蓝藻IPPAS B-1200产多糖的优化研究

Q3 Economics, Econometrics and Finance Food Processing: Techniques and Technology Pub Date : 2023-09-29 DOI:10.21603/2074-9414-2023-3-2463
Stanislav Sukhikh, Ekaterina Budenkova, Yulia-Danae Boychenko, Veronika Anokhova, Vyacheslav Dolganyuk, Egor Kashirskich
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引用次数: 0

摘要

IPPAS B-1200是一种蓝藻菌株,属于稀有的蓝藻属,蓝藻科。11 .从该菌株中分离次生代谢物的研究主要集中在脂肪酸组成上,而分离和鉴定外多糖的问题仍未得到充分研究。然而,蓝藻多糖在生物技术、医学、药理学等领域具有科学和经济意义。研究的目的是研究培养的理化条件和培养基的组成对胞外多糖产量的影响。蓝藻sp. B-1200在7500±50 lux (12 h光照/12 h黑暗)下生长。通过重量法和校正图测定了干电池重量,校正图显示了生物量与750 nm波长吸收程度的关系。用硫酸蒽酮法测定培养液中多糖的含量。采用醇沉法提取。采用超声分散法对蓝藻细胞壁进行破坏。& # x0D;通过实验研究,确定了从培养基中提取和纯化外多糖的最佳工艺条件。从培养基中去除碳酸氢钠并将其浓度提高300%,提高了多糖的产量。合成多糖的最佳活性酸度为pH = 6,积累多糖的最佳温度为35℃。在25°C时获得的生物质量最大。强烈的白色光照有利于胞外多糖释放到培养基中;红白光照对蓝藻细胞形态有影响。在萃取过程中,萃取剂的浓度、温度和性质是最重要的因素。例如,异丙醇的产率最高,而丁醇的反应效果最差。& # x0D;多糖的最佳提取纯化方式如下:对于超声处理,在功率为20 W的条件下,5 min后获得最佳效果。对于冷冻干燥,最佳参数为-15℃下,8 h。
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Optimizing the Production of Polysaccharides from Cyanobacterium sp. IPPAS B-1200
Cyanobacterium sp. IPPAS B-1200 is a cyanobacteria strain that belongs to the rare genus Cyanobacterium, family Cyanobacteriaceae fam. nov. Studies devoted to the isolation of secondary metabolites from this strain concentrate mostly on the fatty acid composition while the issue of isolating and identifying exopolysaccharides remains understudied. However, polysaccharides from cyanobacteria are of scientific and economic interest in the framework of biotechnology, medicine, pharmacology, etc. The research objective was to study the effect of the physicochemical conditions of cultivation and the composition of the cultural medium on exopolysaccharide production. Cyanobacterium sp. B-1200 were grown under 7500 ± 50 lux (12 h light/12 h dark). The dry cell weight was determined by gravimetry and a calibration plot that illustrated the dependence of the biomass amount on the degree of absorption at a wavelength of 750 nm. The amount of polysaccharides in the culture liquid was assessed by the Anthrone-sulphate method. The extraction was carried out by alcohol precipitation. The method of ultrasonic dispersion was used to destroy the cell walls of cyanobacteria. The experimental study revealed the optimal parameters for the extraction and purification of exopolysaccharides from the culture medium. Removal of sodium bicarbonate from the medium and a 300%-increase in its concentration raised the yield of polysaccharides. The optimal value of active acidity for the synthesis of polysaccharides was pH = 6 while the optimal temperature for their accumulation was 35°C. The largest amount of biomass was obtained at 25°C. Intense white illumination contributed to the greatest release of exopolysaccharides into the culture medium; red-white illumination affected the morphology of cyanobacteria cells. During the extraction, the concentration, temperature, and nature of the extractant proved to be the most important factors. For example, isopropanol produced the highest yield while butanol triggered the least effective response. The optimal extraction and purification modes for polysaccharides were as follows. For ultrasonic processing, the best results were obtained at a power of 20 W after 5 min. For freeze drying, the rational parameters were 8 h at –15°C.
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来源期刊
Food Processing: Techniques and Technology
Food Processing: Techniques and Technology Engineering-Industrial and Manufacturing Engineering
CiteScore
1.40
自引率
0.00%
发文量
82
审稿时长
12 weeks
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