Your search keyword '"Tejera-Nevado, Paloma"' showing total 17 results

1. Unlocking the power of AI models: exploring protein folding prediction through comparative analysis

Author

Tejera-Nevado Paloma, Serrano Emilio, González-Herrero Ana, Bermejo Rodrigo, and Rodríguez-González Alejandro

Subjects

protein structure prediction, protein folding estimation, protein conformation analysis, artificial intelligence models, deep learning models, root-mean-square deviation, Biotechnology, TP248.13-248.65

Abstract

Protein structure determination has made progress with the aid of deep learning models, enabling the prediction of protein folding from protein sequences. However, obtaining accurate predictions becomes essential in certain cases where the protein structure remains undescribed. This is particularly challenging when dealing with rare, diverse structures and complex sample preparation. Different metrics assess prediction reliability and offer insights into result strength, providing a comprehensive understanding of protein structure by combining different models. In a previous study, two proteins named ARM58 and ARM56 were investigated. These proteins contain four domains of unknown function and are present in Leishmania spp. ARM refers to an antimony resistance marker. The study’s main objective is to assess the accuracy of the model’s predictions, thereby providing insights into the complexities and supporting metrics underlying these findings. The analysis also extends to the comparison of predictions obtained from other species and organisms. Notably, one of these proteins shares an ortholog with Trypanosoma cruzi and Trypanosoma brucei, leading further significance to our analysis. This attempt underscored the importance of evaluating the diverse outputs from deep learning models, facilitating comparisons across different organisms and proteins. This becomes particularly pertinent in cases where no previous structural information is available.

Published

2024

2. Analysis of the Confidence in the Prediction of the Protein Folding by Artificial Intelligence

Author

Tejera-Nevado, Paloma, Serrano, Emilio, González-Herrero, Ana, Bermejo-Moreno, Rodrigo, Rodríguez-González, Alejandro, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Rocha, Miguel, editor, Fdez-Riverola, Florentino, editor, Mohamad, Mohd Saberi, editor, and Gil-González, Ana Belén, editor

Published

2023

3. Analysis of the Confidence in the Prediction of the Protein Folding by Artificial Intelligence

Author

Tejera-Nevado, Paloma, primary, Serrano, Emilio, additional, González-Herrero, Ana, additional, Bermejo-Moreno, Rodrigo, additional, and Rodríguez-González, Alejandro, additional

Published

2023

4. Unlocking the power of AI models: exploring protein folding prediction through comparative analysis

Author

Ministerio de Ciencia e Innovación (España), Tejera-Nevado, Paloma [0000-0003-0342-6640], Serrano, Emilio [0000-0001-7587-0703], González-Herrero, Ana [0000-0003-2014-563X], Bermejo, Rodrigo [0000-0002-2692-7045], Rodríguez-González, Alejandro [0000-0001-8801-4762], Tejera-Nevado, Paloma, Serrano, Emilio, González-Herrero, Ana, Bermejo, Rodrigo, Rodríguez-González, Alejandro, Ministerio de Ciencia e Innovación (España), Tejera-Nevado, Paloma [0000-0003-0342-6640], Serrano, Emilio [0000-0001-7587-0703], González-Herrero, Ana [0000-0003-2014-563X], Bermejo, Rodrigo [0000-0002-2692-7045], Rodríguez-González, Alejandro [0000-0001-8801-4762], Tejera-Nevado, Paloma, Serrano, Emilio, González-Herrero, Ana, Bermejo, Rodrigo, and Rodríguez-González, Alejandro

Abstract

Protein structure determination has made progress with the aid of deep learning models, enabling the prediction of protein folding from protein sequences. However, obtaining accurate predictions becomes essential in certain cases where the protein structure remains undescribed. This is particularly challenging when dealing with rare, diverse structures and complex sample preparation. Different metrics assess prediction reliability and offer insights into result strength, providing a comprehensive understanding of protein structure by combining different models. In a previous study, two proteins named ARM58 and ARM56 were investigated.These proteins contain four domains of unknown function and are present in Leishmania spp. ARM refers to an antimony resistance marker. The study’s main objective is to assess the accuracy of the model’s predictions,thereby providing insights into the complexities and supportingmetrics underlying these findings. The analysis also extends to the comparison of predictions obtained from other species and organisms. Notably, one of these proteins shares an ortholog with Trypanosoma cruzi and Trypanosoma brucei, leading further significance to our analysis. This attempt underscored the importance of evaluating the diverse outputs from deep learning models, facilitating comparisons across different organisms and proteins. This becomes particularly pertinent in cases where no previous structural information is available.

Published

2024

5. Analyzing Dropout in Alcohol Recovery Programs: A Machine Learning Approach.

Author

Collin, Adele, Ayuso-Muñoz, Adrián, Tejera-Nevado, Paloma, Prieto-Santamaría, Lucía, Verdejo-García, Antonio, Díaz-Batanero, Carmen, Fernández-Calderón, Fermín, Albein-Urios, Natalia, Lozano, Óscar M., and Rodríguez-González, Alejandro

Subjects

ALCOHOLISM, MACHINE learning, MENTAL health services, PATIENT dropouts, MEDICAL care

Abstract

Background: Retention in treatment is crucial for the success of interventions targeting alcohol use disorder (AUD), which affects over 100 million people globally. Most previous studies have used classical statistical techniques to predict treatment dropout, and their results remain inconclusive. This study aimed to use novel machine learning tools to identify models that predict dropout with greater precision, enabling the development of better retention strategies for those at higher risk. Methods: A retrospective observational study of 39,030 (17.3% female) participants enrolled in outpatient-based treatment for alcohol use disorder in a state-wide public treatment network has been used. Participants were recruited between 1 January 2015 and 31 December 2019. We applied different machine learning algorithms to create models that allow one to predict the premature cessation of treatment (dropout). With the objective of increasing the explainability of those models with the best precision, considered as black-box models, explainability technique analyses were also applied. Results: Considering as the best models those obtained with one of the so-called black-box models (support vector classifier (SVC)), the results from the best model, from the explainability perspective, showed that the variables that showed greater explanatory capacity for treatment dropout are previous drug use as well as psychiatric comorbidity. Among these variables, those of having undergone previous opioid substitution treatment and receiving coordinated psychiatric care in mental health services showed the greatest capacity for predicting dropout. Conclusions: By using novel machine learning techniques on a large representative sample of patients enrolled in alcohol use disorder treatment, we have identified several machine learning models that help in predicting a higher risk of treatment dropout. Previous treatment for other substance use disorders (SUDs) and concurrent psychiatric comorbidity were the best predictors of dropout, and patients showing these characteristics may need more intensive or complementary interventions to benefit from treatment. [ABSTRACT FROM AUTHOR]

Published

2024

6. Discovery of a benzothiophene-flavonol halting miltefosine and antimonial drug resistance in Leishmania parasites through the application of medicinal chemistry, screening and genomics

Author

Borsari, Chiara, Jiménez-Antón, María Dolores, Eick, Julia, Bifeld, Eugenia, Torrado, Juan José, Olías-Molero, Ana Isabel, Corral, María Jesús, Santarem, Nuno, Baptista, Catarina, Severi, Leda, Gul, Sheraz, Wolf, Markus, Kuzikov, Maria, Ellinger, Bernhard, Reinshagen, Jeanette, Witt, Gesa, Linciano, Pasquale, Tait, Annalisa, Costantino, Luca, Luciani, Rosaria, Tejera Nevado, Paloma, Zander-Dinse, Dorothea, Franco, Caio H., Ferrari, Stefania, Moraes, Carolina B., Cordeiro-da-Silva, Anabela, Ponterini, Glauco, Clos, Joachim, Alunda, José María, and Costi, Maria Paola

Published

2019

7. Analysis of the confidence in the prediction of the protein folding by artificial intelligence

Author

Ministerio de Ciencia e Innovación (España), Tejera-Nevado, Paloma [0000-0003-0342-6640, Serrano, Emilio [0000-0001-7587-0703], González-Herrero, Ana [0000-0003-2014-563X], Bermejo, Rodrigo [0000-0002-2692-7045], Rodríguez-González, Alejandro [0000-0001-8801-4762], Tejera-Nevado, Paloma, Serrano, Emilio, González-Herrero, Ana, Bermejo, Rodrigo, Rodríguez-González, Alejandro, Ministerio de Ciencia e Innovación (España), Tejera-Nevado, Paloma [0000-0003-0342-6640, Serrano, Emilio [0000-0001-7587-0703], González-Herrero, Ana [0000-0003-2014-563X], Bermejo, Rodrigo [0000-0002-2692-7045], Rodríguez-González, Alejandro [0000-0001-8801-4762], Tejera-Nevado, Paloma, Serrano, Emilio, González-Herrero, Ana, Bermejo, Rodrigo, and Rodríguez-González, Alejandro

Abstract

The determination of protein structure has been facilitated using deep learning models, which can predict protein folding from protein sequences. In some cases, the predicted structure can be compared to the already-known distribution if there is information from classic methods such as nuclear magnetic resonance (NMR) spectroscopy, X-ray crystallography, or electron microscopy (EM). However, challenges arise when the proteins are not abundant, their structure is heterogeneous, and protein sample preparation is difficult. To determine the level of confidence that supports the prediction, different metrics are provided. These values are important in two ways: they offer information about the strength of the result and can supply an overall picture of the structure when different models are combined. This work provides an overview of the different deep-learning methods used to predict protein folding and the metrics that support their outputs. The confidence of the model is evaluated in detail using two proteins that contain four domains of unknown function.

Published

2023

8. Design, synthesis and biological evaluation of antiparasitic dinitroaniline-ether phospholipid hybrids

Author

Roussaki, Marina, primary, Magoulas, George E., additional, Fotopoulou, Theano, additional, Santarem, Nuno, additional, Barrias, Emile, additional, Pöhner, Ina, additional, Luelmo, Sara, additional, Afroudakis, Pantelis, additional, Georgikopoulou, Kalliopi, additional, Tejera Nevado, Paloma, additional, Eick, Julia, additional, Bifeld, Eugenia, additional, Corral, María J., additional, Dolores Jiménez-Antón, María, additional, Ellinger, Bernhard, additional, Kuzikov, Maria, additional, Fragiadaki, Irini, additional, Scoulica, Effie, additional, Gul, Sheraz, additional, Clos, Joachim, additional, Prousis, Kyriakos C., additional, Torrado, Juan J., additional, María Alunda, José, additional, Wade, Rebecca C., additional, de Souza, Wanderley, additional, Cordeiro da Silva, Anabela, additional, and Calogeropoulou, Theodora, additional

Published

2023

9. Synthetic oleanane triterpenoids suppress MYB oncogene activity and sensitize T-cell acute lymphoblastic leukemia cells to chemotherapy

Author

Tejera Nevado, Paloma, primary, Tešan Tomić, Tajana, additional, Atefyekta, Ali, additional, Fehr, André, additional, Stenman, Göran, additional, and Andersson, Mattias K., additional

Published

2023

10. A novel marker, ARM58, confers antimony resistance to Leishmania spp.

Author

Nühs, Andrea, Schäfer, Carola, Zander, Dorothea, Trübe, Leona, Tejera Nevado, Paloma, Schmidt, Sonja, Arevalo, Jorge, Adaui, Vanessa, Maes, Louis, Dujardin, Jean-Claude, and Clos, Joachim

Published

2014

11. A versatile qPCR assay to quantify trypanosomatidic infections of host cells and tissues

Author

Bifeld, Eugenia, Tejera Nevado, Paloma, Bartsch, Janika, Eick, Julia, and Clos, Joachim

Published

2016

12. Design, Synthesis and Antiparasitic Evaluation of Click Phospholipids

Author

Magoulas, George E., primary, Afroudakis, Pantelis, additional, Georgikopoulou, Kalliopi, additional, Roussaki, Marina, additional, Borsari, Chiara, additional, Fotopoulou, Theano, additional, Santarem, Nuno, additional, Barrias, Emile, additional, Tejera Nevado, Paloma, additional, Hachenberg, Julia, additional, Bifeld, Eugenia, additional, Ellinger, Bernhard, additional, Kuzikov, Maria, additional, Fragiadaki, Irini, additional, Scoulica, Effie, additional, Clos, Joachim, additional, Gul, Sheraz, additional, Costi, Maria Paola, additional, de Souza, Wanderley, additional, Prousis, Kyriakos C., additional, Cordeiro da Silva, Anabela, additional, and Calogeropoulou, Theodora, additional

Published

2021

13. Methoxylated 2'-hydroxychalcones as antiparasitic hit compounds

Author

Borsari, Chiara, Santarem, Nuno, Torrado, Juan, Olías, Ana Isabel, Corral, María Jesús, Baptista, Catarina, Gul, Sheraz, Wolf, Markus, Kuzikov, Maria, Ellinger, Bernhard, Witt, Gesa, Gribbon, Philip, Reinshagen, Jeanette, Linciano, Pasquale, Tait, Annalisa, Costantino, Luca, Freitas-Junior, Lucio H., Moraes, Carolina B., Bruno dos Santos, Pascoalino, Alcântara, Laura Maria, Franco, Caio Haddad, Bertolacini, Claudia Danielli, Fontana, Vanessa, Tejera Nevado, Paloma, Clos, Joachim, Alunda, José María, Cordeiro-da-Silva, Anabela, Ferrari, Stefania, and Costi, Maria Paola

Published

2017

14. A Telomeric Cluster of Antimony Resistance Genes on Chromosome 34 of Leishmania infantum

Author

Tejera Nevado, Paloma, primary, Bifeld, Eugenia, additional, Höhn, Katharina, additional, and Clos, Joachim, additional

Published

2016

15. Profiling of Flavonol Derivatives for the Development of Antitrypanosomatidic Drugs

Author

Borsari, Chiara, primary, Luciani, Rosaria, additional, Pozzi, Cecilia, additional, Poehner, Ina, additional, Henrich, Stefan, additional, Trande, Matteo, additional, Cordeiro-da-Silva, Anabela, additional, Santarem, Nuno, additional, Baptista, Catarina, additional, Tait, Annalisa, additional, Di Pisa, Flavio, additional, Dello Iacono, Lucia, additional, Landi, Giacomo, additional, Gul, Sheraz, additional, Wolf, Markus, additional, Kuzikov, Maria, additional, Ellinger, Bernhard, additional, Reinshagen, Jeanette, additional, Witt, Gesa, additional, Gribbon, Philip, additional, Kohler, Manfred, additional, Keminer, Oliver, additional, Behrens, Birte, additional, Costantino, Luca, additional, Tejera Nevado, Paloma, additional, Bifeld, Eugenia, additional, Eick, Julia, additional, Clos, Joachim, additional, Torrado, Juan, additional, Jiménez-Antón, María D., additional, Corral, María J., additional, Alunda, José M, additional, Pellati, Federica, additional, Wade, Rebecca C., additional, Ferrari, Stefania, additional, Mangani, Stefano, additional, and Costi, Maria Paola, additional

Published

2016

16. Reduced Antimony Accumulation in ARM58 -Overexpressing Leishmania infantum

Author

Schäfer, Carola, primary, Tejera Nevado, Paloma, additional, Zander, Dorothea, additional, and Clos, Joachim, additional

Published

2014

17. A novel marker, ARM58, confers antimony resistance to Leishmania spp.

Author

Nühs A, Schäfer C, Zander D, Trübe L, Tejera Nevado P, Schmidt S, Arevalo J, Adaui V, Maes L, Dujardin JC, and Clos J

Abstract

Protozoa of the Leishmania genus cause a variety of disease forms that rank at the top of the list of neglected tropical diseases. Anti-leishmanial drugs based on pentavalent antimony have been the mainstay of therapy for over 60 years and resistance against them is increasingly encountered in the field. The biochemical basis for this is poorly understood and likely diverse. No stringent correlation between genetic markers and antimony resistance has so far been shown, prompting us to use a functional cloning approach to identify markers of resistance. Using gene libraries derived from drug-resistant and drug-sensitive Leishmania braziliensis clinical isolates in a functional cloning strategy, we repeatedly selected one gene locus located on chromosome 20 whose amplification confers increased antimony (III) resistance in vitro to an otherwise sensitive L. braziliensis clone. The gene responsible for the effect encodes a previously hypothetical protein that we dubbed LbrARM58. It comprises four repeats of a domain of unknown function, DUF1935, one of them harbouring a potential trans-membrane domain. The gene is so far unique to the Leishmania genus, while a structurally related gene without antimony resistance functionality is also found in Trypanosoma spp. Overexpression of LbrARM58 also confers antimony resistance to promastigotes and intracellular amastigotes of the related species Leishmania infantum, indicating a conserved function in Old World and New World Leishmania species. Our results also show that in spite of their RNAi system, L. braziliensis promastigotes can serve as acceptor cells for episomally propagated cosmid libraries, at least for the initial stages of functional cloning efforts.

Published

2013