Your search keyword '"Maldonado-Alconada, Ana M."' showing total 3 results

1. Optimizing Shotgun Proteomics Analysis for a Confident Protein Identification and Quantitation in Orphan Plant Species: The Case of Holm Oak (Quercus ilex).

Author

Gómez-Gálvez I, Sánchez-Lucas R, San-Eufrasio B, de Francisco LER, Maldonado-Alconada AM, Fuentes-Almagro C, and Castillejo MA

Subjects

Plant Proteins metabolism, Proteome metabolism, Proteomics methods, Quercus metabolism

Abstract

The proteomics of orphan, unsequenced, and recalcitrant organisms is highly challenging. This is the case of the typical Mediterranean forest tree Holm oak (Quercus ilex). Proteomics has moved on quite fast from the classical 2DE-MS to shotgun or gel-free/label-free approaches, with the latter possessing a series of advantages over the gel-based ones. Before translating proteomics data into biological knowledge, a few questions as to the analysis technique itself have to be answered including its confidence in protein identification and quantification. It is important to clearly differentiate a hit from an ortholog and gene product identification, with the difference depending on the database and the confidence parameters (score, number of peptides, and coverage). With respect to quantification and for comparative purposes it is important to make sure that we are within the linear dynamic range. For that, a calibration curve based on mass spectrometry analysis of a serial dilution of the extracts should be performed. Thus, just by validating our data with the aim of improving the quality of the analysis enables us to give a correct interpretation of our results. We show a method that aims to improve the confidence in protein identification and quantification in the orphan species Q. ilex using a shotgun proteomics approach.

Published

2020

2. A year (2014-2015) of plants in Proteomics journal. Progress in wet and dry methodologies, moving from protein catalogs, and the view of classic plant biochemists.

Author

Sanchez-Lucas R, Mehta A, Valledor L, Cabello-Hurtado F, Romero-Rodrıguez MC, Simova-Stoilova L, Demir S, Rodriguez-de-Francisco LE, Maldonado-Alconada AM, Jorrin-Prieto AL, and Jorrín-Novo JV

Subjects

Signal Transduction, Plant Proteins analysis, Plants metabolism, Proteome analysis, Proteomics methods, Systems Biology methods

Abstract

The present review is an update of the previous one published in Proteomics 2015 Reviews special issue [Jorrin-Novo, J. V. et al., Proteomics 2015, 15, 1089-1112] covering the July 2014-2015 period. It has been written on the bases of the publications that appeared in Proteomics journal during that period and the most relevant ones that have been published in other high-impact journals. Methodological advances and the contribution of the field to the knowledge of plant biology processes and its translation to agroforestry and environmental sectors will be discussed. This review has been organized in four blocks, with a starting general introduction (literature survey) followed by sections focusing on the methodology (in vitro, in vivo, wet, and dry), proteomics integration with other approaches (systems biology and proteogenomics), biological information, and knowledge (cell communication, receptors, and signaling), ending with a brief mention of some other biological and translational topics to which proteomics has made some contribution., (© 2015 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2016

3. Estudio de la interacción leguminosas-hongos fitopatógenos mediante una aproximación de genómica funcional (proteómica y transcriptómica)

Author

Curto Rubio, Miguel, Jorrín-Novo, Jesús V., Rubiales, Diego, and Maldonado-Alconada, Ana M.

Subjects

Proteomics, Proteómica, Functional genomic approach, Leguminosas, Infección de hongos fitopatógenos, Transcriptómica, Aproximación genómica funcional, Transcriptomics, Phytopathogenic fungi, Legume

Abstract

The objectives pursued in this PhD thesis are to study the legume responses to phytopathogenic fungi by using a functional genomics approach (transcriptomics and proteomics). The pea (Pisum sativum) and the model legume Medicago truncatula were chosen to study their stress responses to Erysiphe pisi and Mycosphaerella pinodes pathogens. The pea crop constitutes an important source of protein for human consumption, being one of the most grown grain legume in the world, meanwhile M. truncatula is an important forage legume which is being used as a model plant for use in molecular and classical genetic studies. Moreover, within the phytopathogenic fungi, powdery mildew and ascochyta blight are one the most plant pathogenic fungi that seriously constrain crop production worldwide. Within the functional genomics approaches carried out to study the defense mechanisms in legumes to phytopathogenic fungi infection, a differential expression proteomic approach was carried out in order to unveil which resistance mechanisms are involving in the defense response of the pea to E. pisi and M. pinodes infections. The results obtained from the application of this approach in both studies are presented. The changes observed reflect a metabolic adjustment performed by the pea in response to phytopathogen fungi infection. To go deeper into the knowledge of the defence mechanism related to the response to E. pisi infection in legumes, two different transcriptomics approaches were performed using the model legume M. truncatula. Thus, M. truncatula - E. pisi pathosystem was analyzed by using microarray and quantitative real-time PCR platforms, respectively. These results revealed a wide variety of mechanisms and pathways involved in M. truncatula in response to E. pisi infection, including an important number of genes belonging to diverse functional groups, which will help to develop new genetic tools in the breeding program in legumes. Los objetivos planteados en esta tesis doctoral son analizar las respuestas de las leguminosas a la infección de hongos fitopatógenos mediante el uso de una aproximación de genómica funcional (transcriptómica y proteómica). El guisante (Pisum sativum) y la leguminosa modelo Medicago truncatula fueron elegidas para estudiar sus respuestas de estrés a los patógenos Erysiphe pisi y Mycosphaerella pinodes. Dentro de las aproximaciones de genómica funcional llevadas a cabo para estudiar los mecanismos de defensa de las leguminosas a la infección de hongos fitopatógenos, una aproximación de proteómica diferencial fue llevada a cabo con el objetivo de revelar cuáles son los mecanismos de resistencia implicados en las respuestas de defensa del guisante a la infección de E. pisi y M. pinodes. Los resultados obtenidos de la aplicación de esta aproximación en ambos estudios son presentados. Los cambios observados reflejan un ajuste metabólico del guisante en respuesta a la infección de estos hongos fitopatógenos. Para profundizar en el conocimiento de los mecanismos de defensa de las leguminosas en respuesta a la infección de E. pisi, dos aproximaciones transcriptómicas diferentes fueron realizadas usando la leguminosa modelo M. truncatula. En consecuencia, el patosistema M. truncatula - E. pisi fue analizado mediante dos plataformas, microarray y PCR cuantitativa en tiempo real, respectivamente. Estos resultados revelaron una amplia variedad de mecanismos y rutas implicadas en las respuestas de defensa de M. truncatula en respuesta a la infección de E. pisi, incluyendo un importante número de genes pertenecientes a diversos grupos funcionales, los cuales ayudaran en el desarrollo de nuevas herramientas genéticas en los programas de mejora vegetal en leguminosas.

Published

2015