Your search keyword '"P. Parra"' showing total 5 results

1. Immunoprecipitation and Characterization of Membrane Protein Complexes from Yeast

Author

Parra-Belky, Karlett, McCulloch, Kathryn, and Wick, Nicole

Abstract

In this undergraduate biochemistry laboratory experiment, the vacuolar ATPase protein complex is purified from yeast cell extracts by doing immunoprecipitations under nondenaturing conditions. Immunoprecipitations are performed using monoclonal antibodies to facilitate data interpretation, and subunits are separated on the basis of their molecular size by SDS-PAGE. Both integral membrane and peripheral subunits are detected in Coomassie Blue-stained gels, and the identity of several subunits are confirmed by Western blots. Western blots serve to illustrate reproducibility and authenticity of the results and help students understand that they could use immunoblotting to detect subunits that are not visualized by Coomassie stain. The molecular mass of the subunits is estimated by their migration relative to molecular marker proteins in the same gel and used to estimate the size of the entire complex. Just like in biochemistry research, students learn to integrate several techniques to solve the subunit composition of a protein complex. These experiments are an alternative to classical protein purification techniques and can be adapted to study most protein complexes composed of membrane-bound and peripheral subunits from yeast. Instructors can use this approach to teaching proteomics and introduce students to systems biology. Because numerous yeast proteins are epitope tagged, instructors could use commercially available antibodies to study a protein complex of interest.

Published

2005

2. The first widespread solar energetic particle event observed by Solar Orbiter on 2020 November 29

Author

Kollhoff, A., Kouloumvakos, A., Lario, D., Dresing, N., Gomez-Herrero, R., Rodriguez-Garcia, L., Malandraki, O. E., Richardson, I. G., Posner, A., Klein, K-L, Pacheco, D., Klassen, A., Heber, B., Cohen, C. M. S., Laitinen, T., Cernuda, I, Dalla, S., Lara, F. Espinosa, Vainio, R., Koeberle, M., Kuehl, R., Xu, Z. G., Berger, L., Eldrum, S., Bruedern, M., Laurenza, M., Kilpua, E. J., Aran, A., Rouillard, A. P., Bucik, R., Wijsen, N., Pomoell, J., Wimmer-Schweingruber, R. F., Martin, C., Boettcher, S. , I, von Forstner, J. L. Freiherr, Terasa, J-C, Boden, S., Kulkarni, S. R., Ravanbakhsh, A., Yedla, M., Janitzek, N., Rodriguez-Pacheco, J., Mateo, M. Prieto, Prieto, S. Sanchez, Espada, P. Parra, Polo, O. Rodriguez, Hellin, A. Martinez, Carcaboso, F., Mason, G. M., Ho, G. C., Allen, R. C., Andrews, G. Bruce, Schlemm, C. E., Seifert, H., Tyagi, K., Lees, W. J., Hayes, J., Bale, S. D., Krupar, V, Horbury, T. S., Angelini, V, Evans, V, O'Brien, H., Maksimovic, M., Khotyaintsev, Yuri V., Vecchio, A., Steinvall, Konrad, Asvestari, E., Kollhoff, A., Kouloumvakos, A., Lario, D., Dresing, N., Gomez-Herrero, R., Rodriguez-Garcia, L., Malandraki, O. E., Richardson, I. G., Posner, A., Klein, K-L, Pacheco, D., Klassen, A., Heber, B., Cohen, C. M. S., Laitinen, T., Cernuda, I, Dalla, S., Lara, F. Espinosa, Vainio, R., Koeberle, M., Kuehl, R., Xu, Z. G., Berger, L., Eldrum, S., Bruedern, M., Laurenza, M., Kilpua, E. J., Aran, A., Rouillard, A. P., Bucik, R., Wijsen, N., Pomoell, J., Wimmer-Schweingruber, R. F., Martin, C., Boettcher, S. , I, von Forstner, J. L. Freiherr, Terasa, J-C, Boden, S., Kulkarni, S. R., Ravanbakhsh, A., Yedla, M., Janitzek, N., Rodriguez-Pacheco, J., Mateo, M. Prieto, Prieto, S. Sanchez, Espada, P. Parra, Polo, O. Rodriguez, Hellin, A. Martinez, Carcaboso, F., Mason, G. M., Ho, G. C., Allen, R. C., Andrews, G. Bruce, Schlemm, C. E., Seifert, H., Tyagi, K., Lees, W. J., Hayes, J., Bale, S. D., Krupar, V, Horbury, T. S., Angelini, V, Evans, V, O'Brien, H., Maksimovic, M., Khotyaintsev, Yuri V., Vecchio, A., Steinvall, Konrad, and Asvestari, E.

Abstract

Context. On 2020 November 29, the first widespread solar energetic particle (SEP) event of solar cycle 25 was observed at four widely separated locations in the inner (≲1 AU) heliosphere. Relativistic electrons as well as protons with energies > 50 MeV were observed by Solar Orbiter (SolO), Parker Solar Probe, the Solar Terrestrial Relations Observatory (STEREO)-A and multiple near-Earth spacecraft. The SEP event was associated with an M4.4 class X-ray flare and accompanied by a coronal mass ejection and an extreme ultraviolet (EUV) wave as well as a type II radio burst and multiple type III radio bursts. Aims. We present multi-spacecraft particle observations and place them in context with source observations from remote sensing instruments and discuss how such observations may further our understanding of particle acceleration and transport in this widespread event. Methods. Velocity dispersion analysis (VDA) and time shift analysis (TSA) were used to infer the particle release times at the Sun. Solar wind plasma and magnetic field measurements were examined to identify structures that influence the properties of the energetic particles such as their intensity. Pitch angle distributions and first-order anisotropies were analyzed in order to characterize the particle propagation in the interplanetary medium. Results. We find that during the 2020 November 29 SEP event, particles spread over more than 230° in longitude close to 1 AU. The particle onset delays observed at the different spacecraft are larger as the flare–footpoint angle increases and are consistent with those from previous STEREO observations. Comparing the timing when the EUV wave intersects the estimated magnetic footpoints of each spacecraft with particle release times from TSA and VDA, we conclude that a simple scenario where the particle release is only determined by the EUV wave propagation is unlikely for this event. Observations of anisotropic particle distributions at SolO, Wind, and STEREO

Published

2021

3. Low-density lipoprotein from active SLE patients is more atherogenic to endothelial cells than low-density lipoprotein from the same patients during remission

Author

Universitat Rovira i Virgili, Rodríguez-Calvo, R; Guardiola, M; Oliva, I; Arrando, H; Arranz, I; Ferré, A; Pellicer, P; Parra, S; Ribalta, J; Castro, A, Universitat Rovira i Virgili, and Rodríguez-Calvo, R; Guardiola, M; Oliva, I; Arrando, H; Arranz, I; Ferré, A; Pellicer, P; Parra, S; Ribalta, J; Castro, A

Abstract

© The Author(s) 2020. Published by Oxford University Press on behalf of the British Society for Rheumatology. All rights reserved. For permissions, please email: journals.permissions@oup.com. OBJECTIVES: SLE patients have an enhanced risk of atherosclerosis and cardiovascular disease. However, the increased prevalence of cardiovascular disease is not fully explained by traditional Framingham cardiovascular risk factors. Specific features of low-density lipoprotein (LDL) particles, other than plasma concentration, may induce accelerated atherosclerosis at early stages in these patients. Thus, we aimed to explore the impact of LDL from both active and inactive SLE patients on human aortic endothelial cells. METHODS: Human aortic endothelial cells were stimulated with the same concentration of LDL particles isolated from pooled serum that was collected from 13 SLE patients during both active and inactive states. Gene expression and cell migration assays were performed. RESULTS: Circulating LDL particles obtained from healthy volunteers and SLE patients in both remission and flare states were comparable in terms of number, cholesterol and triglyceride content, and net electric charge. Stimulation of cells with LDL from active SLE patients induced the expression of vascular cell adhesion molecule 1 (∼2.0-fold, P < 0.05), monocyte chemoattractant protein 1 (∼2.0-fold, P < 0.05) and matrix metallopeptidase 2 (∼1.6-fold, P < 0.01) compared with cells stimulated with LDL from inactive SLE patients. Additionally, LDL extracted from active patients increased cell migration in a wound-healing assay (1.4-fold, P < 0.05). CONCLUSION: Our data show that, at the same LDL concentration, LDL from active SLE patients had increased proatherogenic effects on endothelial cells compared with

Published

2021

4. First report of an invasive infection by cephalotrichum gorgonifer in a neutropenic patient with hematological malignancy under chemotherapy

Author

Universitat Rovira i Virgili, Álvarez?uría A; Escribano P; Parra?blanco V; Cano?lira JF; Stchigel AM; Oarbeascoa G; Muñoz P; Guinea J, Universitat Rovira i Virgili, and Álvarez?uría A; Escribano P; Parra?blanco V; Cano?lira JF; Stchigel AM; Oarbeascoa G; Muñoz P; Guinea J

Abstract

The etiological agents of infrequent invasive fungal infections (IFI) are difficult to identify on the species level using classic morphological examination. We describe the first case of an IFI caused by Cephalotrichum gorgonifer in a neutropenic patient with a hematological malignancy and put it on the map as a new causative agent of IFI. Case report, microbiological findings and description of the etiological agent. A 60?year?old man was diagnosed with mantle cell lymphoma. A CT scan confirmed the presence of lung infiltrates located at the right upper lobe. Histological examination of one of the nodules showed a large number of narrow septate hyphae with acute?angle branching and irregular round cell morphology; vessels walls appeared infiltrated, proving an angioinvasive pulmonary IFI. Sample culture resulted positive and molecular identification proved the presence of Cephalotrichum gorgonifer. Voriconazole was used for 12 months and the patient did not report any complications or side effects. Complete remission of lymphoma was achieved later by the time chemotherapy, radiotherapy, and radioimmunotherapy consolidation were completed. We recommend the inclusion of Cephalotrichum gorgonifer in the list of opportunistic pathogens causing mycoses in neutropenic hematological patients with suspected mould?related IFI. © 2021 by the authors. Licensee MDPI, Basel, Switzerland.

Published

2021

5. Learning English through Online Discussion Groups.

Author

Cote Parra, Gabriel Eduardo

Abstract

Describes how the author implemented an online discussion group in his university English as a foreign language classroom. Notes that students benefit in many ways: they share experiences and learn from others, practice writing skills, and create a more interactive environment in and out of the classroom. (SR)

Published

2000