Qualisud, Univ Montpellier, CIRAD, Institut Agro, Univ Avignon, Univ La Réunion, IRD, Montpellier F-34398, France.
SAS Lallemand, Blagnac F-31702, France.
J Agric Food Chem. 2024 Jul 17;72(28):15788-15800. doi: 10.1021/acs.jafc.4c03086. Epub 2024 Jul 8.
An experimental setup was devised to investigate the permeability of cocoa bean seed coat and pulp to key volatile compounds during fermentation. Four labeled compounds (ethyl acetate-3, ethyl octanoate-15, 2-phenylethanol-5, linalool-5) and 2 unlabeled (beta-damascenone, delta-decalactone) were chosen for the investigation. The beans (cotyledons), depulped beans, or pulped beans were immersed separately in a concentrated solution of these volatile compounds at 36 or 46 °C for durations ranging from 3 to 120 h. The imbibed beans were dissected, and the cotyledons were analyzed by SPME-GC/MS. The diffusion of volatile compounds from the external solution to the seed was categorized into three groups: (1) not diffusible (ethyl octanoate-15); (2) semidiffusible (ethyl acetate); and (3) totally diffusible (2-phenylethanol-5, linalool-5, beta-damascenone, delta-decalactone). The impact of the yeast on volatile compound diffusion was also investigated by immerging the pulped beans into the same concentrated solution with a yeast starter. Results highlighted the positive role of yeast in the diffusion of volatile compounds. The starter positively contributed to volatile compound diffusion after a transition phase occurring at approximately 48 h of fermentation, enriching the cocoa beans with key aromatic volatile compounds.
设计了一个实验装置来研究可可豆种皮和果肉在发酵过程中对关键挥发性化合物的渗透性。选择了 4 种标记化合物(乙酸乙酯-3、辛酸乙酯-15、2-苯乙醇-5、芳樟醇-5)和 2 种未标记化合物(β-大马酮、δ-癸内酯)进行研究。将豆子(子叶)、去果肉的豆子或果肉分别浸泡在这些挥发性化合物的浓缩溶液中,温度为 36 或 46°C,时间从 3 到 120 小时不等。浸泡后的豆子被解剖,子叶通过 SPME-GC/MS 进行分析。挥发性化合物从外部溶液扩散到种子中可分为三组:(1)不可扩散(辛酸乙酯-15);(2)半扩散(乙酸乙酯);(3)完全扩散(2-苯乙醇-5、芳樟醇-5、β-大马酮、δ-癸内酯)。还通过将果肉浸泡在含有酵母启动剂的相同浓缩溶液中,研究了酵母对挥发性化合物扩散的影响。结果突出了酵母在挥发性化合物扩散中的积极作用。在发酵约 48 小时的过渡阶段后,启动剂对挥发性化合物的扩散产生了积极影响,使可可豆富含关键的芳香挥发性化合物。
