Effect of drying treatments on the global metabolome and health-related compounds in tomatoes

Sena Bakir; Robert D. Hall; Ric C.H. de Vos; Roland Mumm; Çetin Kadakal; Esra Capanoglu

doi:10.1016/j.foodchem.2022.134123

Effect of drying treatments on the global metabolome and health-related compounds in tomatoes

Sena Bakir^*, Robert D. Hall, Ric C.H. de Vos, Roland Mumm, Çetin Kadakal, Esra Capanoglu

^*Corresponding author for this work

Department of Food Engineering

Research output: Contribution to journal › Article › peer-review

14 Citations (Scopus)

Abstract

Drying fruits and vegetables is a long-established preservation method, and for tomatoes, in most cases sun-drying is preferred. Semi-drying is relatively a new application aimed to preserve better the original tomato properties. We have assessed the effects of different drying methods on the phytochemical variation in tomato products using untargeted metabolomics and targeted analyses of key compounds. An LC-MS approach enabled the relative quantification of 890 mostly semi-polar secondary metabolites and GC–MS analysis in the relative quantification of 270 polar, mostly primary metabolites. Metabolite profiles of sun-dried and oven-dried samples were clearly distinct and temperature-dependent. Both treatments caused drastic changes in lycopene and vitamins with losses up to > 99% compared to freeze-dried controls. Semi-drying had less impact on these compounds. In vitro bioaccessibility analyses of total phenolic compounds and antioxidants in a gastrointestinal digestion protocol revealed the highest recovery rates in semi-dried fruits. Semi-drying is a better way of preserving tomato phytochemicals, based on both composition and bioaccessibility results.

Original language	English
Article number	134123
Journal	Food Chemistry
Volume	403
DOIs	https://doi.org/10.1016/j.foodchem.2022.134123
Publication status	Published - 1 Mar 2023

Bibliographical note

Publisher Copyright:
© 2022 Elsevier Ltd

Funding

This study was financially supported by The Scientific and Technological Research Council of Turkey (TUBITAK) with 2214-A International Research Fellowship Programme for PhD student (application number 1059B141700390) and by the Istanbul Technical University Scientific Research Projects (BAP) Unit (Project ID number: 40511). The authors also thank Bert Schipper and Henriëtte van Eekelen, both from Bioscience Wageningen-UR, for their excellent help in sample extraction, extract analyses by LC-MS and GC-MS and data processing. We also thank to Oykum Bahar ESEN and Tugce YILMAZ for providing fruit materials. This study was financially supported by The Scientific and Technological Research Council of Turkey (TUBITAK) with 2214-A International Research Fellowship Programme for PhD student (application number 1059B141700390) and by the Istanbul Technical University Scientific Research Projects (BAP) Unit (Project ID number: 40511).

Funders	Funder number
Bert Schipper and Henriëtte van Eekelen
Istanbul Technical University Scientific Research Projects
Türkiye Bilimsel ve Teknolojik Araştırma Kurumu	1059B141700390
Bilimsel Araştırma Projeleri Birimi, İstanbul Teknik Üniversitesi	40511

Keywords

Bioactive compounds
Dried tomatoes
In vitro bioaccessibility
Metabolomics
Vitamins

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10.1016/j.foodchem.2022.134123

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title = "Effect of drying treatments on the global metabolome and health-related compounds in tomatoes",

abstract = "Drying fruits and vegetables is a long-established preservation method, and for tomatoes, in most cases sun-drying is preferred. Semi-drying is relatively a new application aimed to preserve better the original tomato properties. We have assessed the effects of different drying methods on the phytochemical variation in tomato products using untargeted metabolomics and targeted analyses of key compounds. An LC-MS approach enabled the relative quantification of 890 mostly semi-polar secondary metabolites and GC–MS analysis in the relative quantification of 270 polar, mostly primary metabolites. Metabolite profiles of sun-dried and oven-dried samples were clearly distinct and temperature-dependent. Both treatments caused drastic changes in lycopene and vitamins with losses up to > 99% compared to freeze-dried controls. Semi-drying had less impact on these compounds. In vitro bioaccessibility analyses of total phenolic compounds and antioxidants in a gastrointestinal digestion protocol revealed the highest recovery rates in semi-dried fruits. Semi-drying is a better way of preserving tomato phytochemicals, based on both composition and bioaccessibility results.",

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AU - Bakir, Sena

AU - Hall, Robert D.

AU - de Vos, Ric C.H.

AU - Mumm, Roland

AU - Kadakal, Çetin

AU - Capanoglu, Esra

PY - 2023/3/1

Y1 - 2023/3/1

N2 - Drying fruits and vegetables is a long-established preservation method, and for tomatoes, in most cases sun-drying is preferred. Semi-drying is relatively a new application aimed to preserve better the original tomato properties. We have assessed the effects of different drying methods on the phytochemical variation in tomato products using untargeted metabolomics and targeted analyses of key compounds. An LC-MS approach enabled the relative quantification of 890 mostly semi-polar secondary metabolites and GC–MS analysis in the relative quantification of 270 polar, mostly primary metabolites. Metabolite profiles of sun-dried and oven-dried samples were clearly distinct and temperature-dependent. Both treatments caused drastic changes in lycopene and vitamins with losses up to > 99% compared to freeze-dried controls. Semi-drying had less impact on these compounds. In vitro bioaccessibility analyses of total phenolic compounds and antioxidants in a gastrointestinal digestion protocol revealed the highest recovery rates in semi-dried fruits. Semi-drying is a better way of preserving tomato phytochemicals, based on both composition and bioaccessibility results.

AB - Drying fruits and vegetables is a long-established preservation method, and for tomatoes, in most cases sun-drying is preferred. Semi-drying is relatively a new application aimed to preserve better the original tomato properties. We have assessed the effects of different drying methods on the phytochemical variation in tomato products using untargeted metabolomics and targeted analyses of key compounds. An LC-MS approach enabled the relative quantification of 890 mostly semi-polar secondary metabolites and GC–MS analysis in the relative quantification of 270 polar, mostly primary metabolites. Metabolite profiles of sun-dried and oven-dried samples were clearly distinct and temperature-dependent. Both treatments caused drastic changes in lycopene and vitamins with losses up to > 99% compared to freeze-dried controls. Semi-drying had less impact on these compounds. In vitro bioaccessibility analyses of total phenolic compounds and antioxidants in a gastrointestinal digestion protocol revealed the highest recovery rates in semi-dried fruits. Semi-drying is a better way of preserving tomato phytochemicals, based on both composition and bioaccessibility results.

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Effect of drying treatments on the global metabolome and health-related compounds in tomatoes

Abstract

Bibliographical note

Funding

Keywords

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