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dc.contributor.authorGohari, Gholamreza
dc.contributor.authorZareei, Elnaz
dc.contributor.authorKulak, Muhittin
dc.contributor.authorLabib, Parisa
dc.contributor.authorMahmoudi, Roghayeh
dc.contributor.authorPanahirad, Sima
dc.contributor.authorJafari, Hessam
dc.contributor.authorMahdavinia, Gholamreza
dc.contributor.authorJuárez Maldonado, Antonio
dc.contributor.authorLorenzo Rodríguez, José Manuel 
dc.date.accessioned2021-09-17T12:29:48Z
dc.date.available2021-09-17T12:29:48Z
dc.date.issued2021-09-02
dc.identifier.citationNanomaterials, 11(9): 2287 (2021)spa
dc.identifier.issn20794991
dc.identifier.urihttp://hdl.handle.net/11093/2468
dc.description.abstractThe production and sustainability of grape berries with high quality and health-promoting properties is a major goal. In this regard, nano-engineered materials are being used for improving the quality and marketability of berries. In this study, we investigated the potential role of chitosan–phenylalanine nanocomposites (CS–Phe NCs) in improving the quality of Flame Seedless (Vitis vinifera L.) grape berries, such as titratable acidity (TA), pH, total soluble solids (TSS), ascorbic acid, total phenolics, total flavonoids, anthocyanin, 2,2-diphenyl-1-picryl-hydrazyl-hydrate (DPPH) radical scavenging activity, and phenylalanine ammonia-lyase (PAL) activity. In this context, grape berries collected in two growing seasons (2018–2019) were screened. Regarding the experimental design, the treatments included chitosan at a 0.5% concentration (CS 0.5%), phenylalanine at 5 mM and 10 mM concentrations (Phe 5 mM and Phe 10 mM), and chitosan–phenylalanine nanocomposites (CS–Phe NCs) at 5 mM and 10 mM concentrations. The lowest TA was recorded in grape berries treated with CS–Phe NCs with a 10 mM concentration. However, treatments enhanced with TSS, which reached the highest value with 10 mM of CS–Phe NCs, were reflected as the highest ratio of TSS/TA with 10 mM of CS–Phe NC treatment. Nanocomposites (NCs) also increased pH values in both study years compared to the control. Similarly, the ascorbic acid and total phenolic content increased in response to NP treatment, reaching the highest value with 5 mM and 10 mM of CS–Phe NCs in 2018 and 2019, respectively. The highest flavonoid content was observed with 5 mM of CS–Phe NCs in both study years. In addition, the anthocyanin content increased with 5 and 10 mM of CS–Phe NCs. PAL activity was found to be the highest with 5 mM of CS–Phe NCs in both study years. In addition, in accordance with the increase in PAL activity, increased total phenolics and anthocyanin, and higher DPPH radical scavenging activity of the grapes were recorded with the treatments compared to the control. As deduced from the findings, the coating substantially influenced the metabolic pathway, and the subsequent alterations induced by the treatments were notably appreciated due to there being no adverse impacts perceived.eng
dc.language.isoengspa
dc.publisherNanomaterialsspa
dc.rightsAttribution 4.0 International
dc.rights.urihttp://creativecommons.org/licenses/by/4.0/
dc.titleImproving the berry quality and antioxidant potential of flame seedless grapes by foliar application of chitosan–phenylalanine nanocomposites (CS–Phe NCs)eng
dc.typearticlespa
dc.rights.accessRightsopenAccessspa
dc.identifier.doi10.3390/nano11092287
dc.identifier.editorhttps://www.mdpi.com/2079-4991/11/9/2287spa
dc.publisher.departamentoEnxeñaría químicaspa
dc.subject.unesco3309 Tecnología de Los Alimentosspa
dc.subject.unesco3309.90 Microbiología de Alimentosspa
dc.subject.unesco3206 Ciencias de la Nutriciónspa
dc.date.updated2021-09-15T08:50:30Z
dc.computerCitationpub_title=Nanomaterials|volume=11|journal_number=9|start_pag=2287|end_pag=spa
dc.referencesWe thank the central laboratory of the University of Maragheh, Iran, for its valuable support in biochemical analysis. In addition, we are thankful to Mostafa Sadeghi for his kind support in grape treatments during the study.eng


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    Except where otherwise noted, this item's license is described as Attribution 4.0 International