based model that captures the natural ecology and population structuring of microbial communities. We first recapitulate the two existing observations on quorum sensing evolution: density-dependent benefits favor quorum sensing but competition and cheating will destabilize it. We then model quorum sensing in a dense community like a biofilm, which reveals a novel benefit to quorum sensing that is intrinsically evolutionarily stable. In these communities, competing microbial genotypes gradually segregate over time leading to positive correlation between density and genetic similarity between neighboring cells (relatedness). This enables quorum sensing to track genetic relatedness and ensures that costly cooperative traits are only activated once a cell is safely surrounded by clonemates. We hypothesize that under similar natural conditions, the benefits of quorum sensing will not result from an assessment of density but from the ability to infer kinship
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Complex Patterns of Gene Duplication in the APETALA3 and PISTILLATA Lineages of the Ranunculaceae
It has been proposed that the diversification of the MADS-box gene family of transcription factors has played a major role in the radiation of land plants. This suggestion is based on the critical roles that these genes play in plant development and the apparent coincidence of key duplication events with major radiations, such as the establishment of the B and C lineages concurrent with the evolution of the seed plants. On a more recent scale, it is also possible that subsequent duplication events have contributed to later morphological diversifications. In order to investigate this possibility, we are studying the evolution of homologs of the petal and stamen identity genes APETALA3 (AP3) and PISTILLATA (PI) in the Ranunculaceae. In this family, the AP3 and PI lineages have undergone many duplication events at every phylogenetic level. Early duplications gave rise to three paralogous AP3 lineages, which are found throughout the family. In contrast, numerous duplications have occurred relatively recently in the PI lineage. We outline a hypothesis that these duplications have played a role in the evolution of the unique types of petaloid organs in the Ranunculaceae and present preliminary expression data supporting such a scenario.Organismic and Evolutionary Biolog
Laryngeal features are phonetically abstract : mismatch negativity evidence from Arabic, English, and Russian
2016-2017 > Academic research: refereed > Publication in refereed journal201804_a bcmaVersion of RecordPublishe
Serum Amyloid P Component (SAP)-Like Protein From Botryllid Ascidians Provides a Clue to Amyloid Function
The HA-1 lectin isolated from Botrylloides leachii has an amino acid composition similar
to that of mammalian serum amyloid protein (SAP). SAP is a universal component of
mammalian amyloid deposits. Like SAP, HA-1 has a disc ultrastructure, and antibody to
HA-1 binds both (a) to amyloidlike fibers deposited between rejected Botrylloides
colonies and (b) to cerebral amyloid deposits in Alzheimer's disease brains. Deposition
of protochordate amyloid within rejection sites and surrounding fouling organisms
implies that these fibers function as barriers to allogeneic and infectious challenge.
Similarly, mammalian amyloid may also function to contain inflammatory lesions and
to limit the spread of certain infections. Pathological amyloidotic conditions in humans,
such as Alzheimer's disease, may result from unregulated expression of this primitive
encapsulation response
Adaptation to hummingbird pollination is associated with reduced diversification in Penstemon
This work is licensed under a Creative Commons Attribution 4.0 International License.A striking characteristic of the Western North American flora is the repeated evolution of hummingbird pollination from insect‐pollinated ancestors. This pattern has received extensive attention as an opportunity to study repeated trait evolution as well as potential constraints on evolutionary reversibility, with little attention focused on the impact of these transitions on species diversification rates. Yet traits conferring adaptation to divergent pollinators potentially impact speciation and extinction rates, because pollinators facilitate plant reproduction and specify mating patterns between flowering plants. Here, we examine macroevolutionary processes affecting floral pollination syndrome diversity in the largest North American genus of flowering plants, Penstemon. Within Penstemon, transitions from ancestral bee‐adapted flowers to hummingbird‐adapted flowers have frequently occurred, although hummingbird‐adapted species are rare overall within the genus. We inferred macroevolutionary transition and state‐dependent diversification rates and found that transitions from ancestral bee‐adapted flowers to hummingbird‐adapted flowers are associated with reduced net diversification rate, a finding based on an estimated 17 origins of hummingbird pollination in our sample. Although this finding is congruent with hypotheses that hummingbird adaptation in North American Flora is associated with reduced species diversification rates, it contrasts with studies of neotropical plant families where hummingbird pollination has been associated with increased species diversification. We further used the estimated macroevolutionary rates to predict the expected pattern of floral diversity within Penstemon over time, assuming stable diversification and transition rates. Under these assumptions, we find that hummingbird‐adapted species are expected to remain rare due to their reduced diversification rates. In fact, current floral diversity in the sampled Penstemon lineage, where less than one‐fifth of species are hummingbird adapted, is consistent with predicted levels of diversity under stable macroevolutionary rates
The contribution model:a school-level funding model
Over a number of years, as the Higher Education Funding Council for England (HEFCE)'s funding models became more transparent, Aston University was able to discover how its funding for teaching and research was calculated. This enabled calculations to be made on the funds earned by each school in the University, and Aston Business School (ABS) in turn to develop models to calculate the funds earned by its programmes and academic groups. These models were a 'load' and a 'contribution' model. The 'load' model records the weighting of activities undertaken by individual members of staff; the 'contribution' model is the means by which funds are allocated to academic units. The 'contribution' model is informed by the 'load' model in determining the volume of activity for which each academic unit is to be funded
Zinc Tolerance of Special Yeasts and Lactic Acid Bacteria for Use in the Food Industry
In order to address human zinc deficiency, fortifying staple foods with zinc is a safe and cost-effective solution. To ensure the nutritional properties and quality of a final product, zinc tolerance of the microorganisms involved in the fermentation is necessary. Bread, which is widely consumed, occupies a substantial place in many people’s diets, and is often based on a sourdough making process; thus, it might be an important headlining product. This study investigated the zinc tolerance of yeasts and lactic acid bacteria that are specifically suited to produce sourdough bread made with cricket powder hydrolysate and wheat flour. Amongst the yeasts, Kazachstania servazzii KAZ2 and Kazachstania unispora FM2 were only slightly affected in regard to cell growth and colony-forming ability when cultured in YPD broth spiked with 0.5 or 1 mM ZnSO4, respectively. Yarrowia lipolytica RO25 showed a higher tolerance for up to 2.5 mM zinc (ZnSO4). All the yeast strains were capable of accumulating zinc in the range between 200 and 400 fg/cell. The heterofermentative lactic acid bacterium Fructilactobacillus sanfranciscensis DG1 appeared to have a moderate zinc requirement and was homeostatically balanced, even under a high 20 mM extracellular ZnSO4 load. A better understanding of zinc homeostasis in yeast and lactic acid bacteria for food industry applications may lead to improvements in zinc fortification, which might contribute to diminishing Zn deficiencies, especially in vulnerable population groups
Midinfrared Conductivity in Orientationally Disordered Doped Fullerides
The coupling between the intramolecular vibrational modes and the doped
conduction electrons in is studied by a calculation of the
electronic contributions to the phonon self energies. The calculations are
carried out for an orientationally ordered reference solid with symmetry and for a model with quenched orientational disorder on the
fullerene sites. In both cases, the dispersion and symmetry of the renormalized
modes is governed by the electronic contributions. The current current
correlation functions and frequency dependent conductivity through the
midinfrared are calculated for both models. In the disordered structures, the
renormalized modes derived from even parity intramolecular phonons are resonant
with the dipole excited single particle spectrum, and modulate the predicted
midinfrared conductivity. The spectra for this coupled system are calculated
for several recently proposed microscopic models for the electron phonon
coupling, and a comparison is made with recent experimental data which
demonstrate this effect.Comment: 32 pages + 9 postscript figures (on request), REVTeX 3.
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