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1. Data-driven discovery of a heat flux closure for electrostatic plasma phenomena

Author

Ingelsten, Emil R., McGrae-Menge, Madox C., Alves, E. Paulo, and Pusztai, Istvan

Subjects
Physics - Plasma Physics
Abstract

Progress in understanding multi-scale collisionless plasma phenomena requires employing tools which balance computational efficiency and physics fidelity. Collisionless fluid models are able to resolve spatio-temporal scales that are unfeasible with fully kinetic models. However, constructing such models requires truncating the infinite hierarchy of moment equations and supplying an appropriate closure to approximate the unresolved physics. Data-driven methods have recently begun to see increased application to this end, enabling a systematic approach to constructing closures. Here, we utilise sparse regression to search for heat flux closures for one-dimensional electrostatic plasma phenomena. We examine OSIRIS particle-in-cell simulation data of Landau-damped Langmuir waves and two-stream instabilities. Sparse regression consistently identifies six terms as physically relevant, together regularly accounting for more than 95% of the variation in the heat flux. We further quantify the relative importance of these terms under various circumstances and examine their dependence on parameters such as thermal speed and growth/damping rate. The results are discussed in the context of previously known collisionless closures and linear collisionless theory.

Published
2024

2. Implementation of a Mesh refinement algorithm into the quasi-static PIC code QuickPIC

Author

Su, Q., Li, F., An, W., Decyk, V., Zhao, Y., Hildebrand, L., Dalichaouch, T. N., Zhou, S., Alves, E. P., Almgren, A. S., and Mori, W. B.

Subjects
Physics - Plasma Physics, Physics - Computational Physics
Abstract

Plasma-based acceleration (PBA) has emerged as a promising candidate for the accelerator technology used to build a future linear collider and/or an advanced light source. In PBA, a trailing or witness particle beam is accelerated in the plasma wave wakefield (WF) created by a laser or particle beam driver. The distance over which the drive beam evolves is several orders of magnitude larger than the wake wavelength. This large disparity in length scales is amenable to the quasi-static approach. Three-dimensional (3D), quasi-static (QS), particle-in-cell (PIC) codes, e.g., QuickPIC, have been shown to provide high fidelity simulation capability with 2-4 orders of magnitude speedup over 3D fully explicit PIC codes. We describe a mesh refinement scheme that has been implemented into the 3D QS PIC code, QuickPIC. We use a very fine (high) resolution in a small spatial region that includes the witness beam and progressively coarser resolutions in the rest of the simulation domain. A fast multigrid Poisson solver has been implemented for the field solve on the refined meshes and a Fast Fourier Transform (FFT) based Poisson solver is used for the coarse mesh. The code has been parallelized with both MPI and OpenMP, and the parallel scalability has also been improved by using pipelining. A preliminary adaptive mesh refinement technique is described to optimize the computational time for simulations with an evolving witness beam size. Several test problems are used to verify that the mesh refinement algorithm provides accurate results. The results are also compared to highly resolved simulations with near azimuthal symmetry using a new hybrid QS PIC code QPAD that uses a PIC description in the coordinates ($r$, $ct-z$) and a gridless description in the azimuthal angle, $\phi$.

Published
2024

4. Efficient generation and amplification of intense vortex and vector laser pulses via strongly coupled stimulated Brillouin scattering in plasmas

Author

Wu, Yipeng, Zhang, Chaojie, Nie, Zan, Sinclair, Mitchell, Farrell, Audrey, Marsh, Kenneth A, Alves, E. Paulo, Tsung, Frank, Mori, Warren B., and Joshi, Chan

Subjects
Physics - Plasma Physics, Physics - Optics
Abstract

The past decade has seen tremendous progress in the production and utilization of vortex and vector laser pulses. Although both are considered as structured light beams, the vortex lasers have helical phase fronts and phase singularities, while the vector lasers have spatially variable polarization states and polarization singularities. In contrast to the vortex pulses that carry orbital angular momentum (OAM), the vector laser pulses have a complex spin angular momentum (SAM) and OAM coupling. Despite many potential applications enabled by such pulses, the generation of high-power/-intensity vortex and vector beams remains challenging. Here, we demonstrate using theory and three-dimensional simulations that the strongly-coupled stimulated Brillouin scattering (SC-SBS) process in plasmas can be used as a promising amplification technique with up to 65% energy transfer efficiency from the pump beam to the seed beam for both vortex and vector pulses. We also show that SC-SBS is strongly polarization-dependent in plasmas, enabling an all-optical polarization control of the amplified seed beam. Additionally, the interaction of such structured lasers with plasmas leads to various angular momentum couplings and decouplings that produce intense new light structures with controllable OAM and SAM. This scheme paves the way for novel optical devices such as plasma-based amplifiers and light field manipulators.

Published
2023

6. Mosquito salivary apyrase regulates blood meal hemostasis and facilitates malaria parasite transmission

Author

Pala, Zarna Rajeshkumar, Alves e Silva, Thiago Luiz, Minai, Mahnaz, Crews, Benjamin, Patino-Martinez, Eduardo, Carmona-Rivera, Carmelo, Valenzuela Leon, Paola Carolina, Martin-Martin, Ines, Flores-Garcia, Yevel, Cachau, Raul E., Muslinkina, Liya, Gittis, Apostolos G., Srivastava, Naman, Garboczi, David N., Alves, Derron A., Kaplan, Mariana J., Fischer, Elizabeth, Calvo, Eric, and Vega-Rodriguez, Joel

Published
2024
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9. Mosquito salivary apyrase regulates blood meal hemostasis and facilitates malaria parasite transmission

Author

Zarna Rajeshkumar Pala, Thiago Luiz Alves e Silva, Mahnaz Minai, Benjamin Crews, Eduardo Patino-Martinez, Carmelo Carmona-Rivera, Paola Carolina Valenzuela Leon, Ines Martin-Martin, Yevel Flores-Garcia, Raul E. Cachau, Liya Muslinkina, Apostolos G. Gittis, Naman Srivastava, David N. Garboczi, Derron A. Alves, Mariana J. Kaplan, Elizabeth Fischer, Eric Calvo, and Joel Vega-Rodriguez

Subjects
Science
Abstract

Abstract The evolution of hematophagy involves a series of adaptations that allow blood-feeding insects to access and consume blood efficiently while managing and circumventing the host’s hemostatic and immune responses. Mosquito, and other insects, utilize salivary proteins to regulate these responses at the bite site during and after blood feeding. We investigated the function of Anopheles gambiae salivary apyrase (AgApyrase) in regulating hemostasis in the mosquito blood meal and in Plasmodium transmission. Our results demonstrate that salivary apyrase, a known inhibitor of platelet aggregation, interacts with and activates tissue plasminogen activator, facilitating the conversion of plasminogen to plasmin, a human protease that degrades fibrin and facilitates Plasmodium transmission. We show that mosquitoes ingest a substantial amount of apyrase during blood feeding, which reduces coagulation in the blood meal by enhancing fibrin degradation and inhibiting platelet aggregation. AgApyrase significantly enhanced Plasmodium infection in the mosquito midgut, whereas AgApyrase immunization inhibited Plasmodium mosquito infection and sporozoite transmission. This study highlights a pivotal role for mosquito salivary apyrase for regulation of hemostasis in the mosquito blood meal and for Plasmodium transmission to mosquitoes and to the mammalian host, underscoring the potential for strategies to prevent malaria transmission.

Published
2024
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10. A Listed Public Heritage or Shopping Mall?

Author

Renato Alves e Silva

Subjects
Modern Movement, built heritage, listed building, Preservation, Adaptive Reuse, Architecture, NA1-9428
Abstract

The recognition of 20th-century architecture in Brazil is still a field restricted to specialists, which makes the remaining assets of this collection susceptible to defacement or even destruction. The designation of the Lagoa Rowing Stadium as a historic landmark by the city of Rio de Janeiro gives us the possibility of reflecting on the existing dispute between the public interest, protected by the listing in 2005, versus the financial voracity of private groups toward the asset in question. Grotesque defacement was undertaken starting in 2003 with the approval of the State and city administrations, including the intent to turn the sports complex into a business complex, thereby distorting the original proposal from the 1950s.

Published
2024
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11. The Importance of Dimensional Traceability in Microfluidic Systems

Author

Elsa Batista, João Alves e Sousa, Fernanda Saraiva, André Lopes, Vania Silverio, Rui F. Martins, and Luis Martins

Subjects
dimensional traceability, microfluidic, leakage, Electronic computers. Computer science, QA75.5-76.95, Applied mathematics. Quantitative methods, T57-57.97
Abstract

Dimensional measurements are fundamental in microfluidic device manufacturing and performance. The main focus of this study is the measurement of the connection port sizes in microfluidic devices and components and, accordingly, the possible existence of fluid leaks determined using the flow rate error. The sizes associated with three different microfluidic systems were determined using laser interferometry and through an optical measuring instrument, with metrological traceability to national length standards. It was possible to infer the method with the greatest accuracy and lowest measurement uncertainty for characterizing this kind of system. In conclusion, the results of this work directly address the current lack of dimensions measuring methods of microfluidic components by providing a comprehensive comparison of different protocols, ultimately suggesting a preferred option for immediate application within the microfluidic industry.

Published
2024
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12. Treatment of Canine Type 1 Diabetes Mellitus: The Long Road from Twice Daily Insulin Injection towards Long-Lasting Cell-Based Therapy

Author

Flavia C. M. Oliveira, Annemarie W. Y. Voorbij, Elisa C. Pereira, Leonor M. M. Alves e Almeida, Geanne R. Moraes, Joana T. De Oliveira, Boyd H. T. Gouw, Sabrina A. M. Legatti, Hans S. Kooistra, Bart Spee, Andre M. C. Meneses, and Louis C. Penning

Subjects
dogs, insulin, pancreas, organoids, regenerative medicine, Cytology, QH573-671
Abstract

For over 150 years, researchers have studied the (patho)physiology of the endocrine pancreas and devised treatment options for diabetes mellitus (DM). However, no cure has been developed so far. In dogs, diabetes mellitus type 1 (T1DM) is the most common presentation. Treatment consists of twice daily insulin injections, monitored by spatial blood glucose measurements. Even though dogs were instrumental in the discovery of insulin and islet transplantations, the treatment in diabetic dogs has remained unchanged for decades. Providing twice daily insulin injections is demanding for both owners and dogs and may result in hypoglycaemic events, creating the need for new treatment strategies. Novel regenerative medicine-based tools, such as improved β-cell culture protocols and artificial devices, have sparked hope for a cure. In human medicine, emerging technologies such as the transplantation of insulin-producing β-cells, generated by stem cell differentiation, with or without an encapsulation device, are currently tested in phase I/II clinical trials. As the pathogenesis of T1DM is remarkably similar between humans and dogs, novel treatment methods could be implemented in canine medicine. This review briefly summarises the physiology of the canine endocrine pancreas and the pathophysiology of canine DM before exploring current and possible future treatment options for canine DM.

Published
2024
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14. Seismic assessment of sediment siltation in a tropical run-of-river hydroelectric reservoir

Author

Gabriel Antonio Rodrigues Velloso Cordeiro, Marco Ianniruberto, Henrique Llacer Roig, Osmair Santos Ferreira, Diogo Olivetti, Diego Raphael Alves e Santos, and Jean-Michel Martinez

Subjects
Bathymetry, Remote sensing, Run-of-river reservoir, Amazon basin, Environmental impact, Environmental sciences, GE1-350
Abstract

The Madeira River presents higher sediment flux in relation to others Amazonian rivers, contributing approximately 45 % of the sediment load to the entire Amazon Basin, that is also the region with the largest untapped hydroelectric potential. The implementation of Jirau and Santo Antonio Dams on Madeira River in Brazil created large run-of-the-river hydroelectric complex, and assessment of silting became an important issue to estimate the actual impact on sediment connectivity and on operation of the reservoir. This paper presents data of the morphology and stratigraphy of a portion of Jirau Reservoir, between the Jirau Rapids and the levees close to the Jirau Dam, in the period of February 8th to February 15th, 2022. The data were obtained by Multibeam Echo Sounder and High-Resolution Seismic Reflection. The results obtained by analysing reservoir bed morphology helped identify regions prone to siltation. The run-of-the-river Jirau Reservoir seems to have had minimal sediment retention since start of operations, as observed in seismic profiles. The suspended sediment concentration map of the study area collected for the year 2021, obtained within a parallel study based on satellite images, showed that the distribution on the surface of the reservoir correlates with the geophysical results, supporting our findings and suggesting the need for joint utilization of geophysical and remote sensing techniques.

Published
2024
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15. CRISPR-based oligo recombineering prioritizes apicomplexan cysteines for drug discovery.

Author

Benns, H, Storch, M, Falco, J, Fisher, F, Tamaki, F, Alves, E, Wincott, C, Milne, R, Wiedemar, N, Craven, G, Baragaña, B, Wyllie, S, Baum, J, Baldwin, G, Weerapana, E, Tate, E, and Child, M

Subjects
Toxoplasma, Cysteine, Drug Discovery, Amino Acid Sequence, Protein Processing, Post-Translational
Abstract

Nucleophilic amino acids are important in covalent drug development yet underutilized as anti-microbial targets. Chemoproteomic technologies have been developed to mine chemically accessible residues via their intrinsic reactivity towards electrophilic probes but cannot discern which chemically reactive sites contribute to protein function and should therefore be prioritized for drug discovery. To address this, we have developed a CRISPR-based oligo recombineering (CORe) platform to support the rapid identification, functional prioritization and rational targeting of chemically reactive sites in haploid systems. Our approach couples protein sequence and function with biological fitness of live cells. Here we profile the electrophile sensitivity of proteinogenic cysteines in the eukaryotic pathogen Toxoplasma gondii and prioritize functional sites using CORe. Electrophile-sensitive cysteines decorating the ribosome were found to be critical for parasite growth, with target-based screening identifying a parasite-selective anti-malarial lead molecule and validating the apicomplexan translation machinery as a target for ongoing covalent ligand development.

Published
2022

16. MAPEAMENTO, IDENTIFICAÇÃO BOTÂNICA E CARACTERIZAÇÃO PLÁSTICA DAS ÁRVORES DO CAMPUS DA UFRRJ QUADRA DOS ALOJAMENTOS

Author

FABRÍCIO ALVES E. DE MOURA, RENATA TEIXEIRA DE OLIVEIRA, LUÍS MAURO S. MAGALHÃES, and JOSÉ AGUIAR SOBRINHO

Subjects
Forestry, SD1-669.5
Abstract

RESUMO Este trabalho visa a elaboração de um catálogo com a localização e identificação das árvores presentes no campus da UFRRJ, bem como estudo das principais características plásticas destas, de modo a permitir uma maior percepção do componente arbóreo pela comunidade universitária. Foi realizado percorrendo-se a quadra dos alojamentos, registrando a localização de cada indivíduo observado, suas características plásticas e coletando-se o material botânico para posterior identificação em herbário. Foram observadas 212 árvores na área de estudo, pertencentes a 37 espécies. Apesar desta diversidade, três espécies apresentam quase a metade do número de árvores da área e dois tipos de estrutura somam 75% dos indivíduos. Sugere-se a recomposição de uma parte da quadra, com o plantio de árvores de maneira mais integrada e com características plásticas que permitam uma unidade cênica.

Published
2024

18. Leishmania genetic exchange is mediated by IgM natural antibodies

Author

Serafim, Tiago D., Iniguez, Eva, Barletta, Ana Beatriz F., Cecilio, Pedro, Doehl, Johannes S. P., Short, Mara, Lack, Justin, Nair, Vinod, Disotuar, Maria, Wilson, Timothy, Coutinho-Abreu, Iliano V., Meneses, Claudio, Andersen, John, Alves E Silva, Thiago Luiz, Oliveira, Fabiano, Vega-Rodriguez, Joel, Barillas-Mury, Carolina, Ribeiro, José M. C., Beverley, Stephen M., Kamhawi, Shaden, and Valenzuela, Jesus G.

Published
2023
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21. Sentinel-2 MSI image time series reveal hydrological and geomorphological control of the sedimentation processes in an Amazonian hydropower dam

Author

Diego R. Alves e Santos, Jean-Michel Martinez, Diogo Olivetti, André Zumak, David Guimarães, Keila Aniceto, Ednaldo Severo, Osmair Ferreira, Tristan Harmel, Mauricio Cordeiro, Naziano Fillizola, Bruna Sell, Daniel Fernandes, Camila Souto, and Henrique Roig

Subjects
Inland water, Hydropower, Madeira River, Run-of-the-river, Water color, Siltation, Physical geography, GB3-5030, Environmental sciences, GE1-350
Abstract

Monitoring sediment transport in a run-of-river hydropower dam was investigated to detect and quantify the siltation processes using Sentinel-2/MSI satellite images. We developed a method allowing us to assess the fate of sediment discharge in reservoirs and to map the locations of eroding and silting stream cross sections. This monitoring was achieved by retrieving the seasonal and interannual variation in suspended sediment concentration (SPM) longitudinally and by developing indices to detect local deviations from the overall SPM trend. A comparison between Sentinel-2 reflectance, processed for atmospheric and glint correction, and field measurements showed fine accuracy for the b8a/b4 band ratio (RMSE = 0.23 sr-1, N = 50) as well as a very good SPM retrieval performance for a wide range of concentrations [10–926 mg/L] with an RMSLE of 0.23 mg/L. SPM trend analysis demonstrated that significant (p

Published
2024
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22. USO DO QUIZ DO INSTAGRAM COMO RECURSO DIDÁTICO NO ENSINO DA ANATOMIA HUMANA

Author

Lima, Letícia Cristina Dias, primary, Fonseca, Victória Cristina Pereira da, additional, Oliveira, Victor Fernandes de, additional, Figueiredo, Pedro Henrique Almeida, additional, Sousa, Rafael Aguiar de, additional, Almeida, André Felipe de Figueiredo, additional, Kangussu, Lucas Miranda, additional, and Silva, Micena Roberta Miranda Alves e, additional

Published
2023
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24. Numerical heating in particle-in-cell simulations with Monte Carlo binary collisions

Author

Alves, E. Paulo, Mori, Warren B., and Fiuza, Frederico

Subjects
Physics - Plasma Physics, Physics - Computational Physics
Abstract

The binary Monte Carlo (MC) collision algorithm is a standard and robust method to include binary Coulomb collision effects in particle-in-cell (PIC) simulations of plasmas. Here, we show that the coupling between PIC and MC algorithms can give rise to (nonphysical) numerical heating of the system, that significantly exceeds that observed when these algorithms operate independently. We argue that this deleterious effect results from an inconsistency between the particle motion associated with MC-collisions and the work performed by the collective electromagnetic field on the PIC grid. This inconsistency manifests as the (artificial) stochastic production of electromagnetic energy, which ultimately heats the plasma particles. The MC-induced numerical heating can significantly impact the evolution of the simulated system for long simulation times ($\gtrsim 10^3$ collision periods, for typical numerical parameters). We describe the source of the MC-induced numerical heating analytically and discuss strategies to minimize it.

Published
2021
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29. Data-driven discovery of reduced plasma physics models from fully-kinetic simulations

Author

Alves, E. Paulo and Fiuza, Frederico

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena, Physics - Computational Physics
Abstract

At the core of some of the most important problems in plasma physics -- from controlled nuclear fusion to the acceleration of cosmic rays -- is the challenge to describe nonlinear, multi-scale plasma dynamics. The development of reduced plasma models that balance between accuracy and complexity is critical to advancing theoretical comprehension and enabling holistic computational descriptions of these problems. Here, we report the data-driven discovery of accurate reduced plasma models, in the form of partial differential equations, directly from first-principles particle-in-cell simulations. We achieve this by using an integral formulation of sparsity-based model-discovery techniques and show that this is crucial to robustly identify the governing equations in the presence of discrete particle noise. We demonstrate the potential of this approach by recovering the fundamental hierarchy of plasma physics models -- from the Vlasov equation to magnetohydrodynamics. Our findings show that this data-driven methodology offers a promising new route to accelerate the development of reduced theoretical models of complex nonlinear plasma phenomena and to design computationally efficient algorithms for multi-scale plasma simulations.

Published
2020
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30. Ion beam modification of magnetic tunnel junctions

Author

Teixeira, B. M. S., Timopheev, A. A., Caçoilo, N., Cuchet, L., Mondaud, J., Childress, J. R., Magalhães, S., Alves, E., and Sobolev, N. A.

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

The impact of 400 keV $Ar^+$ ion irradiation on the magnetic and electrical properties of in-plane magnetized magnetic tunnel junction (MTJ) stacks was investigated by ferromagnetic resonance, vibrating sample magnetometry and current-in-plane tunneling techniques. The irradiation-induced changes of the magnetic anisotropy, coupling energies and tunnel magnetoresistance (TMR) exhibited a correlated dependence on the ion fluence, which allowed us to distinguish between two irradiation regimes. In the low-fluence regime, ${\Phi} < 10^{14} cm^{-2}$, the parameters required for having a functioning MTJ were preserved: the anisotropy of the FeCoB free layer (FL) was weakly modulated following a small decrease in the saturation magnetization $M_S$; the TMR decreased continuously; the interlayer exchange coupling (IEC) and the exchange bias (EB) decreased slightly. In the high-fluence regime, ${\Phi} > 10^{14} cm^{-2}$, the MTJ was rendered inoperative: the modulation of the FL anisotropy was strong, caused by a strong decrease in $M_S$, ascribed to a high degree of interface intermixing between the FL and the Ta capping; the EB and IEC were also lost, likely due to intermixing of the layers composing the synthetic antiferromagnet; and the TMR vanished due to the irradiation-induced deterioration of the MgO barrier and MgO/FeCoB interfaces. We demonstrate that the layers surrounding the FL play a decisive role in determining the trend of the magnetic anisotropy evolution resulting from the irradiation, and that an ion-fluence window exists where such a modulation of magnetic anisotropy can occur, while not losing the TMR or the magnetic configuration of the MTJ., Comment: 19 pages, 11 figures, Supplemental material with 8 pages, 9 figures

Published
2020
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31. Charge and Spin Currents in a Lower-Dimensional Supersymmetric Model in Presence of Vortices

Author

Ferreira, Cristine N., Silva, J. P. S. Alves e, Neto, J. A. Helayel, and Panza, N.

Subjects
High Energy Physics - Theory, Condensed Matter - Materials Science
Abstract

We investigate charge and spin currents that may appear in some materials, considering the possible couplings and the symmetries of a field-theoretical model presented here. We inspect these possible currents in (1+2) dimensions by adopting an N =2 - D=3 supersymmetric framework with a Chern-Simons term and non-minimal couplings as well. We discuss a number of aspects in connection with a vortex configuration that is topologically viable. The new features of our investigation take into account the nature of both the U(1)-symmetry and supersymmetry (SUSY) breakings in presence of the vortex. We focus on aspects of the fermionic sector and their interactions with the currents. In connection with the spectrum of fermions, we also derive the mass gap in terms of the parameters of the the model. Another point we highlight is the role SUSY in our considerations. Once graphene and topological insulator materials are described by a Dirac-like equation, we assume, as a working hypothesis, that SUSY may also have some influence on the properties of these materials. Along this line, it is mandatory to connect the SUSY breakdown to this class of materials. We believe that our discussion could bring some elements for the understanding of this category of lower-dimensional systems., Comment: 20 pages and 5 figures

Published
2020

34. Hypertensive crisis in hospital emergency and urgent care: how to care?

Author

Diniz, Clebiana Alves e Silva, primary, Rocha, Tainan de Andrade, additional, Magalhães, Julia Maria Pacheco Lins, additional, Albuquerque, Nataniele de, additional, Silva, Sâmela Maria de Oliveira, additional, Brito, Poliana Silva de, additional, Meneses, Suzana Maria de Oliveira Costa, additional, Silva, Thaísa Mirella da, additional, Nunes, Eliane dos Santos, additional, and Holanda, Manuelle de Araújo, additional

Published
2023
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35. UTILIZAÇÃO DE NOVAS TECNOLOGIAS NA UNIDADE DE TERAPIA INTENSIVA

Author

FLAVIA DE OLIVEIRA TOSS, ANA, primary, DE TARSO ALVES E SILVA, RONNY, additional, DE FATIMA SOUZA CAPELARIO, ELENICE, additional, TERESA BATISTA DE MOURA, DINARA, additional, FERREIRA DA ROCHA SILVA, LUCEMIR, additional, FONSECA DE ARAÚJO, NATÁLIA, additional, APARECIDA MESQUITA, LILIAN, additional, DE SOUZA LEMOS, JANECLÉA, additional, EDILLAYNE DE ASSUNÇÃO SILVA, MARIA, additional, and DA CONCEIÇÃO MACHADO, KATIA, additional

Published
2023
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36. The heat shock protein Hsc70-3 mediates an anti-apoptotic response critical for Plasmodium evasion of Anopheles gambiae immunity

Author

Thiago Luiz Alves e Silva, Gaspar E. Canepa, Brendan Sweeney, Patricia Hessab Alvarenga, Ming Zhao, Joel Vega-Rodríguez, Alvaro Molina-Cruz, and Carolina Barillas-Mury

Subjects
malaria, Plasmodium falciparum, Anopheles gambiae, mosquito, immune evasion, Pfs47, Microbiology, QR1-502
Abstract

ABSTRACT The mosquito immune system limits Plasmodium infection and malaria transmission. Plasmodium falciparum evades the mosquito defense response by expressing the surface protein P. falciparum P47 (Pfs47) that inhibits midgut epithelial nitration by interacting with the mosquito midgut P47 receptor (P47Rec). However, the mechanism by which P47Rec suppresses caspase-mediated nitration is unknown. Here, we show that epithelial invasion by Pfs47 knockout parasites is followed by an extrusion of cells undergoing caspase-mediated apoptosis, which triggers the release of hemocyte-derived microvesicles (HdMv’s), known to promote complement activation and ookinete lysis. In contrast, invasion by P. falciparum parasites that express Pfs47 accelerates the extrusion of damaged cells and disrupts caspase activation and HdMv release. The Anopheles gambiae heat shock protein 70 cognate 3 (Hsc70-3), the ortholog of Drosophila binding immunoglobulin protein, was identified as a molecular partner of P47Rec. Silencing of Hsc70-3 promotes lysis of Pfs47 wild-type parasites through a caspase S2-dependent mechanism. The interaction of P47Rec activates a Hsc70-3-mediated anti-apoptotic response that prevents caspase activation. The interaction of P47Rec with Hsc70-3 is necessary for P. falciparum to evade the mosquito early immune responses that target the ookinete stage. IMPORTANCE Malaria transmission by Anopheles gambiae mosquitoes is very effective, in part because the parasite expresses a surface protein called Pfs47 that allows it to evade the mosquito immune system. Here we investigate how this protein changes the response of mosquito midgut epithelial cells to invasion by the parasite. Pfs47 is known to interact with P47Rec, a mosquito midgut receptor. We found that Pf47Rec inhibits caspase-mediated apoptosis by interacting with the Hsc70-3. This disrupts nitration of midgut epithelial cells invaded by the parasite and the release of hemocyte-derived microvesicles, which are critical for effective activation of the mosquito complement system that eliminates the parasite.

Published
2023
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40. Nonthermal ion acceleration by the kink instability in nonrelativistic jets

Author

Alves, E. Paulo, Zrake, Jonathan, and Fiuza, Frederico

Subjects
Physics - Plasma Physics, Astrophysics - High Energy Astrophysical Phenomena, Physics - Space Physics
Abstract

We investigate the self-consistent particle acceleration physics associated with the development of the kink instability (KI) in nonrelativistic, electron-ion plasma jets. Using 3D fully kinetic particle-in-cell (PIC) simulations, we show that the KI efficiently converts the initial toroidal magnetic field energy into energetic ions. The accelerated ions form a nonthermal power-law tail in the energy spectrum, containing $\simeq10\%$ of the initial magnetic field energy, and with the maximum ion energy extending to the confinement energy of the jet. We find that the ions are efficiently accelerated by the concerted action of the motional electric field and highly tangled magnetic field that develop in the nonlinear phase of the KI: fast curvature drift motions of ions across magnetic field lines enable their acceleration along the electric field. We further investigate the role of Coulomb collisions on the ion acceleration efficiency, and identify the collisional threshold above which nonthermal ion acceleration is suppressed. Our results reveal how energetic ions may result from unstable nonrelativistic plasma jets in space and astrophysics, and provide constraints on the plasma conditions required to reproduce this acceleration mechanism in laboratory experiments.

Published
2019
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41. structural and optical properties of InxGa1-xN/GaN epilayers grown on a miscut sapphire substrate

Author

Ajia, I. A., Miranda, S. M. C., Franco, N., Alves, E., Lorenz, K., O'Donnell, K. P., and Roqan, I. S.

Subjects
Condensed Matter - Materials Science
Abstract

We report on structural and optical properties of InGaN/GaN thin films, with a 0.46o misalignment between the surface and the (0001) plane, which were grown by metal-organic chemical vapor deposition (MOCVD) on 0.34o miscut sapphire substrates. X-ray diffraction and X-ray reflectivity were used to precisely measure the degree of miscut. Reciprocal space mapping was employed to determine the lattice parameters and strain state of the InGaN layers. Rutherford backscattering spectrometry with channeling was employed to measure their composition and crystalline quality with depth resolution. No strain anisotropy was observed. Polarization-dependent photoluminescence spectroscopy was carried out to examine the effect of the miscut on the bandedge emission of the epilayer.

Published
2019
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42. Influência do treinamento pliométrico na potência muscular de atletas de muay thai: uma revisão sistemática

Author

Luiz Henrique Oliveira dos Santos, Lucas Fernando Alves e Silva, Lorrane Rocha da Cunha, Reginaldo Souza Fayal Junior, Felipe Vinícius Costa Cardoso, Everton Vinicius Souza do Nascimento, Diemerson Willy da Silva Pamplona, and Fernando Alípio Rollo Neto

Subjects
muay thai, treinamento pliométrico, potência muscular, atletas, Sports medicine, RC1200-1245
Abstract

Introdução: A capacidade de gerar o máximo de força possível em golpes com velocidade, pode ser definida como a potência muscular exigida no Muay Thai, onde os atletas precisam realizar golpes que causem o máximo de dano possível no adversário. O treinamento pliométrico é caracterizado por movimentos balísticos, que podem ter seus benefícios transferidos para atletas de Muay Thai que buscam o alto desempenho, com movimentos de saltos com ou sem carga extra, desenvolvendo maior capacidade de potência muscular, entre outras adaptações funcionais. Objetivo: Portanto o objetivo desta revisão é apresentar os efeitos do treinamento pliométrico no desenvolvimento da força e potência de atletas de Muay Thai. Materiais e Métodos: Este estudo foi pautado em uma revisão sistemática realizada no período compreendido entre setembro a março de 2022, utilizando as bases de dados CAPES, SciELO, PUBMED, Google Acadêmico, LILACS e MEDLINE. Resultados: Dentre os 136 encontrados nas bases de dados, 3 foram selecionados para compor esta revisão. Discussão: o treinamento pliométrico apresenta resultados positivos nas variáveis de potência muscular, força e flexibilidade em atletas de Muay Thai. Conclusão: A inclusão do treinamento pliométrico no planejamento da preparação física de atletas de Muay Thai mostra-se eficiente no aprimoramento da potência muscular de membros superiores e inferiores, força e flexibilidade.

Published
2023

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