Laboratoire de Génie Chimique Biologique, Université Blaise Pascal, Aubieère Cedex, France.
Biotechnol Bioeng. 1991 Jun 5;38(1):65-74. doi: 10.1002/bit.260380109.
Wild-type Agrobacterium radiobacter NCIB 9042 has been cultivated in batch cultures on a synthetic medium which was adapted for growth and succinoglucan production. Experiments were carried out in a 4-L stirred-tank aerated reactor. Glucose, biomass, polysaccharide, protein, and inorganic- and organic-nitrogen concentrations were measured, and oxygen consumption and CO(2) production rates were obtained by a gas-balance technique. Nitrogen balance shows that inorganic nitrogen is entirely recovered into proteins. The carbon balance is satisfied with in +/-5%. Stoichiometric equations for biomass growth and succinoglucan synthesis were established. The biosyntheticpolymer pathways including ATP and cofactor consumption were investigated. From previous studies, a (P/O) value of 1.66 is selected for oxygen sufficient cultures. The actual ATP requirements of 25.4 mmol ATP/g succinoglucan (38.5 mol ATP/mol succinoglucan), determined by a metabolic analysis, is 2.39 times the stoichiometric value. Experimental results were modeled by a system of differential equations. The exponential growth phase was described by a nitrogen-limited Monod equation. Subsequent succinoglucan synthesis followed a slightly modified Luedeking-Piret relation partitioning internal and external polysaccharide. Experimentally determined coefficients are compared with published results for continuous culture of A. radiobacter NCIB 11883.
野生型根瘤农杆菌 NCIB 9042 在一种适应生长和甘露聚糖生产的合成培养基中进行批量培养。实验在 4-L 搅拌式充气反应器中进行。测量葡萄糖、生物质、多糖、蛋白质、无机氮和有机氮浓度,并通过气体平衡技术获得耗氧量和 CO(2)生成速率。氮平衡表明无机氮完全回收成蛋白质。碳平衡满足在 +/-5%以内。建立了生物量生长和甘露聚糖合成的计量方程。研究了包括 ATP 和辅因子消耗在内的生物合成聚合物途径。根据先前的研究,为氧气充足的培养选择了 1.66 的 (P/O) 值。通过代谢分析确定的实际 ATP 需求为 25.4 mmol ATP/g 甘露聚糖(38.5 mol ATP/mol 甘露聚糖),是计量值的 2.39 倍。实验结果通过微分方程系统进行建模。指数增长阶段由氮限制的 Monod 方程描述。随后的甘露聚糖合成遵循略微修改的 Luedeking-Piret 关系,将内部和外部多糖进行分区。实验确定的系数与根瘤农杆菌 NCIB 11883 的连续培养的已发表结果进行了比较。
