INRA-UMR 619 Biologie du Fruit, Centre INRA de Bordeaux, Villenave d'Ornon, France.
New Phytol. 2011 May;190(3):683-96. doi: 10.1111/j.1469-8137.2010.03626.x. Epub 2011 Jan 28.
• 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.
• 组织发育和空间组成的差异对成熟肉质果实(包括甜瓜(Cucumis melo))的营养和感官品质有重大影响。为了更深入地了解这些变化涉及的机制,我们确定了关键代谢物,以实现合理的食品质量设计。 • 采用前所未有的一系列互补分析技术对代谢组、挥发物和矿物质元素进行了分析。在最终成熟过程中,在多个时间点对果实进行了跟踪,并在果皮到种子腔的整个果肉中收集了组织。在对甜瓜果实发育的时间和空间评估中,大约确定了 2000 种代谢物特征和 15 种矿物质元素。 • 这种研究设计使我们能够识别:代谢关联网络中的核心调节枢纽(包括天冬氨酸、2-异丙基苹果酸、β-胡萝卜素、番茄红素和二氢假紫罗兰酮);协调组成变化的全局模式;以及初级和次级代谢与关键矿物质和挥发性水果成分之间的联系。 • 研究结果揭示了与成熟果实品质相关的代谢相互作用的程度,从而能够确定用于高通量筛选甜瓜育种群体的重要候选代谢物,以针对营养和风味改良进行目标性的育种计划。
