158 research outputs found
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Recommending cut scores with a subset of items: An empirical illustration
Many testing programs face the practical challenge of having limited resources to conduct comprehensive standard setting studies. Some researchers have suggested that replicating a groupΓ’β¬β’s recommended cut score on a full-length test may be possible by using a subset of the items. However, these studies were based on simulated data. This study describes a standard setting application using two independent panels providing judgments on a 300-item licensure test. Specifically, one panel provided judgments on all 300 items; whereas the second panel made judgments on a randomly-selected subset of 150 items. Both panels also participated in an alternate standard setting method to evaluate panel comparability. Results suggest caution for practitioners considering using subsets of items for standard setting studies. Accessed 7,224 times on https://pareonline.net from May 11, 2010 to December 31, 2019. For downloads from January 1, 2020 forward, please click on the PlumX Metrics link to the right
Alien Registration- Gerrow, Ada (Fort Fairfield, Aroostook County)
https://digitalmaine.com/alien_docs/35653/thumbnail.jp
Lignin recovery from cocoa bean shell using microwave-assisted extraction and deep eutectic solvents
Lignin is the second most abundant natural polymer after cellulose, and valorisation of lignin-rich streams has attracted increasing attention recently. This paper presents a novel and sustainable method to recover lignin from Cocoa Bean Shells (CBS) using Deep Eutectic Solvents (DES) and microwaves. A DES containing p-toluenesulfonic acid, choline chloride and glycerol (2:1:1 M ratio) was selected based on its dielectric properties. Under 200 W microwave power, the optimum yield of 95.5 % lignin was achieved at 130 Β°C and 30 min. DES-extracted lignin exhibited unique structural characteristics including larger particle sizes (242.5 Β΅m D50 size), structural diversity (410.4 Β΅m D90-D10 size) and H/G sub-unit ratio (71.9 %) compared with commercial Kraft lignin (77.2 Β΅m, 157.9 Β΅m and 0.1 % respectively), indicating the potential of DES in the modification and upgrading of lignin for novel value-added products
Unveiling the role of plasticity rules in reservoir computing
Reservoir Computing (RC) is an appealing approach in Machine Learning that
combines the high computational capabilities of Recurrent Neural Networks with
a fast and easy training method. Likewise, successful implementation of
neuro-inspired plasticity rules into RC artificial networks has boosted the
performance of the original models. In this manuscript, we analyze the role
that plasticity rules play on the changes that lead to a better performance of
RC. To this end, we implement synaptic and non-synaptic plasticity rules in a
paradigmatic example of RC model: the Echo State Network. Testing on nonlinear
time series prediction tasks, we show evidence that improved performance in all
plastic models are linked to a decrease of the pair-wise correlations in the
reservoir, as well as a significant increase of individual neurons ability to
separate similar inputs in their activity space. Here we provide new insights
on this observed improvement through the study of different stages on the
plastic learning. From the perspective of the reservoir dynamics, optimal
performance is found to occur close to the so-called edge of instability. Our
results also show that it is possible to combine different forms of plasticity
(namely synaptic and non-synaptic rules) to further improve the performance on
prediction tasks, obtaining better results than those achieved with
single-plasticity models
Estimation of the number of synapses in the hippocampus and brain-wide by volume electron microscopy and genetic labeling
Determining the number of synapses that are present in different brain regions is crucial to understand brain connectivity as a whole. Membrane-associated guanylate kinases (MAGUKs) are a family of scaffolding proteins that are expressed in excitatory glutamatergic synapses. We used genetic labeling of two of these proteins (PSD95 and SAP102), and Spinning Disc confocal Microscopy (SDM), to estimate the number of fluorescent puncta in the CA1 area of the hippocampus. We also used FIB-SEM, a three-dimensional electron microscopy technique, to calculate the actual numbers of synapses in the same area. We then estimated the ratio between the three-dimensional densities obtained with FIB-SEM (synapses/Β΅m) and the bi-dimensional densities obtained with SDM (puncta/100Β Β΅m). Given that it is impractical to use FIB-SEM brain-wide, we used previously available SDM data from other brain regions and we applied this ratio as a conversion factor to estimate the minimum density of synapses in those regions. We found the highest densities of synapses in the isocortex, olfactory areas, hippocampal formation and cortical subplate. Low densities were found in the pallidum, hypothalamus, brainstem and cerebellum. Finally, the striatum and thalamus showed a wide range of synapse densities.This work was supported by grants from the following entities: the Spanish βMinisterio de Ciencia, InnovaciΓ³n y Universidadesβ (Grant PGC2018-094307-B-I00 and the Cajal Blue Brain Project [C080020-09; the Spanish partner of the Blue Brain Project initiative from EPFL, Switzerland]; the European Unionβs Horizon 2020 Research and Innovation Programme under grant agreement No. 785907 (Human Brain Project, SGA2); the Wellcome Trust (Technology Development Grant 202932); and the European Research Council (ERC) under the European Unionβs Horizon 2020 research and innovation programme (695568 SYNNOVATE). L.T.-R. is a recipient of grants from the EMBO Long-term fellowship 2016β2018 and the IBRO-PERC InEurope grants programme
The Lantern, 2022-2023
The Genie and the Scotsman β’ Taxi Driver Savior Complex β’ Midnight Waltz β’ Eulogy of Caution β’ Don\u27t cry over spilled milk!! β’ I am the spider β’ The Lamb β’ The Witch and the Shepherd β’ Nostalgia β’ In the Summer I Want Light β’ I Am (Not) β’ Thanatophobia β’ We\u27re not children anymore β’ Hamlet\u27s Fool β’ Lemon β’ the last two people in the world β’ Amongst Chaos (what captivated me) β’ How About Now, Billy Joel β’ Bug Trap β’ Spring, Musser Hall, Room 219 β’ Time\u27s Denial β’ A Song of History β’ A Haiku for You β’ Hello! My Name Is: β’ Toilet Humor β’ Waterfalls β’ Communion β’ Shift β’ Mama Told Me Not To Waste My Life β’ Writer\u27s Block β’ Sharp-Tongued Women β’ Off Trail β’ Paper Bag Town β’ Serenity β’ Landscape of Ursinus Courtyard β’ Image #07, Affinist designer β’ Love Birds β’ Discount Narnia β’ False Security β’ Stripes and Illusions β’ The Burning of Ophelia β’ Molly\u27s Folly β’ The Son of Bethany β’ Meta β’ Little Blue Sailboats β’ Grease Trap β’ Hitchhiking With My Eyes Closed β’ The Donna of Our Time β’ The Magic of Cooking β’ The Closing Shift β’ A Baptism of Teeth β’ Dear Beloved β’ How Kansas Got to Chicago β’ Anywhere, if you look hard enoughhttps://digitalcommons.ursinus.edu/lantern/1191/thumbnail.jp
Secreted factors as synaptic organizers
A critical step in synaptic development is the differentiation of presynaptic and postsynaptic compartments. This complex process is regulated by a variety of secreted factors that serve as synaptic organizers. Specifically, fibroblast growth factors, Wnts, neurotrophic factors and various other intercellular signaling molecules are proposed to regulate presynaptic and/or postsynaptic differentiation. Many of these factors appear to function at both the neuromuscular junction and in the central nervous system, although the specific function of the molecules differs between the two. Here we review secreted molecules that organize the synaptic compartments and discuss how these molecules shape synaptic development, focusing on mammalian in vivo systems. Their critical role in shaping a functional neural circuit is underscored by their possible link to a wide range of neurological and psychiatric disorders both in animal models and by mutations identified in human patients.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/79160/1/j.1460-9568.2010.07338.x.pd
Synapse Geometry and Receptor Dynamics Modulate Synaptic Strength
Synaptic transmission relies on several processes, such as the location of a released vesicle, the number and type of receptors, trafficking between the postsynaptic density (PSD) and extrasynaptic compartment, as well as the synapse organization. To study the impact of these parameters on excitatory synaptic transmission, we present a computational model for the fast AMPA-receptor mediated synaptic current. We show that in addition to the vesicular release probability, due to variations in their release locations and the AMPAR distribution, the postsynaptic current amplitude has a large variance, making a synapse an intrinsic unreliable device. We use our model to examine our experimental data recorded from CA1 mice hippocampal slices to study the differences between mEPSC and evoked EPSC variance. The synaptic current but not the coefficient of variation is maximal when the active zone where vesicles are released is apposed to the PSD. Moreover, we find that for certain type of synapses, receptor trafficking can affect the magnitude of synaptic depression. Finally, we demonstrate that perisynaptic microdomains located outside the PSD impacts synaptic transmission by regulating the number of desensitized receptors and their trafficking to the PSD. We conclude that geometrical modifications, reorganization of the PSD or perisynaptic microdomains modulate synaptic strength, as the mechanisms underlying long-term plasticity
Proteins That Promote Filopodia Stability, but Not Number, Lead to More Axonal-Dendritic Contacts
Dendritic filopodia are dynamic protrusions that are thought to play an active role in synaptogenesis and serve as precursors to spine synapses. However, this hypothesis is largely based on a temporal correlation between filopodia formation and synaptogenesis. We investigated the role of filopodia in synapse formation by contrasting the roles of molecules that affect filopodia elaboration and motility, versus those that impact synapse induction and maturation. We used a filopodia inducing motif that is found in GAP-43, as a molecular tool, and found this palmitoylated motif enhanced filopodia number and motility, but reduced the probability of forming a stable axon-dendrite contact. Conversely, expression of neuroligin-1 (NLG-1), a synapse inducing cell adhesion molecule, resulted in a decrease in filopodia motility, but an increase in the number of stable axonal contacts. Moreover, RNAi knockdown of NLG-1 reduced the number of presynaptic contacts formed. Postsynaptic scaffolding proteins such as Shank1b, a protein that induces the maturation of spine synapses, increased the rate at which filopodia transformed into spines by stabilization of the initial contact with axons. Taken together, these results suggest that increased filopodia stability and not density, may be the rate-limiting step for synapse formation
Rapid and Long-Lasting Increase in Sites for Synapse Assembly during Late-Phase Potentiation in Rat Hippocampal Neurons
Long-term potentiation in hippocampal neurons has stages that correspond to the stages of learning and memory. Early-phase (10β30 min) potentiation is accompanied by rapid increases in clusters or puncta of presynaptic and postsynaptic proteins, which depend on actin polymerization but not on protein synthesis. We have now examined changes in pre- and postsynaptic puncta and structures during glutamate-induced late-phase (3 hr) potentiation in cultured hippocampal neurons. We find that (1) the potentiation is accompanied by long-lasting maintenance of the increases in puncta, which depends on protein synthesis, (2) most of the puncta and synaptic structures are very dynamic, continually assembling and disassembling at sites that are more stable than the puncta or structures themselves, (3) the increase in presynaptic puncta appears to be due to both rapid and more gradual increases in the number of sites where the puncta may form, and also to the stabilization of existing puncta, (4) under control conditions, puncta of postsynaptic proteins behave similarly to puncta of presynaptic proteins and share sites with them, and (5) the increase in presynaptic puncta is accompanied by a similar increase in presumably presynaptic structures, which may form at distinct as well as shared sites. The new sites could contribute to the transition between the early and late phase mechanisms of plasticity by serving as seeds for the formation and maintenance of new synapses, thus acting as local βtagsβ for protein synthesis-dependent synaptic growth during late-phase plasticity
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