Effect of different sugar sources on P. Rhodozyma y1654 growth and astaxanthin production

Q2 Agricultural and Biological Sciences Agronomy research Pub Date : 2020-01-01 DOI:10.15159/AR.20.117

Osman Nabayire Kanwugu, S. Shatunova, T. Glukhareva, E. Kovaleva

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引用次数: 5

Abstract

Phaffia rhodozyma (also known as Xanthophyllomyces dendrorhous) is one of the most promising natural sources of commercial astaxanthin. It has high growth rates, easy cultivation conditions and able to utilize different carbon substrates. This provides an opportunity to further lower production cost by using industrial waste such as molasses. This research therefore evaluates the growth dynamic and astaxanthin production of P. rhodozyma Y1654 growing on soy and sugar beet molasses-based media. Liquid growth media based on soy molasses (SM), sugar beet molasses (SBM) and glucose (control) as main sugar source with peptone and yeast extract supplementation were inoculated with 48 h old seed culture (grown in standard glucose media: 2.0% glucose, 1.0% peptone, 0.2% yeast extract) and incubated at 20 °C with stirring speed of 180 rpm for 7 days. Samples were taken daily throughout the study period to assess; cell count, dry cell weight (DCW) and amount of astaxanthin. Soy molasses-based media resulted in the highest biomass yield (7.7 g L) followed by SBM (5.8 g L). Generally, more than 90% of initial fermentable sugar was consumed at the end of the study. However, about 40% of total sugar in SM was unassimilable by P. rhodozyma Y1654. The highest astaxanthin yield was observed in the control media (77 µg g of DCW). Cultivation of P. rhodozyma Y1654 in SBM resulted in as much as twice (32.8 µg g of DCW) the astaxanthin yield of SM (12.4 µg g DCW). Molasses-based media are good for growth of P. rhodozyma Y1654 but for astaxanthin production, they need further optimization.

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不同糖源对P. Rhodozyma y1654生长和虾青素产量的影响

法菲红酵母(又称树突黄叶菌)是最有前途的商业虾青素天然来源之一。它生长速度快，栽培条件好，能利用不同的碳基质。这为利用糖蜜等工业废料进一步降低生产成本提供了机会。因此，本研究评估了红霉菌Y1654在大豆和甜菜糖蜜培养基上的生长动态和虾青素产量。以大豆糖蜜(SM)、甜菜糖蜜(SBM)和葡萄糖(对照)为主要糖源，添加蛋白胨和酵母浸膏的液体培养基接种种子培养48 h(在标准葡萄糖培养基中培养:2.0%葡萄糖、1.0%蛋白胨、0.2%酵母浸膏)，在20℃、180转/分搅拌速度下培养7 d。在整个研究期间每天采集样本进行评估;细胞计数、干细胞重(DCW)和虾青素含量。以大豆糖蜜为基础的培养基的生物量产量最高(7.7 g L)，其次是SBM (5.8 g L)。通常，在研究结束时，超过90%的初始可发酵糖被消耗掉。而SM中约40%的总糖不能被酵母Y1654吸收。对照培养基(77µg g DCW)虾青素产量最高。在SBM中培养P. rhodozyma Y1654的虾青素产量(32.8µg g DCW)是SM(12.4µg DCW)的两倍。以糖蜜为基础的培养基有利于P. rhodozyma Y1654的生长，但对于虾青素的生产还需要进一步优化。

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来源期刊

Agronomy research Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

2.10

自引率

0.00%

发文量

审稿时长

7 weeks

期刊介绍： Agronomy Research is a peer-reviewed international Journal intended for publication of broad-spectrum original articles, reviews and short communications on actual problems of modern biosystems engineering including crop and animal science, genetics, economics, farm- and production engineering, environmental aspects, agro-ecology, renewable energy and bioenergy etc. in the temperate regions of the world.