Extensive metabolic cross-talk in melon fruit revealed by spatial and developmental combinatorial metabolomics

Annick Moing; Asaph Aharoni; Benoit Biais; Ilana Rogachev; Sagit Meir; Leonid Brodsky; J. William Allwood; Alexander Erban; Warwick B. Dunn; Lorraine Kay; Sjaak de Koning; Ric C.H. de Vos; Harry Jonker; Roland Mumm; Catherine Deborde; Michael  Maucourt; Stéphane Bernillon; Yves Gibon; Thomas Hesselhøj Hansen; Søren Husted; Royston Goodacre; Joachim Kopka; Jan Kofod Schjørring; Dominique Rolin; Robert D. Hall

doi:10.1111/j.1469-8137.2010.03626.x

Extensive metabolic cross-talk in melon fruit revealed by spatial and developmental combinatorial metabolomics

Annick Moing, Asaph Aharoni, Benoit Biais, Ilana Rogachev, Sagit Meir, Leonid Brodsky, J. William Allwood, Alexander Erban, Warwick B. Dunn, Lorraine Kay, Sjaak de Koning, Ric C.H. de Vos, Harry Jonker, Roland Mumm, Catherine Deborde, Michael Maucourt, Stéphane Bernillon, Yves Gibon, Thomas Hesselhøj Hansen, Søren HustedRoyston Goodacre, Joachim Kopka, Jan Kofod Schjørring, Dominique Rolin, Robert D. Hall

82 Citationer (Scopus)

Abstract

Variations in tissue development and spatial composition have a major impact on the nutritional and organoleptic qualities of ripe fleshy fruit, including melon (Cucumis melo). To gain a deeper insight into the mechanisms involved in these changes, we identified key metabolites for rational food quality design. The metabolome, volatiles and mineral elements were profiled employing an unprecedented range of complementary analytical technologies. Fruits were followed at a number of time points during the final ripening process and tissues were collected across the fruit flesh from rind to seed cavity. Approximately 2000 metabolite signatures and 15 mineral elements were determined in an assessment of temporal and spatial melon fruit development. This study design enabled the identification of: coregulated hubs (including aspartic acid, 2-isopropylmalic acid, β-carotene, phytoene and dihydropseudoionone) in metabolic association networks; global patterns of coordinated compositional changes; and links of primary and secondary metabolism to key mineral and volatile fruit complements. The results reveal the extent of metabolic interactions relevant to ripe fruit quality and thus have enabled the identification of essential candidate metabolites for the high-throughput screening of melon breeding populations for targeted breeding programmes aimed at nutrition and flavour improvement.

Originalsprog	Engelsk
Tidsskrift	New Phytologist
Vol/bind	190
Udgave nummer	3
Sider (fra-til)	683-696
Antal sider	14
ISSN	0028-646X
DOI	https://doi.org/10.1111/j.1469-8137.2010.03626.x
Status	Udgivet - maj 2011

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10.1111/j.1469-8137.2010.03626.x

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Moing, A., Aharoni, A., Biais, B., Rogachev, I., Meir, S., Brodsky, L., Allwood, J. W., Erban, A., Dunn, W. B., Kay, L., Koning, S. D., Vos, R. C. H. D., Jonker, H., Mumm, R., Deborde, C., Maucourt, M., Bernillon, S., Gibon, Y., Hansen, T. H., ... Hall, R. D. (2011). Extensive metabolic cross-talk in melon fruit revealed by spatial and developmental combinatorial metabolomics. New Phytologist, 190(3), 683-696. https://doi.org/10.1111/j.1469-8137.2010.03626.x

Moing, A, Aharoni, A, Biais, B, Rogachev, I, Meir, S, Brodsky, L, Allwood, JW, Erban, A, Dunn, WB, Kay, L, Koning, SD, Vos, RCHD, Jonker, H, Mumm, R, Deborde, C, Maucourt, M, Bernillon, S, Gibon, Y, Hansen, TH , Husted, S, Goodacre, R, Kopka, J, Schjørring, JK, Rolin, D & Hall, RD 2011, 'Extensive metabolic cross-talk in melon fruit revealed by spatial and developmental combinatorial metabolomics', New Phytologist, bind 190, nr. 3, s. 683-696. https://doi.org/10.1111/j.1469-8137.2010.03626.x

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abstract = "Variations in tissue development and spatial composition have a major impact on the nutritional and organoleptic qualities of ripe fleshy fruit, including melon (Cucumis melo). To gain a deeper insight into the mechanisms involved in these changes, we identified key metabolites for rational food quality design. The metabolome, volatiles and mineral elements were profiled employing an unprecedented range of complementary analytical technologies. Fruits were followed at a number of time points during the final ripening process and tissues were collected across the fruit flesh from rind to seed cavity. Approximately 2000 metabolite signatures and 15 mineral elements were determined in an assessment of temporal and spatial melon fruit development. This study design enabled the identification of: coregulated hubs (including aspartic acid, 2-isopropylmalic acid, β-carotene, phytoene and dihydropseudoionone) in metabolic association networks; global patterns of coordinated compositional changes; and links of primary and secondary metabolism to key mineral and volatile fruit complements. The results reveal the extent of metabolic interactions relevant to ripe fruit quality and thus have enabled the identification of essential candidate metabolites for the high-throughput screening of melon breeding populations for targeted breeding programmes aimed at nutrition and flavour improvement.",

author = "Annick Moing and Asaph Aharoni and Benoit Biais and Ilana Rogachev and Sagit Meir and Leonid Brodsky and Allwood, {J. William} and Alexander Erban and Dunn, {Warwick B.} and Lorraine Kay and Koning, {Sjaak de} and Vos, {Ric C.H. de} and Harry Jonker and Roland Mumm and Catherine Deborde and Michael Maucourt and St{\'e}phane Bernillon and Yves Gibon and Hansen, {Thomas Hesselh{\o}j} and S{\o}ren Husted and Royston Goodacre and Joachim Kopka and Schj{\o}rring, {Jan Kofod} and Dominique Rolin and Hall, {Robert D.}",

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doi = "10.1111/j.1469-8137.2010.03626.x",

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AU - Moing, Annick

AU - Aharoni, Asaph

AU - Biais, Benoit

AU - Rogachev, Ilana

AU - Meir, Sagit

AU - Brodsky, Leonid

AU - Allwood, J. William

AU - Erban, Alexander

AU - Dunn, Warwick B.

AU - Kay, Lorraine

AU - Koning, Sjaak de

AU - Vos, Ric C.H. de

AU - Jonker, Harry

AU - Mumm, Roland

AU - Deborde, Catherine

AU - Maucourt, Michael

AU - Bernillon, Stéphane

AU - Gibon, Yves

AU - Hansen, Thomas Hesselhøj

AU - Husted, Søren

AU - Goodacre, Royston

AU - Kopka, Joachim

AU - Schjørring, Jan Kofod

AU - Rolin, Dominique

AU - Hall, Robert D.

PY - 2011/5

Y1 - 2011/5

N2 - Variations in tissue development and spatial composition have a major impact on the nutritional and organoleptic qualities of ripe fleshy fruit, including melon (Cucumis melo). To gain a deeper insight into the mechanisms involved in these changes, we identified key metabolites for rational food quality design. The metabolome, volatiles and mineral elements were profiled employing an unprecedented range of complementary analytical technologies. Fruits were followed at a number of time points during the final ripening process and tissues were collected across the fruit flesh from rind to seed cavity. Approximately 2000 metabolite signatures and 15 mineral elements were determined in an assessment of temporal and spatial melon fruit development. This study design enabled the identification of: coregulated hubs (including aspartic acid, 2-isopropylmalic acid, β-carotene, phytoene and dihydropseudoionone) in metabolic association networks; global patterns of coordinated compositional changes; and links of primary and secondary metabolism to key mineral and volatile fruit complements. The results reveal the extent of metabolic interactions relevant to ripe fruit quality and thus have enabled the identification of essential candidate metabolites for the high-throughput screening of melon breeding populations for targeted breeding programmes aimed at nutrition and flavour improvement.

AB - Variations in tissue development and spatial composition have a major impact on the nutritional and organoleptic qualities of ripe fleshy fruit, including melon (Cucumis melo). To gain a deeper insight into the mechanisms involved in these changes, we identified key metabolites for rational food quality design. The metabolome, volatiles and mineral elements were profiled employing an unprecedented range of complementary analytical technologies. Fruits were followed at a number of time points during the final ripening process and tissues were collected across the fruit flesh from rind to seed cavity. Approximately 2000 metabolite signatures and 15 mineral elements were determined in an assessment of temporal and spatial melon fruit development. This study design enabled the identification of: coregulated hubs (including aspartic acid, 2-isopropylmalic acid, β-carotene, phytoene and dihydropseudoionone) in metabolic association networks; global patterns of coordinated compositional changes; and links of primary and secondary metabolism to key mineral and volatile fruit complements. The results reveal the extent of metabolic interactions relevant to ripe fruit quality and thus have enabled the identification of essential candidate metabolites for the high-throughput screening of melon breeding populations for targeted breeding programmes aimed at nutrition and flavour improvement.

U2 - 10.1111/j.1469-8137.2010.03626.x

DO - 10.1111/j.1469-8137.2010.03626.x

M3 - Journal article

C2 - 21275993

SN - 0028-646X

VL - 190

SP - 683

EP - 696

JO - New Phytologist

JF - New Phytologist

IS - 3

ER -

Extensive metabolic cross-talk in melon fruit revealed by spatial and developmental combinatorial metabolomics

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