Your search keyword '"STIMULUS synthesis"' showing total 1,143 results

1. Bidirectional generative adversarial representation learning for natural stimulus synthesis.

Author

Reilly, Johnny, Goodwin, John D., Lu, Sihao, and Kozlov, Andriy S.

Subjects

*ARTIFICIAL neural networks, *GENERATIVE adversarial networks, *STIMULUS synthesis, *ANIMAL sound production, *AUDITORY neurons

Abstract

Thousands of species use vocal signals to communicate with one another. Vocalizations carry rich information, yet characterizing and analyzing these complex, high-dimensional signals is difficult and prone to human bias. Moreover, animal vocalizations are ethologically relevant stimuli whose representation by auditory neurons is an important subject of research in sensory neuroscience. A method that can efficiently generate naturalistic vocalization waveforms would offer an unlimited supply of stimuli with which to probe neuronal computations. Although unsupervised learning methods allow for the projection of vocalizations into low-dimensional latent spaces learned from the waveforms themselves, and generative modeling allows for the synthesis of novel vocalizations for use in downstream tasks, we are not aware of any model that combines these tasks to synthesize naturalistic vocalizations in the waveform domain for stimulus playback. In this paper, we demonstrate BiWaveGAN: a bidirectional generative adversarial network (GAN) capable of learning a latent representation of ultrasonic vocalizations (USVs) from mice. We show that BiWaveGAN can be used to generate, and interpolate between, realistic vocalization waveforms. We then use these synthesized stimuli along with natural USVs to probe the sensory input space of mouse auditory cortical neurons. We show that stimuli generated from our method evoke neuronal responses as effectively as real vocalizations, and produce receptive fields with the same predictive power. BiWaveGAN is not restricted to mouse USVs but can be used to synthesize naturalistic vocalizations of any animal species and interpolate between vocalizations of the same or different species, which could be useful for probing categorical boundaries in representations of ethologically relevant auditory signals. NEW & NOTEWORTHY: A new type of artificial neural network is presented that can be used to generate animal vocalization waveforms and interpolate between them to create new vocalizations. We find that our synthetic naturalistic stimuli drive auditory cortical neurons in the mouse equally well and produce receptive field features with the same predictive power as those obtained with natural mouse vocalizations, confirming the quality of the stimuli produced by the neural network. [ABSTRACT FROM AUTHOR]

Published

2024

2. Investigating the influence of oriented external electric fields on modulating spin-transition temperatures in Fe(II) SCO complexes: a theoretical perspective.

Author

Tiwari, Rupesh Kumar, Paul, Rajdeep, and Rajaraman, Gopalan

Subjects

*ELECTRIC fields, *STIMULUS synthesis, *CHEMICAL bond lengths, *CHEMICAL synthesis, *FUNCTIONALS, *SPIN crossover

Abstract

Spin-crossover complexes, valued for their bistability, are extensively studied due to their numerous potential applications. A primary challenge in this molecular class is to identify effective methods to adjust the spin-transition temperature, which frequently falls outside the desired temperature range. This typically necessitates intricate chemical design and synthesis or the use of stimuli such as light or pressure, each introducing its own set of challenges for integrating these molecules into end-user applications. In this work, we aim to address this challenge using an oriented external electric field (OEEF) as one stimulus to modulate the spin-transition temperatures. For this purpose, we have employed both periodic and non-periodic calculations on three well-characterised Fe(II) SCO complexes, namely [Fe(phen)2(NCS)2] (1, phen = 1,10-phenanthroline), [Fe(bt)2(NCS)2] (2, bt = 2,2'-bi-2-thiazoline) and [Fe(py)2phen(NCS)2] (3, py = pyridine) possessing a similar structural motif of {FeN4N'2}. To begin with, DFT calculations employing the TPSSh functional were performed on complexes 1 to 3, and the estimated low-spin (LS) and high-spin (HS) gaps are 24.6, 15.3 and 15.4 kJ mol-1, and these are in the range expected for Fe(II) SCO complexes. In the next step, an OEEF was applied in the molecule along the pseudo-C2 axis that bisects two coordinated -NCS groups. Application of an OEEF was found to increase the Fe-ligand bond length and found to affect the spin-transition at the particular applied OEEF. While the HS state of 1 becomes the ground state at an applied field of 0.514 V Å-1, the LS state lies at a higher energy of 1.3 kJ mol-1. Similarly, complexes 2 and 3 also show the HS ground state at an applied field of 0.514 V Å-1, where the LS state stays at higher energies of 6.13 and 11.62 kJ mol-1, respectively. It is found that the overall change in enthalpy (HHL) and entropy (SHL) for the spin transition in the presence of OEEFs decreases upon increasing the strength of the applied field. The computed spin-transition temperature (T1/2) using DFT was found to be in close agreement with the experimentally reported values. It is estimated that on increasing the strength of the applied electric field, the T1/2 increases significantly. While the DFT computed T1/2 values for the optimised geometry of 1, 2 and 3 were found to be 134.6 K, 159.9 K and 111.4 K respectively, at the applied field of 0.6425 V Å-1 T1/2 increases up to 187.3 K, 211.0 K and 184.4 K respectively, unveiling an hitherto unknown strategy to tune the T1/2 values. A limited benchmarking was performed with five additional exchange-correlation functionals: PBE, BLYP, B3LYP*, B3LYP, and PBE0. These functionals were found to be unsuitable for predicting the correct SCO behaviour for complex 2, and their behaviour under various electric fields did not improve. This emphasises the importance of choosing the correct functional at zero OEEF prior to testing them under various electric fields. Furthermore, calculations were performed with complex 1 adsorbed on the Au(111) surface. The formation of an Au-S bond during adsorption significantly stabilises the low-spin (LS) state, hindering the observation of spin-crossover (SCO) behaviour. Nonetheless, the application of an OEEF reduces this gap and brings the T1/2 value closer to the desired temperature. This offers a novel postfabrication strategy for attaining SCO properties at the interface. [ABSTRACT FROM AUTHOR]

Published

2024

3. Mindfulness and academic procrastination among Chinese adolescents: a moderated mediation model.

Author

Pengfei Yue, Jiaxin Zhang, and Yumei Jing

Subjects

STRICT parenting, PROCRASTINATION, STIMULUS synthesis, CHINESE people, EDUCATIONAL psychology, EDUCATION theory, MINDFULNESS

Abstract

Background: While previous studies have linked mindfulness to reduced academic procrastination, the mechanisms involved remain under-explored. This study deepens the understanding by investigating how learning vigor mediates the mindfulness and procrastination relationship, and how harsh parenting influences this mediation. Methods: This study, adopting a positivist research approach, utilized a cross-sectional design. Data were collected from 800 students at three middle schools in Henan Province, China, through cluster random sampling. This approach yielded 800 questionnaires. The participants sequentially completed four questionnaires: the Mindfulness Attention Awareness Scale, the Utrecht Work Engagement Scale-Student, the Aitken Procrastination Inventory, and the Harsh Parenting Questionnaire. After removing 67 invalid questionnaires due to incomplete responses and patterned answers, a total of 733 valid questionnaires were obtained, with 53.3% girls and an average age of 13.12 years (SD = 1.01), leading to an effectiveness rate of 91.63%. Upon data collection, SPSS 26.0 software was used for correlation analysis, mediation analysis, and moderated mediation analysis to assess the relationships between variables. Results: (1) Mindfulness negatively predicts academic procrastination; (2) Learning vigor serves as a mediator in the relationship between mindfulness and academic procrastination; and (3) Harsh parenting moderates the relationship between mindfulness and learning vigor. Specifically, the positive impact of mindfulness on learning vigor is more pronounced in individuals experiencing lower levels of harsh parenting compared to those with higher levels. Conclusion: This study reveals that mindfulness significantly protects against academic procrastination in adolescents, with 52.27% of this effect mediated by increased learning vigor. Additionally, it shows that high levels of harsh parenting weaken mindfulness's positive impact on learning vigor, tempering its overall protective influence on procrastination. These insights, which apply Trait Activation Theory to educational psychology, not only deepen our understanding of the dynamics between mindfulness and procrastination but also have important implications for addressing academic procrastination in Chinese adolescents. [ABSTRACT FROM AUTHOR]

Published

2024

4. Impacts of audiovisual simultaneity perception on single-task and dual-task gaits in middle-aged and older adults.

Author

Chang, Jer-Jen, Chen, Yi-Chuan, Yeh, Su-Ling, Tang, Pei-Fang, and Tu, Chien-Kuang

Subjects

*AUDIOVISUAL materials, *STIMULUS synthesis, *POPULATION aging, *RHYTHM, *COGNITIVE load

Abstract

While dual-task walking requires the ability to integrate sensory information from multiple ongoing sources, it remains unknown whether dual-task walking is more affected than single-task walking by the multisensory integration ability. How does the audiovisual temporal integration ability affect single-task and dual-task gaits in the aging population? One hundred and thirty healthy middle-aged and older adults (age = 64.7 ± 6.4 years) completed an audiovisual simultaneity judgment (AVSJ) task and underwent single-task, motor dual-task, and cognitive dual-task gait assessments. In the AVSJ task, participants judged whether a flash and an auditory stimulus presented at different stimulus onset asynchronies were simultaneous. The accuracy and precision of the AVSJ performance were assessed using the point of subjective simultaneity (PSS) and the temporal binding window (δ), respectively. A lower absolute PSS and δ indicated better performance. Participants held a cup of water and performed serial-7 subtraction for motor and cognitive dual-task gait assessments, respectively. The spatiotemporal gait parameters and their variability were calculated. The influences of PSS and δ on the gait parameters of the three gaits were examined with multiple hierarchical regressions. Only the cognitive dual-task gait was significantly affected by PSS and δ. Greater PSS predicted a longer single support time (β = 0.195, p = 0.024) and its variability (β = 0.224, p = 0.011). Greater δ predicted greater step time variability (β = 0.198, p = 0.022). Declined perception of audiovisual simultaneity particularly degrades temporal control of cognitive dual-task walking, highlighting the importance of assessing and training this ability after midlife. • Audiovisual (AV) temporal perception and dual-task gaits decline in midlife. • Impact of AV perception on aging gaits under cognitive loads remains unclear. • Poorer AV temporal perception impairs temporal control of cognitive dual-task gait. • Single- and motor dual-task gaits show no audiovisual sensitivity. • Findings stress multisensory perception's importance in cognitive dual-task gait. [ABSTRACT FROM AUTHOR]

Published

2024

5. A scoping review and index of body stimuli in psychological science.

Author

Oswald, Flora and Samra, Simrat Kaur

Subjects

*BODY image, *STIMULUS synthesis, *YOUNG adults, *RESEARCH questions, *HUMAN body

Abstract

Naturalistic body stimuli are necessary for understanding many aspects of human psychology, yet there are no centralized databases of body stimuli. Furthermore, there are a high number of independently developed stimulus sets lacking in standardization and reproducibility potential, and a general lack of organization, contributing to issues of both replicability and generalizability in body-related research. We conducted a comprehensive scoping review to index and explore existing naturalistic whole-body stimuli. Our research questions were as follows: (1) What sets of naturalistic human whole-body stimuli are present in the literature? And (2) On what factors (e.g., demographics, emotion expression) do these stimuli vary? To be included, stimulus sets had to (1) include human bodies as stimuli; (2) be photographs, videos, or other depictions of real human bodies (not computer generated, drawn, etc.); (3) include the whole body (defined as torso, arms, and legs); and (4) could include edited images, but still had to be recognizable as human bodies. We identified a relatively large number of existing stimulus sets (N = 79) which offered relative variability in terms of main manipulated factors and the degree of visual information included (i.e., inclusion of heads and/or faces). However, stimulus sets were demographically homogenous, skewed towards White, young adult, and female bodies. We identified significant issues in reporting and availability practices, posing a challenge to the generalizability, reliability, and reproducibility of body-related research. Accordingly, we urge researchers to adopt transparent and accessible practices and to take steps to diversify body stimuli. [ABSTRACT FROM AUTHOR]

Published

2024

6. Historical and contemporary drivers of knickpoint retreat and morphological evolution along Bayou Pierre, Mississippi.

Author

Stearman, Loren W. and Heitmuller, Franklin T.

Subjects

STIMULUS synthesis, RAINSTORMS, STORMS, DAMAGES (Law), ALLUVIAL streams, REFORESTATION, RIVER channels

Abstract

Channel incision in rivers can cause marked ecological and economic damages. This phenomenon is abundant and generally well documented along impacted streams in the loess hills adjacent to the Lower Mississippi River valley. Bayou Pierre, an ecologically important small tributary of the Mississippi River, is currently incising but causes are not well understood. In this study, we examine diverse data sources to: (1) reconstruct a history of erosional stimuli and possible origins and (2) examine effects of contemporary controls. Review of long‐term planform and land use data for the Mississippi River revealed episodic foreshortening events followed by episodic deforestation and reforestation. Hydrologic data suggest an increase in rainfall over the last few decades. Estimates of knickpoint retreat place origins prior to Mississippi River channel straightening (1929–1944). Planform analysis in three focal reaches of Bayou Pierre demonstrates slow change prior to 1982, but accelerated changes after those periods. Mean rainfall and 3‐day storm intensity correlate to some planform changes; however, the storm of 1983 may be a better explanation of sudden planform change. We found some evidence of potential internal feedback loops in patterns of bar growth. Together, our analyses provide a synthesis of stimuli experienced by Bayou Pierre over the last ~200 years and suggest both channel migration events before straightening of the Mississippi River and more recent hydrologic events have influenced patterns of geomorphic change in Bayou Pierre. [ABSTRACT FROM AUTHOR]

Published

2024

7. Complex Synaptic and Intrinsic Interactions Disrupt Input/Output Functions in the Hippocampus of Scn1b Knock-Out Mice.

Author

Chancey, Jessica Hotard, Ahmed, Alisha A., Guillén, Fernando Isaac, Ghatpande, Vighnesh, and Howard, MacKenzie A.

Subjects

*KNOCKOUT mice, *PYRAMIDAL neurons, *INTERNEURONS, *ACTION potentials, *POSTSYNAPTIC potential, *STIMULUS synthesis, *ION channels

Abstract

Pathogenic variants in SCN1B have been linked to severe developmental epileptic encephalopathies including Dravet syndrome. Scn1b knock-out (KO) mice model SCN1B loss-of-function (LOF) disorders, demonstrating seizures, developmental delays, and early death. SCN1B encodes the protein β1, an ion channel auxiliary subunit that also has roles in cell adhesion, neurite outgrowth, and gene expression. The goal of this project is to better understand of how loss of Scn1b alters information processing in the brain, resulting in seizures and associated cognitive dysfunction. Using slice electrophysiology in the CA1 region of the hippocampus from male and female Scn1b KO mice and wild-type (WT) littermates, we found that processing of physiologically relevant patterned Schaffer collateral (SC) stimulation produces larger, prolonged depolarizations and increased spiking in KO neurons compared with WTs. KO neurons exhibit enhanced intrinsic excitability, firing more action potentials with current injection. Interestingly, SC stimulation produces smaller, more facilitating excitatory and IPSCs in KO pyramidal neurons, but larger postsynaptic potentials (PSPs) with the same stimulation. We also found reduced intrinsic firing of parvalbumin (PV)-expressing interneurons and disrupted recruitment of both parvalbumin-expressing and somatostatin (SST)-expressing interneurons in response to patterned synaptic stimulation. Neuronal information processing relies on the interplay between synaptic properties, intrinsic properties that amplify or suppress incoming synaptic signals, and firing properties that produce cellular output. We found changes at each of these levels in Scn1b KO pyramidal neurons, resulting in fundamentally altered cellular information processing in the hippocampus that likely contributes to the complex phenotypes of SCN1B-linked epileptic encephalopathies. [ABSTRACT FROM AUTHOR]

Published

2023

8. Microstimulation of human somatosensory cortex evokes task-dependent, spatially patterned responses in motor cortex.

Author

Shelchkova, Natalya D., Downey, John E., Greenspon, Charles M., Okorokova, Elizaveta V., Sobinov, Anton R., Verbaarschot, Ceci, He, Qinpu, Sponheim, Caleb, Tortolani, Ariana F., Moore, Dalton D., Kaufman, Matthew T., Lee, Ray C., Satzer, David, Gonzalez-Martinez, Jorge, Warnke, Peter C., Miller, Lee E., Boninger, Michael L., Gaunt, Robert A., Collinger, Jennifer L., and Hatsopoulos, Nicholas G.

Subjects

STIMULUS synthesis, SOMATOSENSORY cortex, MOTOR cortex, PEOPLE with paralysis, NEURONS, CLINICAL trials

Abstract

The primary motor (M1) and somatosensory (S1) cortices play critical roles in motor control but the signaling between these structures is poorly understood. To fill this gap, we recorded – in three participants in an ongoing human clinical trial (NCT01894802) for people with paralyzed hands – the responses evoked in the hand and arm representations of M1 during intracortical microstimulation (ICMS) in the hand representation of S1. We found that ICMS of S1 activated some M1 neurons at short, fixed latencies consistent with monosynaptic activation. Additionally, most of the ICMS-evoked responses in M1 were more variable in time, suggesting indirect effects of stimulation. The spatial pattern of M1 activation varied systematically: S1 electrodes that elicited percepts in a finger preferentially activated M1 neurons excited during that finger's movement. Moreover, the indirect effects of S1 ICMS on M1 were context dependent, such that the magnitude and even sign relative to baseline varied across tasks. We tested the implications of these effects for brain-control of a virtual hand, in which ICMS conveyed tactile feedback. While ICMS-evoked activation of M1 disrupted decoder performance, this disruption was minimized using biomimetic stimulation, which emphasizes contact transients at the onset and offset of grasp, and reduces sustained stimulation. Here the authors record the responses evoked in the hand and arm representations of M1 during intracortical microstimulation in the hand representation of S1, and show somatotopically organized connections with motor cortex. The resulting interference with motor decoding is task dependent but can be alleviated by using biomimetic stimulation. [ABSTRACT FROM AUTHOR]

Published

2023

9. Sound category habituation requires task-relevant attention.

Author

Moskowitz, Howard S. and Sussman, Elyse S.

Subjects

IMPLICIT learning, HABITUATION (Neuropsychology), SPEECH perception, STIMULUS synthesis, EVOKED potentials (Electrophysiology), SOUNDS

Abstract

Introduction: Processing the wealth of sensory information from the surrounding environment is a vital human function with the potential to develop learning, advance social interactions, and promote safety and well-being. Methods: To elucidate underlying processes governing these activities we measured neurophysiological responses to patterned stimulus sequences during a sound categorization task to evaluate attention effects on implicit learning, sound categorization, and speech perception. Using a unique experimental design, we uncoupled conceptual categorical effects from stimulus-specific effects by presenting categorical stimulus tokens that did not physically repeat. Results: We found effects of implicit learning, categorical habituation, and a speech perception bias when the sounds were attended, and the listeners performed a categorization task (task-relevant). In contrast, there was no evidence of a speech perception bias, implicit learning of the structured sound sequence, or repetition suppression to repeated within-category sounds (no categorical habituation) when participants passively listened to the sounds and watched a silent closedcaptioned video (task-irrelevant). No indication of category perception was demonstrated in the scalp-recorded brain components when participants were watching a movie and had no task with the sounds. Discussion: These results demonstrate that attention is required to maintain category identification and expectations induced by a structured sequence when the conceptual information must be extracted from stimuli that are acoustically distinct. Taken together, these striking attention effects support the theoretical view that top-down control is required to initiate expectations for higher level cognitive processing. [ABSTRACT FROM AUTHOR]

Published

2023

10. Stimuli-Responsive Hydrogels for Protein Delivery.

Author

Malta, Rafaela, Marques, Ana Camila, Costa, Paulo Cardoso da, and Amaral, Maria Helena

Subjects

STIMULUS synthesis, HYDROGELS, DRUGS, PROTEINS, BIOCOMPATIBILITY

Abstract

Proteins and peptides are potential therapeutic agents, but their physiochemical properties make their use as drug substances challenging. Hydrogels are hydrophilic polymeric networks that can swell and retain high amounts of water or biological fluids without being dissolved. Due to their biocompatibility, their porous structure, which enables the transport of various peptides and proteins, and their protective effect against degradation, hydrogels have gained prominence as ideal carriers for these molecules' delivery. Particularly, stimuli-responsive hydrogels exhibit physicochemical transitions in response to subtle modifications in the surrounding environment, leading to the controlled release of entrapped proteins or peptides. This review is focused on the application of these hydrogels in protein and peptide delivery, including a brief overview of therapeutic proteins and types of stimuli-responsive polymers. [ABSTRACT FROM AUTHOR]

Published

2023

11. Clinical Commentaries: Case Material: "Chloe".

Subjects

*HUMAN sexuality, *COUNTERTRANSFERENCE (Psychology), *STIMULUS synthesis, *BINGE-eating disorder, *PORNOGRAPHIC films, *COMPULSIVE eating, *ENVY

Abstract

Chloe entered treatment with me when she was 17 years old. We begin the work to differentiate Chloe from Kate and explore Chloe's desire to create relationships that are less transactionally focused and not based on "controlling people with sex." Although my treatment with Chloe was over 15 years ago, while writing this case, I had a countertransference dream reactivating my distress to help liberate Chloe from the destructive parts of herself. Chloe, now 21 years old, brought a dream to her first appointment to begin the second phase of treatment: I There was a clown's face. [Extracted from the article]

Published

2023

12. Imaging ellipsometry for structured and plasmonic materials.

Author

Hingerl, Kurt

Subjects

*STIMULUS synthesis, *ELLIPSOMETRY, *HEURISTIC, *GRAPHENE

Abstract

For approximately a decade, imaging ellipsometers have been available commercially. These allow one to measure the properties of graphene flakes, organic layers on amorphous substrates, plasmonic structures, among many other examples. These imaging ellipsometers opened a path to recognize and interpret pattern formations on surfaces or mapping field enhancement. However, for a full understanding of the optical response of patterned substrates, one should be aware that the well-known Fresnel reflection and transmission equations are, strictly speaking, not correct anymore. In this contribution, the ellipsometric response is explained in detail using heuristic physical arguments, hopefully without getting lost in the complexities of numerical computations. [ABSTRACT FROM AUTHOR]

Published

2021

13. Ultrawide bandwidth and large-angle electromagnetic wave absorption based on triple-nested helix metamaterial absorbers.

Author

He, Zidong, Wu, Liwen, Liu, Yu, Lu, Yao, Wang, Fanqi, Shao, Wen, Fu, Shihong, and Tong, Guoxiu

Subjects

*ELECTROMAGNETIC wave absorption, *STIMULUS synthesis, *MILLIMETER waves, *COUPLING constants, *BANDWIDTHS, *CURRENT distribution

Abstract

This article presents ultrawide bandwidth (BW) and large-angle helical metamaterial absorbers (HMMAs) consisting of a periodic array of coaxially nested magnetic helices. The enhanced properties of these HMMAs, including ultrawide BW, polarization insensitivity, and wide-angle absorption, are confirmed and illustrated experimentally. Large helix diameter (20–30 mm), small coupling constant (close to 1), and small and large helix nesting (5 and 20 mm) help in the enhancement of the absorption properties. Current distributions and coupling property of these HMMAs are provided, and results reveal that the synergistic effect of the LC resonance and dipole responses of the patterned structure is responsible for the broadband absorption mechanism. HMMAs consisting of a 14 × 14 array of a triple-nested helix exhibit optimal performance. The effective BW with reflection loss below −10 dB (90% attenuation) is up to 27.68 GHz at 8–40 GHz. The HMMAs also show polarization insensitivity in the incident range of 0°–315° and angle insensitivity at all incident angles in the range of 35°–70°. Therefore, our findings here provide a valuable guide to the design and fabrication of chiral MMAs, in particular, the ultrawide BW and large-angle chiral MMAs at microwave or millimeter wave frequencies. [ABSTRACT FROM AUTHOR]

Published

2020

14. Mechanochemical Synthesis of Stimuli Responsive Microgels.

Author

Hu, Chaolei, van Bonn, Pit, Demco, Dan E., Bolm, Carsten, and Pich, Andrij

Subjects

*STIMULUS synthesis, *MICROGELS, *ADDITION polymerization, *POLYMERS, *CHEMICAL structure, *POLYMERIZATION

Abstract

Mechanochemical approaches are widely used for the efficient, solvent‐free synthesis of organic molecules, however their applicability to the synthesis of functional polymers has remained underexplored. Herein, we demonstrate for the first time that mechanochemically triggered free‐radical polymerization allows solvent‐ and initiator‐free syntheses of structurally and morphologically well‐defined complex functional macromolecular architectures, namely stimuliresponsive microgels. The developed mechanochemical polymerization approach is applicable to a variety of monomers and allows synthesizing microgels with tunable chemical structure, variable size, controlled number of crosslinks and reactive functional end‐groups. [ABSTRACT FROM AUTHOR]

Published

2023

15. The Medial Prefrontal Regulation of Maternal Behavior Across Postpartum: A Triadic Model.

Author

Li, Ming

Subjects

*CONTROL (Psychology), *EXECUTIVE function, *STIMULUS synthesis, *PREOPTIC area, *PUERPERIUM

Abstract

Maternal behavior is a highly motivated and adaptive social behavior. Its frequency and pattern change across the postpartum period in response to the changing characteristics of the young and psychophysiological state of the mother. In rodents, maternal behavior peaks shortly after parturition, remains stable for a certain period of time, and then declines gradually until weaning. These dramatic behavioral changes all happen within a 3- to 4-week period. This article reviews evidence on the role of the medial prefrontal cortex (mPFC) in the regulation of the postpartum maternal behavior cycle in rats. Based on this review, a triadic model is proposed to explain how the mPFC, functioning as an executive control system, organizes different patterned maternal responses in different stages of postpartum via its interactions with the maternal excitatory approach system (centered around the medial preoptic area, the mesolimbic dopamine [DA] system) and the maternal inhibitory avoidance system (centered around the olfactory bulb-medial amygdala-ventromedial hypothalamus system). Dopamine and serotonin are hypothesized to operate in all three neural systems to regulate maternal behavior by influencing the motivational, executive control, and memory processes. This triadic model provides a useful framework for understanding dynamic changes of postpartum maternal behavior, as it integrates the evidence-supported approach–withdrawal model with the new prefrontal regulatory model of maternal behavior. Future research aimed at delineating the exact maternal neurocircuits and their interactions could benefit from the ideas derived from this model. Given that human maternal behavior is mainly cortical-driven, this model has significant implications for constructing neural models of human parental behavior. [ABSTRACT FROM AUTHOR]

Published

2023

16. Mechanically adaptive composites through piezoelectricity.

Author

Omar, Mostafa M., Sun, Bohan, Kitchen, Grant, and Kang, Sung Hoon

Subjects

*SMART materials, *STIMULUS synthesis, *CYCLIC loads, *PIEZOELECTRICITY

Abstract

Continuous technological advances resulted in an ever-growing need for novel materials. In conventional engineering materials, cyclic loadings weaken materials by initiating cracks or degrading materials, which leads to premature failure. Contrarily, natural materials such as bones address the issue elegantly. Stress is utilized as a stimulus for material synthesis to strengthen the material. The salient difference between these natural material systems and their synthetic counterparts is their adaptive behavior. Adaptive materials can self-tune their properties in response to stimuli from the environment. Recently, growing attention has been directed towards adaptive materials owing to their autonomous "smart" behavior and multifunctionality. The goal of this article is to discuss the recent efforts in adaptive materials with a focus on mechanically adaptive materials based on piezoelectricity. The rationale behind these material systems is explained as well as an overview of different material systems and their implications. Lastly, we will discuss the challenges to overcome and prospects for future studies. [ABSTRACT FROM AUTHOR]

Published

2023

17. Parallel Acquisition of Uncorrelated Sequences does Not Provide Firm Evidence for a Modular Sequence-Learning System.

Author

Barth, Marius, Stahl, Christoph, and Haider, Hilde

Subjects

*IMPLICIT learning, *STIMULUS synthesis, *IMMUNE complexes, *MOTOR ability, *ENCAPSULATION (Catalysis)

Abstract

Dual-systems theories of sequence learning assume that sequence learning may proceed within a unidimensional learning system that is immune to cross-dimensional interference because information is processed and represented in dimension-specific, encapsulated modules. Important evidence for such modularity comes from studies investigating the absence or presence of interference between multiple uncorrelated sequences (e.g., a sequence of color stimuli and a sequence of motor keypresses). Here we question the premise that the parallel acquisition of uncorrelated sequences provides convincing evidence for a modularized learning system. In contrast, we demonstrate that parallel acquisition of multiple uncorrelated sequences is well predicted by a computational model that assumes a single learning system with joint representations of stimulus and response features. [ABSTRACT FROM AUTHOR]

Published

2023

18. Pandemics and Management of "Dangerous Communities": Ebola, COVID-19, and Africans in China.

Author

Adebayo, Kudus Oluwatoyin

Subjects

*EBOLA virus disease, *COMMUNITIES, *PANDEMICS, *STIMULUS synthesis, *COVID-19 pandemic

Abstract

How do we unpack and make sense of anti-African/Black sentiments in the pandemic control and mitigation practices in China? This article responds to the question by drawing a parallel between the experiences of Africans in China during the Ebola virus disease and COVID-19 outbreaks. Focusing specifically on Nigerians as a subsection of the African community in Guangzhou City, China, it explores how the COVID-19-inspired discrimination against Africans reflects much of the experiences of Africans in China during the Ebola crisis of 2014. The article combines sixteen "Ebola experience" data points, obtained from Nigerians in Guangzhou in 2017, with four COVID-19 experience virtual interviews, media reports, and social media archive and netnographic analysis covering April to June 2020. The experiences of Africans in Guangzhou in the early months of the COVID-19 outbreak reflect a patterned response to Africans and Blackness in the context of pandemic in China. The article contributes to the literature by examining the question of racial discrimination and the construction of African immigrant community in China as dangerous within the new geography of Afro-mobilities in East Asia. [ABSTRACT FROM AUTHOR]

Published

2023

19. Depression Pathophysiology: Astrocyte Mitochondrial Melatonergic Pathway as Crucial Hub.

Author

Anderson, George

Subjects

*PATHOLOGICAL physiology, *STIMULUS synthesis, *MITOCHONDRIA, *MENTAL depression, *SOCIAL processes, *ASTROCYTES

Abstract

Major depressive disorder (MDD) is widely accepted as having a heterogenous pathophysiology involving a complex mixture of systemic and CNS processes. A developmental etiology coupled to genetic and epigenetic risk factors as well as lifestyle and social process influences add further to the complexity. Consequently, antidepressant treatment is generally regarded as open to improvement, undoubtedly as a consequence of inappropriately targeted pathophysiological processes. This article reviews the diverse array of pathophysiological processes linked to MDD, and integrates these within a perspective that emphasizes alterations in mitochondrial function, both centrally and systemically. It is proposed that the long-standing association of MDD with suppressed serotonin availability is reflective of the role of serotonin as a precursor for the mitochondrial melatonergic pathway. Astrocytes, and the astrocyte mitochondrial melatonergic pathway, are highlighted as crucial hubs in the integration of the wide array of biological underpinnings of MDD, including gut dysbiosis and permeability, as well as developmental and social stressors, which can act to suppress the capacity of mitochondria to upregulate the melatonergic pathway, with consequences for oxidant-induced changes in patterned microRNAs and subsequent patterned gene responses. This is placed within a development context, including how social processes, such as discrimination, can physiologically regulate a susceptibility to MDD. Future research directions and treatment implications are derived from this. [ABSTRACT FROM AUTHOR]

Published

2023

20. MAGIC IN THE ANCIENT EASTERN MEDITERRANEAN.

Author

JANOWITZ, NAOMI

Subjects

MAGIC, STIMULUS synthesis, AMULETS

Published

2023

21. Neurocentrist identity theory and neuro-phenomenal typing: A commentary on Manzotti’s, “The boundaries and location of consciousness as identity theories deem fit”.

Author

Marvan, Tomáš and Polák, Michal

Subjects

CONSCIOUSNESS, STIMULUS synthesis, PERCEPTION (Philosophy), AUDITORY perception, PAIN perception, SMELL

Published

2022

22. "We Can Do This in Our Classes, but What about Students in Other Classes and Out in the World?": How Educators Imagine Code-Meshers and Their Audiences.

Author

Ogunniyi, Victoria and O'Neil, Kim

Subjects

STIMULUS synthesis, EDUCATORS' attitudes, EDUCATORS, ENGLISH language, PUBLIC universities & colleges

Abstract

This study investigates the attitudes of educators of different race, class, linguistic, political, and disciplinary backgrounds at a large, urban, public university to code-meshed Black English in academic texts. This research draws on surveys as well as interviews gauging how educators responded to the idea of code-meshing not only in principle but also in practice, by analyzing their response to authentic intentionally code-meshed texts by unnamed Black English users. By noting patterned responses that emerged among subsets, we were able to notice how the seemingly "objective" act of imagining the authors and audiences for these code-meshed texts was in fact deeply personal, informed by respondents' intersectional identities, language ideologies, and lived experiences, informing in turn how they would advise student writers who choose to code-mesh in their academic writing. [ABSTRACT FROM AUTHOR]

Published

2022

23. Faculty of Education and Arts Reports Findings in Psychology (Mindfulness and academic procrastination among Chinese adolescents: a moderated mediation model).

Subjects

STRICT parenting, PSYCHOLOGICAL research, STIMULUS synthesis, EDUCATIONAL psychology, CHINESE people, PROCRASTINATION, MINDFULNESS

Abstract

A recent study conducted in Huangshi, People's Republic of China, explored the relationship between mindfulness, academic procrastination, and learning vigor among Chinese adolescents. The study found that mindfulness was negatively associated with academic procrastination, and that learning vigor mediated this relationship. Additionally, the study revealed that harsh parenting moderated the relationship between mindfulness and learning vigor, with higher levels of harsh parenting weakening the positive impact of mindfulness on learning vigor. These findings contribute to our understanding of the dynamics between mindfulness and procrastination, and have important implications for addressing academic procrastination in Chinese adolescents. [Extracted from the article]

Published

2024

24. User Perception and Use of the Academic Library: A Correlation Analysis.

Author

Kim, Jong-Ae

Subjects

*ACADEMIC libraries, *THOUGHT & thinking, *MAGNITUDE estimation, *PERCEIVED discrimination, *STIMULUS synthesis

Abstract

This study explores user perception, the use of an academic library, and the correlation between user perception and library use. The findings indicate that the academic library is a preferred place to study and spend time during non-class times on campus. The frequent user activities in the library included individual study, reading, computer use, finding information, group study, using reference and information services, and meeting and socializing. The correlation between library use and each of the user activities was examined. The findings suggest that users perceive the academic library primarily as a place for learning and information seeking. The study shows how users perceive and use the academic library, and provides insights into how libraries can strengthen their place and advance their role in the academic community. [ABSTRACT FROM AUTHOR]

Published

2017

25. Competition of Magnetic Anisotropies in Permalloy Antidot Lattices.

Author

Porro, Jose M., Villar, Aritz, Redondo, Carolina, Río-López, Natalia A., Lasheras, Andoni, Salazar, Daniel, Morales, Rafael, and Fernández-Martín, Eduardo

Subjects

MAGNETIC recording media, SKYRMIONS, MAGNETIC films, THIN films, STIMULUS synthesis, ELECTRON beams, LASER beams, MAGNETIZATION reversal

Abstract

Antidot lattices made of magnetic thin films are good candidates to be employed in future magnetic recording media. In this manuscript we present a study on the effect of shape and field-induced magnetic anisotropies on the magnetization reversal of 10 nm and 50 nm thick permalloy antidot lattices. Rounded antidot square lattices were fabricated using a combination of electron beam evaporation and laser interference lithography, covering surfaces of a few cm2. We demonstrate that a magnetic anisotropy induced in the samples, as a consequence of an applied magnetic field during growth, competes with the shape anisotropy that dominates the response of the patterned thin films, and that the effect of the field-induced magnetic anisotropy scales with the thickness of the antidot thin films. Finally, we have quantified the anisotropy constant attributable to the uniaxial field-induced magnetic anisotropy in our antidot lattices. These findings are supported by micromagnetic simulations performed using MuMax3. [ABSTRACT FROM AUTHOR]

Published

2022

26. The Role of Conjunctive Representations in Stopping Actions.

Author

Kikumoto, Atsushi, Sameshima, Tesufuaishin, and Mayr, Ulrich

Subjects

*ELECTROENCEPHALOGRAPHY, *RESPONSE inhibition, *COGNITION, *MATHEMATICS, *STIMULUS synthesis

Abstract

Action selection appears to rely on conjunctive representations that nonlinearly integrate task-relevant features. Here, we tested a corollary of this hypothesis: that such representations are also intricately involved during attempts to stop an action—a key aspect of action regulation. We tracked both conjunctive representations and those of constituent rule, stimulus, or response features through trial-by-trial representational similarity analysis of the electroencephalogram signal in a combined rule-selection and stop-signal paradigm. Across two experiments with student participants (N = 57), we found (a) that the strength of decoded conjunctive representations prior to the stop signal uniquely predicted trial-by-trial stopping success (Experiment 1) and (b) that these representations were selectively suppressed following the onset of the stop signal (Experiments 1 and 2). We conclude that conjunctive representations are key to successful action execution and therefore need to be suppressed when an intended action is no longer appropriate. [ABSTRACT FROM AUTHOR]

Published

2022

27. The Chinese Community of Malacca, 1795–2021: A Translocal Microhistorical Narrative.

Author

Dennerline, Jerry

Subjects

*STIMULUS synthesis, *KINSHIP, *SOCIAL institutions, *CIVIC leaders, *RELIGIOUS institutions, *MICROHISTORY, BRITISH colonies

Abstract

This article explores the shaping and reshaping of a Chinese community in Malacca, by focusing on issues of learning, faith, and power over several generations under British colonial and postcolonial Malaysian rule. Core social and religious institutions of the translocal kinship and commercial network of 1795 enabled the community to respond creatively to new global challenges. By 1840, a new generation had constructed a different translocal network with Singapore. As migration increased, so did the varieties of translocal experience in Malacca. As political challenges escalated, the community developed a pattern of response, mediation, participation, and integration, enabling community leaders to keep the peace. Subsequent generations of Hakka miners, Fujianese planters, and Hainanese merchants and workers participated with the deeply rooted Baba-Nyonya families in adapting this patterned local response to reform, war, and revolution. This "microhistorical" perspective enables us to explore how the legacies still matter in a rapidly changing new world. [ABSTRACT FROM AUTHOR]

Published

2022

28. Word learning in the field: Adapting a laboratory-based task for testing in remote Papua New Guinea.

Author

Mulak, Karen E., Sarvasy, Hannah S., Tuninetti, Alba, and Escudero, Paola

Subjects

*STIMULUS synthesis, *COGNITIVE load, *HUMAN behavior, *FRAMES (Social sciences), *LEARNING ability

Abstract

Adapting laboratory psycholinguistic methods to fieldwork contexts can be fraught with difficulties. However, successful implementation of such methods in the field enhances our ability to learn the true extent and limitations of human behavior. This paper reports two attempts to run word learning experiments with the small community of Nungon speakers in Towet village in the Saruwaged Mountains, Papua New Guinea. A first attempt involved running a cross-situational task in which word-object pairings were presented ambiguously in each trial, and an explicit word learning task in which pairings were presented explicitly, or unambiguously, in each trial. While this quickly garnered a respectable 34 participants over the course of a week, it yielded null results, with many participants appearing to show simple patterned responses at test. We interpreted the null result as possibly reflecting the unfamiliarity of both the task and the laptop-based presentation mode. In Experiment 2, we made several adjustments to the explicit word learning task in an attempt to provide clearer instructions, reduce cognitive load, and frame the study within a real-world context. During a second 11-day stay in the village, 34 participants completed this modified task and demonstrated clear evidence of word learning. With this success serving as a future guide for researchers, our experiences show that it may require multiple attempts, even by experienced fieldworkers familiar with the target community, to successfully adapt experiments to a field setting. [ABSTRACT FROM AUTHOR]

Published

2021

29. The density effect in centroid estimation is blind to contrast polarity.

Author

Rashid, Jordan Ali and Chubb, Charles

Subjects

*VISION, *CENTROID, *POLARITY, *CLOUD computing, *STIMULUS synthesis, *ANIMAL experimentation, *MICE

Abstract

Human vision is highly efficient in estimating the centroids of spatially scattered items. However, the processes underlying this remarkable skill remain poorly understood. A salient fact is that in estimating the centroids of dot-clouds, observers underweight densely packed dots relative to isolated dots; thus, when an observer estimates the centroid of a dot cloud, the weight exerted on the subject's response by a given dot tends to be suppressed by other dots near it. The current experiment sought to determine whether dots of contrast polarity equal vs. opposite to a given dot differ in how they alter the weight it exerts. Six observers were tested in a task that used brief (180 ms), Gaussian clouds that mixed 9 white and 9 black dots on a gray background. On each trial, the observer strove to mouse-click the centroid of the stimulus cloud weighting all dots equally. The model used to describe the results allows the weight exerted on the subject's response by a given dot to depend on its peripherality in the stimulus cloud as well as on the density of same- and opposite-polarity dots surrounding it. For four observers, peripheral dots exerted lower influence than central dots on responses; the other two showed little effect of peripherality. For all observers, dots in high-density regions exerted less weight on responses than dots in low-density regions. Concerning the primary research question: dots of opposite vs. the same polarity as a given dot suppressed the weight it exerted with equal effectiveness. This suggests that the site of the interaction producing the density effect is a neural population that registers positive and negative contrast polarities in the same way. [ABSTRACT FROM AUTHOR]

Published

2021

30. From Vicious to Virtuous Paradox Dynamics: The Social-symbolic Work of Supporting Actors.

Author

Pradies, Camille, Tunarosa, Andrea, Lewis, Marianne W., and Courtois, Julie

Subjects

STIMULUS synthesis, PARADOX, ACTORS, ACTION research

Abstract

The dynamics of paradox can be vicious and virtuous. Facing competing yet interrelated demands, organizational actors may find themselves paralyzed by tensions, embroiled in a vicious cycle, or energized by and thriving amid the friction in a virtuous cycle. While studies offer insights into each type, little is known about how actors move from one to the other. Through an action research study at a multinational company, we investigate shifting paradox dynamics. Our model depicts how organizational actors transition from vicious to virtuous cycle, moving through a cycle break and a cycle reversal. Our collaborative methodology sheds light on how supporting actors can shape the social and symbolic dimensions influencing focal actors' capacity to shift their patterned responses to paradoxical tensions. Supporting actors, positioned as insiders to the organization but outsiders to the paradox, enable this shift by breaking dysfunctional dynamics, facilitating new responses, and embedding virtuous dynamics in the organization. [ABSTRACT FROM AUTHOR]

Published

2021

31. Trichotomy revisited: A monolithic theory of attentional control.

Author

Anderson, Brian A.

Subjects

*ATTENTION, *BINARY principle (Linguistics), *STIMULUS synthesis, *MODULATION theory, *MEMORY

Abstract

• Current models of attention hypothesize three distinct mechanisms of control. • Shortcomings of tripartite models of attentional control are discussed. • Next, a broader theme governing the control of attention is explored. • A monolithic theory centered on this broader theme is proposed. • Implications of the proposed theory and its explanatory power are explored. The control of attention was long held to reflect the influence of two competing mechanisms of assigning priority, one goal-directed and the other stimulus-driven. Learning-dependent influences on the control of attention that could not be attributed to either of those two established mechanisms of control gave rise to the concept of selection history and a corresponding third mechanism of attentional control. The trichotomy framework that ensued has come to dominate theories of attentional control over the past decade, replacing the historical dichotomy. In this theoretical review, I readily affirm that distinctions between the influence of goals, salience, and selection history are substantive and meaningful, and that abandoning the dichotomy between goal-directed and stimulus-driven mechanisms of control was appropriate. I do, however, question whether a theoretical trichotomy is the right answer to the problem posed by selection history. If we reframe the influence of goals and selection history as different flavors of memory-dependent modulations of attentional priority and if we characterize the influence of salience as a consequence of insufficient competition from such memory-dependent sources of priority, it is possible to account for a wide range of attention-related phenomena with only one mechanism of control. The monolithic framework for the control of attention that I propose offers several concrete advantages over a trichotomy framework, which I explore here. [ABSTRACT FROM AUTHOR]

Published

2024

32. On-surface synthesis of graphene nanostructures with π-magnetism.

Author

Song, Shaotang, Su, Jie, Telychko, Mykola, Li, Jing, Li, Guangwu, Li, Ying, Su, Chenliang, Wu, Jishan, and Lu, Jiong

Subjects

*SCANNING probe microscopy, *NANOSTRUCTURES, *MATERIALS science, *STIMULUS synthesis, *ORGANIC synthesis, *GRAPHENE synthesis

Abstract

Graphene nanostructures (GNs) including graphene nanoribbons and nanoflakes have attracted tremendous interest in the field of chemistry and materials science due to their fascinating electronic, optical and magnetic properties. Among them, zigzag-edged GNs (ZGNs) with precisely-tunable π-magnetism hold great potential for applications in spintronics and quantum devices. To improve the stability and processability of ZGNs, substitutional groups are often introduced to protect the reactive edges in organic synthesis, which renders the study of their intrinsic properties difficult. In contrast to the conventional wet-chemistry method, on-surface bottom-up synthesis presents a promising approach for the fabrication of both unsubstituted ZGNs and functionalized ZGNs with atomic precision via surface-catalyzed transformation of rationally-designed precursors. The structural and spin-polarized electronic properties of these ZGNs can then be characterized with sub-molecular resolution by means of scanning probe microscopy techniques. This review aims to highlight recent advances in the on-surface synthesis and characterization of a diversity of ZGNs with π-magnetism. We also discuss the important role of precursor design and reaction stimuli in the on-surface synthesis of ZGNs and their π-magnetism origin. Finally, we will highlight the existing challenges and future perspective surrounding the synthesis of novel open-shell ZGNs towards next-generation quantum technology. [ABSTRACT FROM AUTHOR]

Published

2021

33. Quantitative nascent proteome profiling by dual-pulse labelling with O-propargyl-puromycin and stable isotope-labelled amino acids.

Author

Uchiyama, Junki, Ishihama, Yasushi, and Imami, Koshi

Subjects

*AMINO acids, *RIBOSOMAL proteins, *PROTEIN binding, *STIMULUS synthesis, *PROTEIN synthesis, *DEPTH profiling

Abstract

Monitoring translational regulation in response to environmental signals is crucial for understanding cellular proteostasis. However, only limited approaches are currently available for quantifying acute changes in protein synthesis induced by stimuli. Recently, a clickable puromycin analogue, O -propargyl-puromycin (OPP), was developed and applied to label the C-termini of nascent polypeptide chains (NPCs). Following affinity purification via a click reaction, OPP allows for a proteomic analysis of NPCs. Despite its advantage, the affinity purification of NPCs using magnetic beads or resins inherently suffers from significant non-specific protein binding, which hinders accurate quantification of the nascent proteins. To address this issue, we employed dual-pulse labelling of NPCs with both OPP and stable isotope-labelled amino acids to distinguish bona fide NPCs from non-specific proteins, thereby enabling the accurate quantitative profiling of NPCs. We applied this method to dissecting translation responses upon transcriptional inhibition and quantified ∼3,000 nascent proteins. We found that the translation of a subset of ribosomal proteins (e.g. RPSA, RPLP0) as well as signalling proteins (e.g. BCAR3, EFNA1, DUSP1) was significantly repressed by transcription inhibition. Together, the present method provides an accurate and broadly applicable nascent proteome profiling for many biological applications at the level of translation. [ABSTRACT FROM AUTHOR]

Published

2021

34. Semantic Space Theory: A Computational Approach to Emotion.

Author

Cowen, Alan S. and Keltner, Dacher

Subjects

*EMOTIONS, *EXPRESSIVE behavior, *STIMULUS synthesis, *AFFECT (Psychology), *SPACE, *EMOTIONAL experience, *SEMANTIC memory

Abstract

Within affective science, the central line of inquiry, animated by basic emotion theory and constructivist accounts, has been the search for one-to-one mappings between six emotions and their subjective experiences, prototypical expressions, and underlying brain states. We offer an alternative perspective: semantic space theory. This computational approach uses wide-ranging naturalistic stimuli and open-ended statistical techniques to capture systematic variation in emotion-related behaviors. Upwards of 25 distinct varieties of emotional experience have distinct profiles of associated antecedents and expressions. These emotions are high-dimensional, categorical, and often blended. This approach also reveals that specific emotions, more than valence, organize emotional experience, expression, and neural processing. Overall, moving beyond traditional models to study broader semantic spaces of emotion can enrich our understanding of human experience. In the past decade, scientists have systematically moved beyond the six traditionally studied emotions to document a broader array of emotion-related experiences and expressive behaviors. Semantic space approaches to emotion organize the study of emotion-related behavior by establishing the number of distinct patterned responses that occur systematically within an emotion-related modality, how these behaviors are most precisely conceptualized, and whether these behaviors are discrete or exist along a continuum. Computational methods reveal emotional behavior to be high dimensional, involving upwards of 25 distinct kinds of emotion. Specific categories of emotion, more so than valence and arousal, drive the representation of emotion in experience, expression, and neural processing. Much of emotional response is found to be systematically blended rather than discrete. [ABSTRACT FROM AUTHOR]

Published

2021

35. The use of individual, social, and animated cue information by capuchin monkeys and children in a touchscreen task.

Author

Renner, Elizabeth, Kean, Donna, Atkinson, Mark, and Caldwell, Christine A.

Subjects

*CAPUCHIN monkeys, *STIMULUS synthesis, *SOCIAL informatics, *CEBIDAE, *TOUCH screens

Abstract

The distinctiveness of human cumulative culture raises the question of whether humans respond differently to information originating from social sources, compared with information from other sources. Further, does any such differential responding set humans apart from other species? We studied how capuchin monkeys and 2- to 5-year-old children used information originating from their own actions, those of a human demonstrator, or an animated cue. This information, presented via a touchscreen, always revealed in the first trial (T1) the reward value (rewarded or unrewarded) of one stimulus from a 2- or 3-item array, and could be used in a follow-up trial (T2) involving the same stimulus array. Two monkeys achieved a level of proficiency indicating their appreciation of the T1–T2 relationship, i.e., reliably repeating rewarded ("win") selections and actively avoiding repetition of unrewarded ("lose") selections well above chance levels. Neither the two task-proficient monkeys nor the children showed overall performance differences between the three source conditions. Non-task-proficient monkeys, by contrast, did show effects of source, performing best with individually-acquired information. The overall pattern of results hints at an alternative perspective on evidence typically interpreted as showing a human advantage for social information use. [ABSTRACT FROM AUTHOR]

Published

2021

36. The additive nature of the human multisensory evoked pupil response.

Author

Van der Stoep, Nathan, Van der Smagt, M. J., Notaro, C., Spock, Z., and Naber, M.

Subjects

*PUPILLOMETRY, *PERCEPTUAL motor learning, *REACTION time, *SOMATOSENSORY evoked potentials, *STIMULUS synthesis

Abstract

Pupillometry has received increased interest for its usefulness in measuring various sensory processes as an alternative to behavioural assessments. This is also apparent for multisensory investigations. Studies of the multisensory pupil response, however, have produced conflicting results. Some studies observed super-additive multisensory pupil responses, indicative of multisensory integration (MSI). Others observed additive multisensory pupil responses even though reaction time (RT) measures were indicative of MSI. Therefore, in the present study, we investigated the nature of the multisensory pupil response by combining methodological approaches of previous studies while using supra-threshold stimuli only. In two experiments we presented auditory and visual stimuli to observers that evoked a(n) (onset) response (be it constriction or dilation) in a simple detection task and a change detection task. In both experiments, the RT data indicated MSI as shown by race model inequality violation. Still, the multisensory pupil response in both experiments could best be explained by linear summation of the unisensory pupil responses. We conclude that the multisensory pupil response for supra-threshold stimuli is additive in nature and cannot be used as a measure of MSI, as only a departure from additivity can unequivocally demonstrate an interaction between the senses. [ABSTRACT FROM AUTHOR]

Published

2021

37. Self‐activated persistent luminescence from Ba2Zr2Si3O12 for information storage.

Author

Xiong, Puxian, Zheng, Chibin, Peng, Mingying, Zhou, Zhihao, Xu, Feifei, Qin, Kexin, Hong, Yiyu, and Ma, Zhijun

Subjects

*STIMULUS synthesis, *LUMINESCENCE, *THERMOLUMINESCENCE, *PHOTOLUMINESCENCE, *STORAGE

Abstract

Till now, many doped persistent luminescence (PersL) phosphors have been investigated and found various applications in such as bioimaging, photocatalysis and information storage, but introducing PersL emitters into a proper host is mostly complex. In this research, a self‐activated PersL phosphor Ba2Zr2Si3O12 (BZSO) is prepared by solid state reaction. By adding NH4Cl, the self‐activated PersL intensity is evidently enhanced. The trap depths and concentrations are examined by thermoluminescence spectra. Meanwhile, Bi3+ ions are introduced into BZSO and show wide band photoluminescence (PL) from 300 to 600 nm. Moreover, the PL of Bi3+ is tunable under excitation by 265‐350 nm lights. Furthermore, as a proof‐of‐concept design, we designed a patterned quick response (QR) code based on the self‐activated PersL of BZSO, and the information of "South China University of Technology (SCUT)" can be read out by the code scanning technology. Bi3+‐doped BZSO phosphors are suggested to provide potential applications in information storage by its self‐activated PersL, and to excite researchers to study the tunable PL in Bi3+‐doped phosphor. [ABSTRACT FROM AUTHOR]

Published

2020

38. A time course for markers of protein synthesis and degradation with hindlimb unloading and the accompanying anabolic resistance to refeeding.

Author

Roberson, Paul A., Shimkus, Kevin L., Welles, Jaclyn E., Xu, Dandan, Whitsell, Abigale L., Kimball, Eric M., Jefferson, Leonard S., and Kimball, Scot R.

Subjects

PROTEIN synthesis, PROTEOLYSIS, EPICATECHIN, SKELETAL muscle, PHYSIOLOGY, SOLEUS muscle, STIMULUS synthesis, H-reflex

Abstract

Skeletal muscle atrophy is associated with disease, aging, and disuse. Hindlimb unloading (HU) in animals provides an experimental model to study muscle atrophy. A comprehensive time course for how HU affects biomarkers of protein synthesis and degradation acutely and chronically and the associated resistance to an anabolic stimulus following disuse remain undocumented. Sixteenweek- old C57BL/6 mice underwent 0, 1, 12, 24, 72, 168, or 336 h of HU. Following 336 h of HU, mice were reloaded for 1, 24, or 72 h. Another group of mice underwent 120 h of HU, were fasted or refed, and were then compared with similar condition control animals (CTL). Protein content and phosphorylation of biomarkers of protein synthesis, degradation, and autophagy were assessed in the soleus muscle. Gastrocnemius, soleus, and plantaris muscles atrophied within 120 h of HU. Protein synthesis trended toward decrease following 24 h of HU. p70S6K phosphorylation and protein synthesis increased with reloading. Following HU, changes in MAFbx and DEPTOR expression and DEPTOR phosphorylation were consistent with development of a catabolic state. DEPTOR expression recovered following reloading. Animals that underwent 120 h of HU exhibited attenuation of refeeding-induced p70S6K phosphorylation compared with CTL counterparts. Following 120 h of HU, protein synthesis, eukaryotic translation initiation factor 4E-binding protein 1 (4E-BP1) phosphorylation, and DEPTOR, MAFbx, and Sestrin1 expression indicated a catabolic state. Following 120 h of HU, autophagy markers, including p62 expression, REDD1 expression, LC3 ratio, and Unc-51-like autophagy-activating kinase 1 (ULK1) phosphorylation, indicated impaired autophagy. HU promotes a deleterious balance between protein synthesis and degradation. The time course herein provides scientists information about when the associated biomarkers become affected. NEW & NOTEWORTHY Hindlimb unloading causes significant skeletal muscle atrophy by adversely affecting the balance between protein synthesis and breakdown. This study demonstrates a more complete time course for changes in biomarkers associated with protein synthesis and breakdown and investigates the associated anabolic resistance to an anabolic stimulus following hindlimb unloading. These data in concert with information from other studies provide a basis for designing future experiments to optimally interrogate a desired cellular biomarker or pathway. [ABSTRACT FROM AUTHOR]

Published

2020

39. Synthesis of hydroxyapatite fibers using electrospinning: A study of phase evolution based on polymer matrix.

Author

Sebastian, T., Preisker, T.R., Gorjan, L., Graule, T., Aneziris, C.G., and Clemens, F.J.

Subjects

*HYDROXYAPATITE synthesis, *POLYMERS, *CALCIUM phosphate, *ARTIFICIAL bones, *ELECTROSPINNING, *STIMULUS synthesis

Abstract

Hydroxyapatite (HA) is considered as the most promising biomaterial candidate to replace and regenerate hard tissues. A small amount of β-tricalcium phosphate (β-TCP) phase is advantageous for rapid bonding of the artificial bones to natural ones due to its high solubility compared to hydroxyapatite. Synthesizing HA nanofibers from electrospinning of sol-gel is considered as a widely researched topic. Motivation of the current work was to investigate the influence of polymeric binder in the final phase evolution after heat treatment of electrospun nanofibers. Calcium phosphate nanofibers were fabricated by electrospinning sols using gelatine and polyvinylpyrrolidone as carrier polymers and subjected to heat treatment. It was realized that carrier polymers facilitate preferential calcium phosphate phase formation by forming hydroxyapatite as major phase while PVP was used and β-TCP with HA as secondary phase while gelatine was employed. XRD and thermal analyses were performed to ascertain the reason behind this interesting behaviour. [ABSTRACT FROM AUTHOR]

Published

2020

40. Stimuli‐responsive nanoparticles for the codelivery of chemotherapeutic agents doxorubicin and siPD‐L1 to enhance the antitumor effect.

Author

Zhou, Ye‐juan, Wan, Wen‐jun, Tong, Yao, Chen, Meng‐tian, Wang, Dan‐dan, Wang, Yu, You, Ben‐gang, Liu, Yang, and Zhang, Xue‐nong

Subjects

STIMULUS synthesis, DOXORUBICIN, SMALL interfering RNA, POLYETHYLENE glycol, IMMUNE recognition, CANCER treatment

Abstract

Cancer cells have been reported to exhibit high resistance against immune system recognition through various cell intrinsic and extrinsic mechanisms. Considerable challenges have been encountered in monotherapy with chemotherapeutics to attain the desired antitumor efficacy. In this study, a nanodelivery system was designed to incorporate doxorubicin (DOX) and programmed death‐ligand 1 (PD‐L1) small interfering RNA (siRNA), that is, siPD‐L1. DOX and siPD‐L1 were formed from a stimuli‐responsive polymer with a poly‐L‐lysine–lipoic acid reduction‐sensitive core and a tumor extracellular pH‐stimulated shedding polyethylene glycol layer. The codelivery system was stable under physiological pH conditions and demonstrated enhanced cellular uptake at the tumor site. Moreover, the combined treatment of DOX and siPD‐L1 exhibited improved antitumor effect in vitro and in vivo compared with either modality alone. The combination of chemotherapy and immunotherapy presented in this work through the codelivery of a chemotherapeutic agent and a gene‐silencing agent (siRNA) may provide a new strategy for cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2020

41. A Supersensitive, Multidimensional Flexible Strain Gauge Sensor Based on Ag/PDMS for Human Activities Monitoring.

Author

Li, Hui, Zhang, Jinjie, Chen, Jing, Luo, Zebang, Zhang, Jinyong, Alhandarish, Yousef, Liu, Qiuhua, Tang, Wei, and Wang, Lei

Subjects

*MOTION, *MULTIDIMENSIONAL scaling, *STIMULUS synthesis, *ROBOTICS, *TOUCH

Abstract

For more comprehensive monitoring human state of motion, it is necessary to sense multidimensional stimulus information. In this paper, we reported a supersensitive flexible sensor based on Ag/PDMS composites with sensing abilities of strain and force. The fabrication method is simple and rapid, which only need physically grinding the silver particles and mixing with liquid PDMS. The flexible sensor has excellent performances in multidimensional detection. The strain gauge factor can reach as high as 939 when it was stretched to 36%, and the minimum resolution for force detection is 0.02 N. The sensing characteristic of the sensors with different filling fraction and thickness were analyzed from the microscopic point of view. Multidimensional sensing abilities of flexible sensor have greatly expands its applications. We experimentally verified the Ag/PDMS based sensor in human body dynamic monitoring and sound detecting in real-time, which has shown great potential in motion recognition, haptic perception and soft robotics. [ABSTRACT FROM AUTHOR]

Published

2020

42. Culturally Responsive Mathematics Teaching: A Research Synthesis.

Author

Abdulrahim, Naheed A. and Orosco, Michael J.

Subjects

CULTURALLY relevant education, STIMULUS synthesis, TEACHERS' strikes & lockouts, EMPIRICAL research, CLASSROOM environment

Abstract

The purpose of this article is to synthesize empirical research conducted on culturally responsive mathematics teaching (CRMT) with culturally and linguistically diverse (CLD) learners. Thirty-five published studies between 1993 and 2018 met the criteria for inclusion in this review. Criteria included: (a) the study was published in a peer-reviewed journal, (b) the study was conducted within a K-12 U.S. public school context with practicing teachers, (c) culturally responsive teaching or culturally relevant pedagogy was part of the study's theoretical framework, and (d) information about methods was reported. Findings reveal the value of CRMT in fostering equitable and inclusive mathematics learning environments. More research on CRMT with CLD students in school settings is warranted. Implications for policy, practice, and research are discussed. [ABSTRACT FROM AUTHOR]

Published

2020

43. Role of Astrocytic Dysfunction in the Pathogenesis of Parkinson's Disease Animal Models from a Molecular Signaling Perspective.

Author

Udovin, Lucas, Quarracino, Cecilia, Herrera, María I., Capani, Francisco, Otero-Losada, Matilde, and Perez-Lloret, Santiago

Subjects

*PARKINSON'S disease, *ANIMAL disease models, *PATHOLOGY, *TRPV cation channels, *NEUROGLIA, *STIMULUS synthesis, *WNT genes

Abstract

Despite the fact that astrocytes are the most abundant glial cells, critical for brain function, few studies have dealt with their possible role in neurodegenerative diseases like Parkinson's disease (PD). This article explores relevant evidence on the involvement of astrocytes in experimental PD neurodegeneration from a molecular signaling perspective. For a long time, astrocytic proliferation was merely considered a byproduct of neuroinflammation, but by the time being, it is clear that astrocytic dysfunction plays a far more important role in PD pathophysiology. Indeed, ongoing experimental evidence suggests the importance of astrocytes and dopaminergic neurons' cross-linking signaling pathways. The Wnt-1 (wingless-type MMTV integration site family, member 1) pathway regulates several processes including neuron survival, synapse plasticity, and neurogenesis. In PD animal models, Frizzled (Fzd) neuronal receptors' activation by the Wnt-1 normally released by astrocytes following injuries leads to β-catenin-dependent gene expression, favoring neuron survival and viability. The transient receptor potential vanilloid 1 (TRPV1) capsaicin receptor also participates in experimental PD genesis. Activation of astrocyte TRPV1 receptors by noxious stimuli results in reduced inflammatory response and increased ciliary neurotrophic factor (CNTF) synthesis, which enhances neuronal survival and differentiation. Another major pathway involves IκB kinase (IKK) downregulation by ARL6ip5 (ADP-ribosylation-like factor 6 interacting protein 5, encoded by the cell differentiation-associated, JWA, gene). Typically, IKK releases the proinflammatory NF-κB (nuclear factor kappa-light-chain-enhancer of activated B cells) molecule from its inhibitor. Therefore, by downregulating NF-κB inhibitor, ARL6ip5 promotes an anti-inflammatory response. The evidence provided by neurotoxin-induced PD animal models guarantees further research on the neuroprotective potential of normalizing astrocyte function in PD. [ABSTRACT FROM AUTHOR]

Published

2020

44. Applying switchable Cas9 variants to in vivo gene editing for therapeutic applications.

Author

Mills, Emily M., Barlow, Victoria L., Luk, Louis Y. P., and Tsai, Yu-Hsuan

Subjects

GENOME editing, GENE therapy, ENDONUCLEASES, STIMULUS synthesis

Abstract

Progress in targeted gene editing by programmable endonucleases has paved the way for their use in gene therapy. Particularly, Cas9 is an endonuclease with high activity and flexibility, rendering it an attractive option for therapeutic applications in clinical settings. Many disease-causing mutations could potentially be corrected by this versatile new technology. In addition, recently developed switchable Cas9 variants, whose activity can be controlled by an external stimulus, provide an extra level of spatiotemporal control on gene editing and are particularly desirable for certain applications. Here, we discuss the considerations and difficulties for implementing Cas9 to in vivo gene therapy. We put particular emphasis on how switchable Cas9 variants may resolve some of these barriers and advance gene therapy in the clinical setting. [ABSTRACT FROM AUTHOR]

Published

2020

45. Synthesis and characterization of stimuli responsive micelles from chitosan, starch, and alginate based on graft copolymers with polylactide-poly(methacrylic acid) and polylactide- poly[2(dimethyl amino)ethyl methacrylate] side chains.

Author

Pourjavadi, Ali, Kashani, Fatemeh Bolori, Doroudian, Mohadeseh, and Amin, Shiva Sadat

Subjects

*GRAFT copolymers, *METHACRYLIC acid, *MICELLES, *STIMULUS synthesis, *CRITICAL micelle concentration, *ALGINIC acid

Abstract

The primary objective of this paper is to serve as a comprehensive study on the synthesis of stimulus-sensitive micelles based on polysaccharides. In pursuit of this goal, functionalization with polylactide (PLA) was used as the water-resistance part and poly[2(Dimethyl amino)ethyl methacrylate] (PDMAEMA) or poly(methacrylic acid) (PMA) were employed as the stimulus-sensitive part to create micelles with a simple structure. FTIR and 1HNMR measurements were utilized to characterize the functionalized polysaccharides. Fluorescence spectroscopy was used to determine the critical micelle concentration. The average micelles' diameter, as observed in SEM and TEM pictures, ranges from 50 to 200 nm. To gain a better understanding of the potential of theses micelles for delivering drugs in a stimulus-sensitive manner, drug release tests were conducted. The cytotoxicity of these nano-vehicles was examined using the MTT assay. Utilizing MCF7 cells stained with DAPI and Mito Tracker, cellular uptake studies were also investigated. The results indicate that the behavior of the micelles is nearly same even though they used polysaccharides with various charge densities or different stimulus sensitive polymers. This approach, therefore, demonstrates that a broad range of micelle production is possible by employing diverse polysaccharides functionalized with PLA and polymethacrylates. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2023

46. Synthesis of Polycarbosilane, Polymer Impregnation Pyrolysis-based C/SiC Composites and Prototype Development.

Author

Kumar, Suresh, Mishra, Raghwesh, Ranjan, Ashok, Manocha, L. M., and Prasad, N. Eswara

Subjects

STIMULUS synthesis, HEAT resistant materials, THERMAL diffusivity, LAMINATED materials, POLYMERS, THERMAL expansion

Abstract

Due to some extraordinary thermo-mechanical properties, silicon carbide is considered one of the best materials used for high temperature applications in defence and aerospace. Polycarbosilane (PCS) has been widely used as SiC precursor. This paper describes the research and development work undertaken to establish the technologies for synthesis and characterisation of PCS, fabrication process and characterisation of Carbon fibre reinforced SiC matrix (C/SiC) composite laminates and shaped articles. The molecular weight and softening point of the PCS was found to be 1400-1800 Mn and 140-150 °C respectively. Flexural stress of the unidirectional (UD) C/SiC composites and bidirectional (2D) C/SiC composites was found to be 400-450 MPa and 300-350 MPa respectively. Tensile stress of the 2D C/SiC composite was found to be around 200 MPa. Coefficient of thermal expansion and thermal diffusivity of the 2D C/SiC composites at RT- 1000 °C were found to be in range of 0.3-2.2×10-6/°C and 32-6 mm2/s respectively. The fabrication process developed for the UD and 2D C/SiC composites using the indigenous PCS has been also demonstrated to fabricate typical size divergent rocket nozzle and hot structure. Fabrication process of the SiC fibre has also been described in brief. [ABSTRACT FROM AUTHOR]

Published

2019

47. Leukocyte transcriptional signatures dependent on LPS dosage in human endotoxemia.

Author

Khan, Hina N., Perlee, Desiree, Schoenmaker, Lieke, der Meer, Anne‐Jan, Franitza, Marek, Toliat, Mohammad Reza, Nürnberg, Peter, Zwinderman, Aeilko H., der Poll, Tom, and Scicluna, Brendon P.

Subjects

LEUCOCYTES, LYMPHOCYTE count, DRUG dosage, BINDING sites, INTRAVENOUS injections, STIMULUS synthesis

Abstract

The host immune response is characterized by a complex interplay of signal‐specific cellular transcriptional responses. The magnitude of the immune response is dependent on the strength of the external stimulus. Knowledge on leukocyte transcriptional responses altered in response to different stimulus dosages in man is lacking. Here, we sought to identify leukocyte transcriptional signatures dependent on LPS dose in humans. Healthy human volunteers were administered 1 ng/kg (n = 7), 2 ng/kg (n = 6), or 4 ng/kg (n = 7) LPS intravenously. Blood was collected before (pre‐LPS) and 4 h after LPS administration. Total RNA was analyzed by microarrays and generalized linear models. Pathway analysis was performed by using Ingenuity pathway analysis. Leukocyte transcriptomes altered per LPS dosage were predominantly shared, with 47% common signatures relative to pre‐LPS. A univariate linear model identified a set of 3736 genes that exhibited a dependency on differing LPS dosages. Neutrophil, monocyte, and lymphocyte counts explained 38.9% of the variance in the LPS dose‐dependent gene set. A multivariate linear model including leukocyte composition delineated a set of 295 genes with a dependency on LPS dose. Evaluation of the 295 gene signature in patients with sepsis due to abdominal infections showed significant correlations. Promoter regions of the LPS dose gene set were enriched for YY1, EGR1, ELK1, GABPA, KLF4, and REL transcription factor binding sites. Intravenous injection of 1, 2, or 4 ng/kg LPS was accompanied by both shared and distinct leukocyte transcriptional alterations. These data may assist in assessing the severity of the insult in patients with abdominal sepsis. [ABSTRACT FROM AUTHOR]

Published

2019

48. Treatment of facial aging with calcium hydroxyapatite - filling and lifting concept.

Author

Gonzaga da Cunha, Marisa, Gonzaga da Cunha, Ana Lúcia, Gonzaga, Meire, Luciano da Veiga, Glaucia, Aguiar Alves, Beatriz da Costa, A. Fonseca, Fernando Luiz, and Machado Filho, Carlos A.

Subjects

*FACIAL care, *STIMULUS synthesis, *HYDROXYAPATITE, *AGING, *CALCIUM, *NECK muscles, *SCALP

Abstract

The face is organized in five different layers (skin, muscles, supportive ligaments, fat pads and bones), which are continuous and interconnected with each other from the scalp to the neck. As a result of aging, changes occur in all its tissues and structures, triggering a cascade of effects in the adjacent areas. Actually, the more it is known about the loss of volume, the better it is to establish the target spots for volume replacement, with consequent more natural- and harmonious-looking outcomes. However, the skin is the outer envelope of the face, which, in the natural process of aging, has a lower capacity to completely accommodate any underlying volume loss or displacement. The result is the formation of creases and folds due to skin sagging. To describe the effects of the injection of calcium hydroxyapatite (CaHA) targeting two objectives at the same time: the restoration of volume loss to compensate the changes in the tridimensional structure and the improvement in skin texture caused by the stimulus to collagen synthesis, thus reducing the sagging of soft tissues envelope. Owing to the mechanism of action of CaHA, its application can be done in two differentiated and little invasive ways so that these objectives can be reached simultaneously. This technique can provide safe, natural and long-lasting rejuvenating effects. [ABSTRACT FROM AUTHOR]

Published

2019

49. Hydrophilic and salt responsive polymers promote depletion aggregation of bacteria.

Author

Nazeer, Nauman and Ahmed, Marya

Subjects

*POLYMERS, *STIMULUS synthesis, *PANTOTHENIC acid, *MOLECULAR weights, *SMART materials

Abstract

• Biomimetic vitamin B5 analogous polymers by free radical polymerization. • Poly(B5AMA) of different sizes and shapes produced show salt responsive behavior. • Poly(B5AMA) Poly(B5AMA) promote bacterial aggregation by depletion aggregation mechanism. • Poly(B5AMA) are non-toxic to human cell lines. Stimuli responsive, smart materials are extensively used as drug delivery carriers, antifouling surfaces, and as sensing and actuation devices. Among these materials; hydrophilic, neutral and biocompatible polymers are especially interesting for their strong water absorption properties, which makes them useful for a variety of applications in biotechnology and biomedicines. One example of neutral, hydrophilic and stimuli responsive polymer is poly(ethylene glycol) (PEG), which exhibits excellent antifouling and salt-responsive properties in solution. Herein, we present the synthesis and stimuli responsive properties of PEG-like hydrophilic polymers, and the study of their antibacterial and antifouling properties. The synthesis of novel hydrophilic vitamin B5 analogous polymers, namely poly(B5AMA), of different molecular weights and cross-linking densities is achieved by free radical polymerization method. The neutral polymers of different sizes and cross-linking densities prepared are then evaluated for their salt-responsive, antifouling and biocompatible properties in vitro. [ABSTRACT FROM AUTHOR]

Published

2019

50. New insights into the roles of the FOXO3 and P27Kip1 genes in signaling pathways.

Author

Mayahi, Sabah, Golalipour, Masood, Yamchi, Ahad, Jhingan, Gagan Deep, and Shahbazi, Majid

Subjects

*BRCA genes, *FORKHEAD transcription factors, *CELL cycle, *CELL growth, *CELL proliferation, *GENES, *STIMULUS synthesis, *GENE transfection

Abstract

Background: The forkhead box O3 (FOXO3) and p27Kip1 are two important genes in breast cancer progression. In the present study we analyzed the effect of simultaneous FOXO3 silencing and p27Kip1 activation on breast cancer cell survival and the potential targets of these changes in cancer molecular pathways. Materials and methods: The present study involved the cloning of FOXO3a shRNA and p27Kip1 genes under the control of the bidirectional survivin promoter to down- and up-regulate FOXO3 and p27Kip1 genes, respectively. After transfection of the recombinant expression vector into the breast cancer cell line, the inhibition of cell growth was assessed by MTS and flow cytometry assays. Following the extraction of total mRNA and protein, the expression of target genes was evaluated by qPCR and Western blotting in both treated and untreated cell lines. Then, the downstream protein responses were examined by 2 D electrophoresis. The differentially expressed proteins were also identified by mass spectrometry. Results: Rates of cell proliferation were significantly inhibited in the transfected cell line 72 h post-transfection. Proteomic profiling of the cell line resulted in the identification of seven novel protein markers in breast cancer responsive to these changes in expression of FOXO3 and p27Kip1. The changes in expression of these markers suggested that certain signaling pathways contribute to the development of breast cancer. Conclusion: Simultaneous silencing of FOXO3 and activation of p27Kip1 in MDA-MB-231 cells caused alterations in the expression level of several genes involved in apoptosis, cell proliferation, cell cycle control, tissue invasion, drug resistance, and metastasis. It seems that the identified genes might serve as useful biomarkers for breast cancer. [ABSTRACT FROM AUTHOR]

Published

2019