不同氮浓度光生物反应器中平螺旋藻(Arthrospira Platensis)生物量、类胡萝卜素和脂质含量最大化的优化生长

Q1 Agricultural and Biological Sciences Recent patents on food, nutrition & agriculture Pub Date : 2020-01-01 DOI:10.2174/2212798410666181227125229
Hanaa H Abd El Baky, Gamal S El Baroty, Enas M Mostafa
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引用次数: 10

摘要

目的与背景:采用10升光生物反应器(10 L PBR),在含限氮、优氮和富氮三种氮浓度的Zarrouk培养基(ZM)中培养螺旋藻(Arthrospira platensis, SP)微藻15 d,研究其脂类化合物(总类胡萝卜素和总脂类)的变化及其对脂肪酸分布的影响。根据美国专利,从微藻生物质中提取的生物活性化合物(如γ -亚麻酸GLA, C18:3)的产量主要取决于提取工艺(1)。GLA因其降低血液胆固醇水平等治疗特性而备受关注。方法:研究了在培养物中添加N对platensis生长、生物量和诱导脂质化合物(总类胡萝卜素和总脂质含量及其脂肪酸谱)的影响,以及超声(SON)和微波(MIC)工艺作为辅助脂质提取技术与冷条件(COL)的比较。采用气相色谱/质谱法测定SP培养脂质提取物的脂肪酸谱。结果:在所有供试培养基中,SP均生长成功,且生长成功程度不同。在富氮培养基中,与其他培养基相比,细胞生长速度和生物量产量最高。在限氮条件下,SP的总类胡萝卜素(TCAR, 45.54 mg/g dw)和总脂质含量(TL, 29.51%±1.92 g/100g dw)高于富氮(11.2 mg/g dw)和适氮(6.23 mg/g dw)培养。因此,SP通过改变代谢途径诱导脂质生物合成来应对氮胁迫。为了最大限度地提高TL和TCAR的提取率,我们采用了一套操作流程,包括超声(SON)和微波(MIC),与冷条件(COL)技术相比,这两种操作流程被用作辅助脂质提取技术。结果表明,白刺TL的提取效率依次为MIC(29.51%±1.92)> SON(25.46%±1.65)> COL(20.43%±1.43)。为了比较不同培养物的脂肪酸谱(FAPs),采用GC/MS分析脂质。主要脂肪酸(>10%)为肉豆蔻酸(C14:0, MA)、棕榈酸(C16:0, PA)和油酸(C18:1)。结论:与富氮和优氮条件相比,限氮条件对SP细胞生物量干重、脂质含量和总类胡萝卜素的影响较大。超声波和微波技术的使用大大增加了脂肪含量的提取,并在n限制培养中获得了大量的多不饱和脂肪酸(PUFAs),特别是必需的C18脂肪酸的omega-6 (ω 6)和omega-3 (ω 3)。由此可见,在PBR条件下限氮条件下产生的富含脂质的高GLC的SP可作为食品添加剂或营养补充剂使用。
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Optimization Growth of Spirulina (Arthrospira) Platensis in Photobioreactor Under Varied Nitrogen Concentration for Maximized Biomass, Carotenoids and Lipid Contents.

Aims and background: Spirulina (Arthrospira) platensis (SP) microalgae were cultured in Zarrouk Medium (ZM), containing three nitrogen concentrations (N-limited, N-optimal and Nrich medium) in ten liter-photo-bioreactor (10 L PBR) for 15-days, in order to study changes in lipid compounds (total carotenoids and total lipids and their effect on fatty acid profile). Based on US patent, the yield of bioactive compounds (such as gamma-linolenic acid GLA, C18:3) extracted from microalgae biomass, mainly depends on the extraction processes (1). GLA has much attention with respect to its therapeutic properties such as its ability to decrease blood cholesterol levels.

Methods: The impact of the addition of N in cultures of S. platensis in terms of growth, biomasses and induced lipid compounds (total carotenoids and total lipid contents and its fatty acid profile), as well as the Sonication (SON) and Microwave (MIC) process as aiding techniques for lipid extraction compared with a Cold Condition (COL), was examined. GC/MS method was used to determine the fatty acid profile of lipid extract of SP cultures.

Results: In all S. platensis tested culture, the SP was growing successfully, with varying degrees. In N-rich media, the highest cell growth rate and biomass yield were obtained compared with that recorded in other cultures. Under an N-limited condition, SP had higher Total Carotenoids (TCAR, 45.54 mg/g dw) and total lipid contents (TL, 29.51%± 1.92 g/100g dw) compared with that recorded either in N-rich (11.2 mg/g dw) or in N-optimal (6.23 mg/g dw) cultures. Thus, SP copes with the N -stress by altering the metabolic pathways towards inducing lipid biosynthesis. To maximize the TL and TCAR extraction yields, from N-limited cultures, a set of operating process was applied including the Sonication (SON) and Microwave (MIC), which were used as aiding techniques for lipid extraction compared with the Cold Condition (COL) techniques. The results showed that the extraction efficiency of the S. platensis TL increased in the following order: MIC (29.51%± 1.92) > SON (25.46% ± 1.65> COL (20.43% ±1.43). In a comparative study for its fatty acid profiles (FAPs) among all SP cultures, lipids were analyzed by GC/MS. The predominant fatty acids (>10%, of total FA) were found to be myristic acid (C14:0, MA), palmitic acid (C16:0, PA) and oleic acid (C18:1).

Conclusion: The study concluded that the N-limited condition was found to have a strong influence on biomass dry weight and lipid contents and total carotenoids in SP cells compared to either Nrich or N-optimal conditions. The use of sonication and the microwave techniques lead to a great increase in the extraction of lipid contents and in high amount Polyunsaturated Fatty Acids (PUFAs) in N-limited cultures, in particular, the omega-6 (ω 6) and omega-3 (ω 3) of the essential C18 fatty acids. It seems that the SP rich in lipid content with a high amount of GLC produced under nitrogen limitation in PBR conditions can be used as a food additive or as a nutritional supplement.

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Recent patents on food, nutrition & agriculture
Recent patents on food, nutrition & agriculture Agricultural and Biological Sciences-Agronomy and Crop Science
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