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*Listed are the articles found in the PubMed database.

Publications by “María Monsalve Pérez”

Aripiprazole, but Not Olanzapine, Alters the Response to Oxidative Stress in Fao Cells by Reducing the Activation of Mitogen-Activated Protein Kinases (MAPKs) and Promoting Cell Survival.

Kramar, B, Pirc Marolt, T, Yilmaz Goler, AM, Šuput, D, Milisav, I, Monsalve, M .

Cardiometabolic Changes in Sirtuin1-Heterozygous Mice on High-Fat Diet and Melatonin Supplementation.

Favero, G, Golic, I, Arnaboldi, F, Cappella, A, Korac, A, Monsalve, M , Stacchiotti, A, Rezzani, R.

Remission of obesity and insulin resistance is not sufficient to restore mitochondrial homeostasis in visceral adipose tissue.

Gonzalez-Franquesa, A, Gama-Perez, P, Kulis, M, Szczepanowska, K, Dahdah, N, Moreno-Gomez, S, Latorre-Pellicer, A, Fernández-Ruiz, R, Aguilar-Mogas, A, Hoffman, A, Monelli, E, Samino, S, Miró-Blanch, J, Oemer, G, Duran, X, Sanchez-Rebordelo, E, Schneeberger, M, Obach, M, Montane, J, Castellano, G, Chapaprieta, V, Sun, W, Navarro, L, Prieto, I , Castaño, C , Novials, A, Gomis, R, Monsalve, M , Claret, M, Graupera, M, Soria, G, Wolfrum, C, Vendrell, J, Fernández-Veledo, S, Enríquez, JA, Carracedo, A, Perales, JC, Nogueiras, R, Herrero, L, Trifunovic, A, Keller, MA, Yanes, O, Sales-Pardo, M, Guimerà, R, Blüher, M, Martín-Subero, JI, Garcia-Roves, PM.

p38 MAPK priming boosts VSMC proliferation and arteriogenesis by promoting PGC1α-dependent mitochondrial dynamics.

Sahún-Español, Á, Clemente, C, Jiménez-Loygorri, JI, Sierra-Filardi, E, Herrera-Melle, L, Gómez-Durán, A, Sabio, G, Monsalve, M , Boya, P, Arroyo, AG.

Impairment of PGC-1 Alpha Up-Regulation Enhances Nitrosative Stress in the Liver during Acute Pancreatitis in Obese Mice.

Rius-Pérez, S, Torres-Cuevas, I, Monsalve, M , Miranda, FJ, Pérez, S.

The Thiol-Modifier Effects of Organoselenium Compounds and Their Cytoprotective Actions in Neuronal Cells.

Galant, LS, Rafique, J, Braga, AL, Braga, FC, Saba, S, Radi, R, da Rocha, JBT, Santi, C, Monsalve, M , Farina, M, de Bem, AF.

The Role of PGC-1α and Mitochondrial Biogenesis in Kidney Diseases.

Fontecha-Barriuso, M, Martin-Sanchez, D, Martinez-Moreno, JM, Monsalve, M , Ramos, AM, Sanchez-Niño, MD, Ruiz-Ortega, M, Ortiz, A, Sanz, AB.

Pgc1a is responsible for the sex differences in hepatic Cidec/Fsp27β mRNA expression in hepatic steatosis of mice fed a Western diet.

Herrera-Marcos, LV, Sancho-Knapik, S, Gabás-Rivera, C, Barranquero, C, Gascón, S, Romanos, E, Martínez-Beamonte, R, Navarro, MA, Surra, JC, Arnal, C, García-de-Jalón, JA, Rodríguez-Yoldi, MJ, Tena-Sempere, M, Sánchez-Ramos, C , Monsalve, M , Osada, J.

PGC-1α deficiency causes spontaneous kidney inflammation and increases the severity of nephrotoxic AKI.

Fontecha-Barriuso, M, Martín-Sánchez, D, Martinez-Moreno, JM, Carrasco, S, Ruiz-Andrés, O, Monsalve, M , Sanchez-Ramos, C , Gómez, MJ, Ruiz-Ortega, M, Sánchez-Niño, MD, Cannata-Ortiz, P, Cabello, R, Gonzalez-Enguita, C, Ortiz, A, Sanz, AB.

Taurine Supplementation Alleviates Puromycin Aminonucleoside Damage by Modulating Endoplasmic Reticulum Stress and Mitochondrial-Related Apoptosis in Rat Kidney.

Stacchiotti, A, Favero, G, Lavazza, A, Monsalve, M , Rodella, LF, Rezzani, R.

Corrigendum to "European contribution to the study of ROS: A summary of the findings and prospects for the future from the COST action BM1203 (EU-ROS)" [Redox Biol. 13 (2017) 94-162].

Egea, J, Fabregat, I, Frapart, YM, Ghezzi, P, Görlach, A, Kietzmann, T, Kubaichuk, K, Knaus, UG, Lopez, MG, Olaso-Gonzalez, G, Petry, A, Schulz, R, Vina, J, Winyard, P, Abbas, K, Ademowo, OS, Afonso, CB, Andreadou, I, Antelmann, H, Antunes, F, Aslan, M, Bachschmid, MM, Barbosa, RM, Belousov, V, Berndt, C, Bernlohr, D, Bertrán, E, Bindoli, A, Bottari, SP, Brito, PM, Carrara, G, Casas, AI, Chatzi, A, Chondrogianni, N, Conrad, M, Cooke, MS, Costa, JG, Cuadrado, A , My-Chan Dang, P, De Smet, B, Debelec-Butuner, B, Dias, IHK, Dunn, JD, Edson, AJ, El Assar, M, El-Benna, J, Ferdinandy, P, Fernandes, AS, Fladmark, KE, Förstermann, U, Giniatullin, R, Giricz, Z, Görbe, A, Griffiths, H, Hampl, V, Hanf, A, Herget, J, Hernansanz-Agustín, P, Hillion, M, Huang, J, Ilikay, S, Jansen-Dürr, P, Jaquet, V, Joles, JA, Kalyanaraman, B, Kaminskyy, D, Karbaschi, M, Kleanthous, M, Klotz, LO, Korac, B, Korkmaz, KS, Koziel, R, Kračun, D, Krause, KH, Křen, V, Krieg, T, Laranjinha, J, Lazou, A, Li, H, Martínez-Ruiz, A, Matsui, R, McBean, GJ, Meredith, SP, Messens, J, Miguel, V, Mikhed, Y, Milisav, I, Milković, L, Miranda-Vizuete, A, Mojović, M, Monsalve, M , Mouthuy, PA, Mulvey, J, Münzel, T, Muzykantov, V, Nguyen, ITN, Oelze, M, Oliveira, NG, Palmeira, CM, Papaevgeniou, N, Pavićević, A, Pedre, B, Peyrot, F, Phylactides, M, Pircalabioru, GG, Pitt, AR, Poulsen, HE, Prieto, I, Rigobello, MP, Robledinos-Antón, N, Rodríguez-Mañas, L, Rolo, AP, Rousset, F, Ruskovska, T, Saraiva, N, Sasson, S, Schröder, K, Semen, K, Seredenina, T, Shakirzyanova, A, Smith, GL, Soldati, T, Sousa, BC, Spickett, CM, Stancic, A, Stasia, MJ, Steinbrenner, H, Stepanić, V, Steven, S, Tokatlidis, K, Tuncay, E, Turan, B, Ursini, F, Vacek, J, Vajnerova, O, Valentová, K, Van Breusegem, F, Varisli, L, Veal, EA, Yalçın, AS, Yelisyeyeva, O, Žarković, N, Zatloukalová, M, Zielonka, J, Touyz, RM, Papapetropoulos, A, Grune, T, Lamas, S, Schmidt, HHHW, Di Lisa, F, Daiber, A.

European contribution to the study of ROS: A summary of the findings and prospects for the future from the COST action BM1203 (EU-ROS).

Egea, J, Fabregat, I, Frapart, YM, Ghezzi, P, Görlach, A, Kietzmann, T, Kubaichuk, K, Knaus, UG, Lopez, MG, Olaso-Gonzalez, G, Petry, A, Schulz, R, Vina, J, Winyard, P, Abbas, K, Ademowo, OS, Afonso, CB, Andreadou, I, Antelmann, H, Antunes, F, Aslan, M, Bachschmid, MM, Barbosa, RM, Belousov, V, Berndt, C, Bernlohr, D, Bertrán, E, Bindoli, A, Bottari, SP, Brito, PM, Carrara, G, Casas, AI, Chatzi, A, Chondrogianni, N, Conrad, M, Cooke, MS, Costa, JG, Cuadrado, A , My-Chan Dang, P, De Smet, B, Debelec-Butuner, B, Dias, IHK, Dunn, JD, Edson, AJ, El Assar, M, El-Benna, J, Ferdinandy, P, Fernandes, AS, Fladmark, KE, Förstermann, U, Giniatullin, R, Giricz, Z, Görbe, A, Griffiths, H, Hampl, V, Hanf, A, Herget, J, Hernansanz-Agustín, P , Hillion, M, Huang, J, Ilikay, S, Jansen-Dürr, P, Jaquet, V, Joles, JA, Kalyanaraman, B, Kaminskyy, D, Karbaschi, M, Kleanthous, M, Klotz, LO, Korac, B, Korkmaz, KS, Koziel, R, Kračun, D, Krause, KH, Křen, V, Krieg, T, Laranjinha, J, Lazou, A, Li, H, Martínez-Ruiz, A, Matsui, R, McBean, GJ, Meredith, SP, Messens, J, Miguel, V, Mikhed, Y, Milisav, I, Milković, L, Miranda-Vizuete, A, Mojović, M, Monsalve, M , Mouthuy, PA, Mulvey, J, Münzel, T, Muzykantov, V, Nguyen, ITN, Oelze, M, Oliveira, NG, Palmeira, CM, Papaevgeniou, N, Pavićević, A, Pedre, B, Peyrot, F, Phylactides, M, Pircalabioru, GG, Pitt, AR, Poulsen, HE, Prieto, I , Rigobello, MP, Robledinos-Antón, N , Rodríguez-Mañas, L, Rolo, AP, Rousset, F, Ruskovska, T, Saraiva, N, Sasson, S, Schröder, K, Semen, K, Seredenina, T, Shakirzyanova, A, Smith, GL, Soldati, T, Sousa, BC, Spickett, CM, Stancic, A, Stasia, MJ, Steinbrenner, H, Stepanić, V, Steven, S, Tokatlidis, K, Tuncay, E, Turan, B, Ursini, F, Vacek, J, Vajnerova, O, Valentová, K, Van Breusegem, F, Varisli, L, Veal, EA, Yalçın, AS, Yelisyeyeva, O, Žarković, N, Zatloukalová, M, Zielonka, J, Touyz, RM, Papapetropoulos, A, Grune, T, Lamas, S, Schmidt, HHHW, Di Lisa, F, Daiber, A.

Blood PGC-1α Concentration Predicts Myocardial Salvage and Ventricular Remodeling After ST-segment Elevation Acute Myocardial Infarction.

Fabregat-Andrés, Ó, Ridocci-Soriano, F, Estornell-Erill, J, Corbí-Pascual, M, Valle-Muñoz, A, Berenguer-Jofresa, A, Barrabés, JA, Mata, M, Monsalve, M .

Age associated low mitochondrial biogenesis may be explained by lack of response of PGC-1α to exercise training.

Derbré, F, Gomez-Cabrera, MC, Nascimento, AL, Sanchis-Gomar, F, Martinez-Bello, VE, Tresguerres, JA, Fuentes, T, Gratas-Delamarche, A, Monsalve, M , Viña, J.

Peroxisome proliferator-activated receptors-α and -γ, and cAMP-mediated pathways, control retinol-binding protein-4 gene expression in brown adipose tissue.

Rosell, M, Hondares, E, Iwamoto, S, Gonzalez, FJ, Wabitsch, M, Staels, B, Olmos, Y, Monsalve, M , Giralt, M, Iglesias, R, Villarroya, F.

The non-canonical NOTCH ligand DLK1 exhibits a novel vascular role as a strong inhibitor of angiogenesis.

Rodríguez, P, Higueras, MA, González-Rajal, A, Alfranca, A, Fierro-Fernández, M, García-Fernández, RA, Ruiz-Hidalgo, MJ, Monsalve, M , Rodríguez-Pascual, F, Redondo, JM, de la Pompa, JL, Laborda, J, Lamas, S.

Mitochondrial dysfunction in cholestatic liver diseases.

Arduini, A, Serviddio, G, Tormos, AM, Monsalve, M , Sastre, J.

Peroxisome proliferator-activated receptor α (PPARα) induces PPARγ coactivator 1α (PGC-1α) gene expression and contributes to thermogenic activation of brown fat: involvement of PRDM16.

Hondares, E, Rosell, M, Díaz-Delfín, J, Olmos, Y, Monsalve, M , Iglesias, R, Villarroya, F, Giralt, M.

Mitochondrial biogenesis fails in secondary biliary cirrhosis in rats leading to mitochondrial DNA depletion and deletions.

Arduini, A, Serviddio, G, Escobar, J, Tormos, AM, Bellanti, F, Viña, J, Monsalve, M , Sastre, J.

Inactivation of Foxo3a and subsequent downregulation of PGC-1 alpha mediate nitric oxide-induced endothelial cell migration.

Borniquel, S, García-Quintáns, N, Valle, I, Olmos, Y, Wild, B , Martínez-Granero, F, Soria, E, Lamas, S, Monsalve, M .

Mitochondrial dysfunction in human pathologies.

Monsalve, M , Borniquel, S, Valle, I, Lamas, S.

A Mutation in the C-terminal domain of the RNA polymerase alpha subunit that destabilizes the open complexes formed at the phage phi 29 late A3 promoter.

Calles, B, Monsalve, M , Rojo, F, Salas, M.

Direct coupling of transcription and mRNA processing through the thermogenic coactivator PGC-1.

Monsalve, M , Wu, Z, Adelmant, G, Puigserver, P, Fan, M, Spiegelman, BM.

Transcription activation and repression by interaction of a regulator with the alpha subunit of RNA polymerase: the model of phage phi 29 protein p4.

Rojo, F, Mencía, M, Monsalve, M , Salas, M.

Functional analysis of TFIID components.

Shen, WC, Apone, LM, Virbasius, CM, Li, XY, Monsalve, M , Green, MR.

Substitution of the C-terminal domain of the Escherichia coli RNA polymerase alpha subunit by that from Bacillus subtilis makes the enzyme responsive to a Bacillus subtilis transcriptional activator.

Mencía, M, Monsalve, M , Rojo, F, Salas, M.

Transcription activation or repression by phage psi 29 protein p4 depends on the strength of the RNA polymerase-promoter interactions.

Monsalve, M , Calles, B, Mencía, M, Salas, M, Rojo, F.

Protein p4 represses phage phi 29 A2c promoter by interacting with the alpha subunit of Bacillus subtilis RNA polymerase.

Monsalve, M , Mencía, M, Salas, M, Rojo, F.

Transcription activation by phage phi29 protein p4 is mediated by interaction with the alpha subunit of Bacillus subtilis RNA polymerase.

Mencía, M, Monsalve, M , Rojo, F, Salas, M.

Transcriptional activator of phage phi 29 late promoter: mapping of residues involved in interaction with RNA polymerase and in DNA bending.

Mencía, M, Monsalve, M , Salas, M, Rojo, F.

Activation and repression of transcription at two different phage phi29 promoters are mediated by interaction of the same residues of regulatory protein p4 with RNA polymerase.

Monsalve, M , Mencia, M, Rojo, F, Salas, M.

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