食品工业废渣以发酵技术生产菌体蛋白饲料的研究。
Single cell protein feedstuff production from food industry wastes with fermentation technology.
本研究建立了一套膜生物反应器系统,并首次用于噬菌体抗体的生产。
Here a membrane bioreactor system was set up, and was used to produce phage antibody for the first time.
以味精生产中的废弃物——谷氨酸菌体蛋白为原料,经过稀酸预处理后,用蛋白酶水解获得复合氨基酸水解液。
Glu thalli in the production of MSG, having been treated with thin acid, was hydrolyzed by protease to obtain amino acid hydrolysate.
对含糖废水生产菌体饲料的资源化进行了探索性试验。
Utilization of sacchariferous organic wastewater for producing protein of thalis explored.
研究了菌体生长和生产阶段的代谢流分布,结果说明该菌葡萄糖的代谢以糖酵解途径为主,在产酸阶段丙酮酸羧化反应的代谢流量较大。
It showed that glucose was mainly metabolized through the EMP pathway. In the production phase, the metabolic flux of the pyruvate carboxylation was large.
噬菌体表面展示技术广泛应用于疾病诊断、特异性抗体及蛋白药物生产等。
The phage surface display technology is widely used in disease diagnosis, specific antibody, and protein medicine production.
原位分离发酵技术是近年来兴起的一种新型发酵技术,可使菌体密度较分批培养有显著的提高,最终提高特定产物的生产率。
Application of in situ product removal techniques in ethanol fermentation is a new techniques, which enhance the density of yeast, finally enhance the yield of the specific product-ethanol.
为开发生物法生产6-羟基烟酸,利用快速筛选方法从多个地区的土壤中筛到了一株能高效羟化烟酸为6-羟基烟酸的菌株BK-1,可以用菌体催化得到高纯度的6-羟基烟酸。
In order to explore a biological process to produce 6-hydroxynicotinic acid, a strain, named BK-1, was rapidly isolated by a novel screening protocol from soil samples in various districts.
本试验综合采用超滤法、缓冲盐法、流加碱中和法、离心法浓缩菌体,优选工艺路线,为规模化生产奠定基础。
This thesis use the methods of ultra-filtration, phosphate buffer, flowing-alkaline, centrifugal to concentrate the Yoghurt starter, and optimize the processing techniques of it.
生产分枝杆菌和噬菌体。
目前,用微生物菌体转化生产d -型氨基酸的工艺路线已经产业化,但天然菌体转化工艺存在一些限制因素,阻碍了D -型氨基酸的扩大生产,导致产品短缺。
However, the yield of D-amino acids has been tempered by some limited factors from strain per se resulting in the shortages of that goods in the markets.
建立了褐黄孢链霉菌分批发酵生产纳他霉素过程基于非结构模型的菌体生长、基质消耗和产物形成的动力学方程。
Mathematical kinetic model describing the time-course of biomass, products and substrates were obtained based on the unstructured model of biochemical process.
本发明提供了一种废菌体制作的纳米生物颗粒及其生产方法和应用,以及所用的纳米级菌体破碎机。
The invention provides a nano bio-particle made of waste thallus as well as its producing method and application together with the nano-level thallus crusher.
结果表明,用镜检直接观察菌体形态,就能及时判断发酵是否正常,以便及时采取挽救措施,减少生产的损失。
The results showed that it can be judged rapidly whether the fermentation is normal by direct observation with microscope, and save measure can be adopted in time to avoid suffe…
结果表明,用镜检直接观察菌体形态,就能及时判断发酵是否正常,以便及时采取挽救措施,减少生产的损失。
The results showed that it can be judged rapidly whether the fermentation is normal by direct observation with microscope, and save measure can be adopted in time to avoid suffe…
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