Algal Processing Group, Department of Chemical Engineering, The University of Melbourne, Victoria 3010, Australia.
Algal Processing Group, Department of Chemical Engineering, The University of Melbourne, Victoria 3010, Australia.
Bioresour Technol. 2019 Oct;290:121769. doi: 10.1016/j.biortech.2019.121769. Epub 2019 Jul 9.
Nitrogen-deprived Nannochloropsis cells invested their fixed carbon into the accumulation of triacylglycerol and cell wall cellulose (thickness of N-replete cell walls = 27.8 ± 5.8, N-deplete cell walls = 51.0 ± 10.2 nm). In this study, the effect of nitrogen depletion on the ability of the cells to weaken their own cell walls via autolysis was investigated. Autolytic cell wall thinning was achieved in both N-replete and N-deplete biomass by incubating highly concentrated slurries in darkness at 38 °C. The incubation forced cells to anaerobically ferment their intracellular cellulose and resulted in 30-40% reduction in cell wall thickness for both biomass types. This wall depletion weakened the cells and increased the extent of cell rupture by mechanical force (from 42 to 78% for N-replete biomass, from 36 to 62% for N-deplete biomass). Importantly, autolysis did not adversely impact the amino acid content of protein-rich N-replete biomass or the fatty acid content of lipid-rich N-deplete biomass.
缺氮的拟球藻细胞将固定碳投入到三酰基甘油和细胞壁纤维素的积累中(氮充足细胞壁的厚度为 27.8 ± 5.8nm,氮缺乏细胞壁的厚度为 51.0 ± 10.2nm)。在这项研究中,研究了氮饥饿对细胞通过自溶削弱自身细胞壁能力的影响。通过在黑暗中于 38°C 孵育高浓度的悬浮液,可使氮充足和氮缺乏的生物质都实现自溶性细胞壁变薄。孵育迫使细胞对细胞内纤维素进行无氧发酵,导致两种生物质类型的细胞壁厚度减少 30-40%。这种细胞壁的损耗削弱了细胞,并通过机械力增加了细胞破裂的程度(氮充足生物质从 42%增加到 78%,氮缺乏生物质从 36%增加到 62%)。重要的是,自溶不会对富含氨基酸的氮充足生物质的蛋白质含量或富含脂肪的氮缺乏生物质的脂肪酸含量产生不利影响。
