Tan Rui Yeong, Ilham Zul, Wan-Mohtar Wan Abd Al Qadr Imad, Abdul Halim-Lim Sarina, Ahmad Usuldin Siti Rokhiyah, Ahmad Rahayu, Adlim Muhammad
Biomass Energy Laboratory, Faculty of Science, Institute of Biological Sciences, Universiti Malaya, Kuala Lumpur, Malaysia.
Functional Omics and Bioprocess Development Laboratory, Faculty of Science, Institute of Biological Sciences, Universiti Malaya, Kuala Lumpur, Malaysia.
Heliyon. 2024 May 22;10(11):e31594. doi: 10.1016/j.heliyon.2024.e31594. eCollection 2024 Jun 15.
This review delves into the world of mushroom oils, highlighting their production, composition, and versatile applications. Despite mushrooms' overall low lipid content, their fatty acid composition, rich in essential fatty acids like linoleic acid and oleic acid, proves nutritionally significant. Variations in fatty acid profiles across mushroom species and the prevalence of unsaturated fats contribute to their cardiovascular health benefits. The exploration extends to mushroom essential oils, revealing diverse volatile compounds through extraction methods like hydrodistillation and solvent-assisted flavor evaporation (SAFE). The identification of 1-octen-3-ol as a key contributor to the distinct "mushroom flavor" adds a nuanced perspective. The focus broadens to applications, encompassing culinary and industrial uses with techniques like cold pressing and supercritical fluid extraction (SFE). Mushroom oils, with their unique nutritional and flavor profiles, enhance gastronomic experiences. Non-food applications in cosmetics and biofuels underscore the oils' versatility. The nutritional composition, enriched with essential fatty acids, bioactive compositions, and trace elements, is explored for potential health benefits. Bioactive compounds such as phenolic compounds and terpenes contribute to antioxidant and anti-inflammatory properties, positioning mushroom oils as nutritional powerhouses. In short, this concise review synthesizes the intricate world of mushroom oils, emphasizing their nutritional significance, extraction methodologies, and potential health benefits. The comprehensive overview underscores mushroom oils as a promising area for further exploration and utilization. The characteristics of mushroom biomass oil for the use in various industries are influenced by the mushroom species, chemical composition, biochemical synthesis of mushroom, and downstream processes including extraction, purification and characterization. Therefore, further research and exploration need to be done to achieve a circular bioeconomy with the integration of SDGs, waste reduction, and economic stimulation, to fully utilize the benefits of mushroom, a valuable gift of nature.
本综述深入探讨了蘑菇油的世界,重点介绍了它们的生产、成分和广泛应用。尽管蘑菇的总体脂质含量较低,但其富含亚油酸和油酸等必需脂肪酸的脂肪酸组成在营养方面具有重要意义。不同蘑菇品种的脂肪酸谱差异以及不饱和脂肪的普遍存在对心血管健康有益。研究还扩展到蘑菇精油,通过水蒸馏和溶剂辅助风味蒸发(SAFE)等提取方法揭示了多种挥发性化合物。鉴定出1-辛烯-3-醇是独特“蘑菇味”的关键成分,为研究增添了细微差别。重点扩大到应用领域,包括冷压和超临界流体萃取(SFE)等烹饪和工业用途。蘑菇油具有独特的营养和风味特征,提升了美食体验。在化妆品和生物燃料中的非食品应用凸显了这些油的多功能性。人们探索了富含必需脂肪酸、生物活性成分和微量元素的营养成分的潜在健康益处。酚类化合物和萜类等生物活性化合物具有抗氧化和抗炎特性,使蘑菇油成为营养宝库。简而言之,这篇简明综述综合了蘑菇油的复杂世界,强调了它们的营养意义、提取方法和潜在健康益处。全面概述强调蘑菇油是一个有前景的进一步探索和利用领域。用于各种行业的蘑菇生物质油的特性受蘑菇品种、化学成分、蘑菇的生化合成以及包括提取、纯化和表征在内的下游工艺影响。因此,需要进一步研究和探索,以实现将可持续发展目标、减少废物和经济刺激相结合的循环生物经济,充分利用蘑菇这一自然的宝贵馈赠的益处。
