Loira Nicolás, Mendoza Sebastian, Paz Cortés María, Rojas Natalia, Travisany Dante, Genova Alex Di, Gajardo Natalia, Ehrenfeld Nicole, Maass Alejandro
Mathomics, Center for Mathematical Modeling, Universidad de Chile, Beauchef 851, 7th Floor, Santiago, Chile.
Center for Genome Regulation (Fondap 15090007), Universidad de Chile, Blanco Encalada 2085, Santiago, Chile.
BMC Syst Biol. 2017 Jul 4;11(1):66. doi: 10.1186/s12918-017-0441-1.
Nannochloropsis salina (= Eustigmatophyceae) is a marine microalga which has become a biotechnological target because of its high capacity to produce polyunsaturated fatty acids and triacylglycerols. It has been used as a source of biofuel, pigments and food supplements, like Omega 3. Only some Nannochloropsis species have been sequenced, but none of them benefit from a genome-scale metabolic model (GSMM), able to predict its metabolic capabilities.
We present iNS934, the first GSMM for N. salina, including 2345 reactions, 934 genes and an exhaustive description of lipid and nitrogen metabolism. iNS934 has a 90% of accuracy when making simple growth/no-growth predictions and has a 15% error rate in predicting growth rates in different experimental conditions. Moreover, iNS934 allowed us to propose 82 different knockout strategies for strain optimization of triacylglycerols.
iNS934 provides a powerful tool for metabolic improvement, allowing predictions and simulations of N. salina metabolism under different media and genetic conditions. It also provides a systemic view of N. salina metabolism, potentially guiding research and providing context to -omics data.
盐生微拟球藻(= 真眼点藻纲)是一种海洋微藻,因其具有高产多不饱和脂肪酸和三酰甘油的能力而成为生物技术研究的目标。它已被用作生物燃料、色素和食品补充剂(如欧米伽3)的来源。仅对部分微拟球藻物种进行了测序,但它们均未受益于能够预测其代谢能力的基因组规模代谢模型(GSMM)。
我们展示了iNS934,这是首个针对盐生微拟球藻的GSMM,包括2345个反应、934个基因以及对脂质和氮代谢的详尽描述。在进行简单的生长/不生长预测时,iNS934的准确率为90%,在预测不同实验条件下的生长速率时,错误率为15%。此外,iNS934使我们能够提出82种不同的基因敲除策略,用于三酰甘油菌株的优化。
iNS934为代谢改进提供了一个强大的工具,能够在不同培养基和遗传条件下对盐生微拟球藻的代谢进行预测和模拟。它还提供了盐生微拟球藻代谢的系统视图,有可能指导研究并为组学数据提供背景信息。
