Characterizing the proteome and oxi-proteome of apple in response to a host (Penicillium expansum) and a non-host (Penicillium digitatum) pathogen

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Llicència i ús

Citacions

Cited 14 times in Scopus logo

Cited 24 times in Web of Science logo

Cited 5 times in Europe PMC logo

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Grant support

Authors are grateful to the Spanish Government for its financial support with the project AGL2011-30519-CO3-03, and for the scholarship BES-2009-027752 (G. Buron-Moles). The authors are indebted to Dr. Pablo Librado from 'Departament de Genetica. UB' for the bioinformatician support and to Celia Sanchez from 'IRTA' for her excellent technical assistance. We also would like to thank Dr. Isabel Sanchez and Dr. M. Alba Sorolla from the 'Servei de Genomica i Proteomica; UdL' for helping on peptide mass fingerprinting and MS-MS. Erik Burchard is acknowledged for his assistance in conducting the RT-qPCR experiments.

Anàlisi d'autories institucional

Buron-Moles, GAutor o coautorTeixido, NAutor o coautorUsall, JAutor o coautorTorres, RAutor (correspondència)

20 desetembre de 2017

Publicacions

Article

Publicat a:Journal Of Proteomics. 114 136-151 - 2015-01-30 114(), DOI: 10.1016/j.jprot.2014.11.007

Autors: Buron-Moles, Gemma; Wisniewski, Michael; Vinas, Inmaculada; Teixido, Neus; Usall, Josep; Droby, Samir; Torres, Rosario

Afiliacions

ARO, Volcani Ctr, Dept Postharvest Sci, IL-50250 Bet Dagan, Israel - Autor o coautor

IRTA, XaRTA Postharvest, Lleida 25198, Catalonia, Spain - Autor o coautor

Lleida Univ, Dept Food Technol, XaRTA Postharvest, Agrotecnio Ctr, Lleida 25198, Catalonia, Spain - Autor o coautor

Postcollita. IRTA Investigación y Tecnología Agroalimentarias - Autor o coautor

Producció Vegetal. IRTA Investigación y Tecnología Agroalimentarias - Autor o coautor

USDA ARS, Appalachian Fruit Res Stn, Kearneysville, WV 25430 USA - Autor o coautor

Veure més

Resum

Apples are subjected to both abiotic and biotic stresses during the postharvest period, which lead to large economic losses worldwide. To obtain biochemical insights into apple defense response, we monitored the protein abundance changes (proteome), as well as the protein carbonyls (oxi-proteome) formed by reactive oxygen species (ROS) in 'Golden Smoothee' apple in response to wounding, Penicillium expansum (host) and Penicillium digitatum (non-host) pathogens with select transcriptional studies. To examine the biological relevance of the results, we described quantitative and oxidative protein changes into the gene ontology functional categories, as well as into de KEGG pathways. We identified 26 proteins that differentially changed in abundance in response to wounding, P. expansum or P. digitatum infection. While these changes showed some similarities between the apple responses and abiotic and biotic stresses, Mal d 1.03A case, other proteins as Mal d 1.03E and EF-Tu were specifically induced in response to P. digitatum infection. Using a protein carbonyl detection method based on fluorescent Bodipy, we detected and identified 27 oxidized proteins as sensitive ROS targets. These ROS target proteins were related to metabolism processes, suggesting that this process plays a leading role in apple fruit defense response against abiotic and biotic stresses. ACC oxidase and two glutamine synthetases showed the highest protein oxidation level in response to P. digitatum infection. Documenting changes in the proteome and, specifically in oxi-proteome of apple can provide information that can be used to better understand how impaired protein functions may affect apple defense mechanisms. Possible mechanisms by which these modified proteins are involved in fruit defense response are discussed.Mechanical damage in apple fruits is linked annually to large economic losses due to opportunistic infection by postharvest pathogens, such as P. expansum. Despite the current use of chemical fungicides and the implementation of new alternative strategies, blue mold remains a critical disease of these stored fruits worldwide. Actual trends are focused on acquiring the knowledge of the host-pathogen interactions because it may help on finding new rational and environmentally friendly control alternatives. Despite the economic importance of some postharvest diseases, proteomics has only been applied in a few cases to study fruit-pathogen interactions. On the one hand, this is the first study that monitored changes at the proteome and oxi-proteome level in 'Golden Smoothee' apple fruits in response to P. expansum (compatible) and P. digitatum (non-host) pathogens. On the other hand, the main technological innovation of the reported research is the detection and quantification of oxidized (carbonylated) proteins to assess protein oxidative damage, avoiding the immunoblotting technique. The importance of the biological process investigated lies in the different mechanisms induced in fruit in response to P. expansum and P. digitatum. Results revealed that fruit recognizes and reacts to P. expansum in a similar manner to wounding, while its response to P. digitatum exhibits few differences in the protein profile. Documenting changes in the proteome and, specifically in oxi-proteome of apple can provide information that can be used to better understand how impaired protein functions may affect apple defense mechanisms. It also provides new biomarkers for oxidative damage mainly caused by the oxidative response occurring in fruit tissue in response to a host and a non-host pathogen.Copyright © 2014 Elsevier B.V. All rights reserved.

Paraules clau

blue moldexpressionfruitgene familygreen moldhydrogen-peroxideinfectionmalus domesticaoxidative stressprotein oxidationresistancert-qpcrsalicylic-acidtranscription factorBlue moldDefense-related proteinsElectrophoresis, gel, two-dimensionalFruitGreen moldHost specificityHost-pathogen interactionsMalusMalus domesticaOxidation-reductionOxidative stressPenicilliumPlant diseasesPlant proteinsProtein oxidationProteomeReactive oxygen speciesRt-qpcrStress, physiological

Indicis de qualitat

Impacte bibliomètric. Anàlisi de la contribució i canal de difusió

El treball ha estat publicat a la revista Journal Of Proteomics a causa de la seva progressió i el bon impacte que ha aconseguit en els últims anys, segons l'agència WoS (JCR), s'ha convertit en una referència en el seu camp. A l'any de publicació del treball, 2015, es trobava a la posició 15/77, aconseguint així situar-se com a revista Q1 (Primer Cuartil), en la categoria Biochemical Research Methods.

Des d'una perspectiva relativa, i atenent a l'indicador de impacte normalitzat calculat a partir del Field Citation Ratio (FCR) de la font Dimensions, proporciona un valor de: 2.14, el que indica que, comparat amb treballs en la mateixa disciplina i en el mateix any de publicació, el situa com un treball citat per sobre de la mitjana. (font consultada: Dimensions Jul 2025)

Concretament, i atenent a les diferents agències d'indexació, aquest treball ha acumulat, fins a la data 2025-07-08, el següent nombre de cites:

WoS: 24
Scopus: 14
Europe PMC: 5

Impacte i visibilitat social

Anàlisi del lideratge dels autors institucionals

Aquest treball s'ha realitzat amb col·laboració internacional, concretament amb investigadors de: Israel; United States of America.

Hi ha un lideratge significatiu, ja que alguns dels autors pertanyents a la institució apareixen com a primer o últim signant, es pot apreciar en el detall: Primer Autor (BURON MOLES, GEMMA) i Últim Autor (TORRES SANCHIS, ROSARIO).