Improved yield of UV and heat-stable Monascus yellow pigment by statistical optimization of solid-state fermentation conditions and extraction process

IF 6.3 1区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY
Sandip Ghosh, Abhinaba Chakraborty, Bomba Dam
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Abstract

Monascus species are well-known for their ability to produce biocolorants. A high-performing strain, M. purpureus F2–19, was recently developed by genome shuffling. Here, the entire bioprocess, starting from solid-state fermentation conditions to the extraction method, was statistically optimized to improve yellow pigment yield by the strain. Among culture conditions, monosodium glutamate concentration (used as nitrogen source), moisture content, and incubation period significantly influenced pigment production using less expensive broken rice as a substrate. Post-optimization, a yield of 1548.4 ± 14.6 AU/g was achieved, representing a 9.7-fold increase over the primary condition. The statistical model developed using central composite design of response surface methodology (CCD-RSM) is highly significant, with a P value of <0.0001. Similarly, a significant model (P < 0.0001) for extraction improved pigment yield further by 1.16-fold (actual output: 1796.4 ± 13.4 AU/g). The pigment remained highly stable with a preservation rate of ∼90 % after 2.5 h exposure to a high temperature of 100 °C or UV light (254 nm). Even autoclaving at 121 °C for 15 min preserved 96.9 % of the pigment. These values are higher than reported for other commercial microbial yellow pigments, riboflavin, β-carotene, or lutein, thus highlighting its potential as a natural food colorant. Liquid chromatography-mass spectrometry (LC-MS) of the pigment identified nine distinct yellow compounds, with monascin being the most abundant. Thus, the optimized bioprocess would facilitate economical large-scale production of the yellow pigment; but its implementation still requires efficient selection of bioreactors and optimizations of scaling-up, especially the heat and mass transfer parameters.

Abstract Image

通过统计优化固态发酵条件和提取工艺,提高紫外线和热稳定性莫纳斯卡黄色素的产量
大马士革菌以其生产生物着色剂的能力而闻名。最近,通过基因组洗牌培育出了一株高效菌株--M. purpureus F2-19。在这里,从固态发酵条件到提取方法,对整个生物过程进行了统计优化,以提高该菌株的黄色素产量。在培养条件中,谷氨酸钠浓度(用作氮源)、含水量和培养期对以价格较低的碎米为基质的色素产量有显著影响。优化后的产量为 1548.4 ± 14.6 AU/g,比初始条件提高了 9.7 倍。采用响应面方法的中央复合设计(CCD-RSM)建立的统计模型非常显著,P 值为 <0.0001。同样,一个显著的提取模型(P <0.0001)将色素产量进一步提高了 1.16 倍(实际产量:1796.4 ± 13.4 AU/g)。色素在 100 °C 高温或紫外线(254 纳米)照射 2.5 小时后仍保持高度稳定,保存率达 90%。即使在 121 °C 高温高压灭菌 15 分钟后,也能保存 96.9 % 的颜料。这些值高于其他商业微生物黄色素、核黄素、β-胡萝卜素或叶黄素的报告值,因此凸显了其作为天然食品着色剂的潜力。该色素的液相色谱-质谱法(LC-MS)鉴定出了九种不同的黄色化合物,其中单链霉素含量最高。因此,优化的生物工艺将有助于经济地大规模生产黄色素;但其实施仍需要有效地选择生物反应器和优化扩大规模,特别是传热和传质参数。
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来源期刊
CiteScore
12.00
自引率
6.10%
发文量
259
审稿时长
25 days
期刊介绍: Innovative Food Science and Emerging Technologies (IFSET) aims to provide the highest quality original contributions and few, mainly upon invitation, reviews on and highly innovative developments in food science and emerging food process technologies. The significance of the results either for the science community or for industrial R&D groups must be specified. Papers submitted must be of highest scientific quality and only those advancing current scientific knowledge and understanding or with technical relevance will be considered.
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