Eon-Duval Alex, MacDuff Robert H, Fisher Carol A, Harris Mark J, Brook Chris
BioPharmaceutical Development, GlaxoSmithKline Research and Development Ltd, South Eden Park Road, Kent BR3 3BS, Beckenham, UK.
Anal Biochem. 2003 May 1;316(1):66-73. doi: 10.1016/s0003-2697(03)00050-2.
Addition of animal-derived ribonuclease A to degrade RNA impurities is not recommended in the manufacture of pharmaceutical-grade plasmid DNA. Tangential flow filtration (TFF) takes advantage of the significant size difference between RNA and plasmid DNA to remove RNA in the permeate while plasmid remains in the retentate, in an RNase-free plasmid purification process. Operating conditions including transmembrane pressure, membrane pore size, conductivity of the diafiltration buffer, and plasmid load on the membrane were investigated to maximize RNA clearance. Although direct TFF of clarified lysate removed substantial amounts of RNA, the RNA levels left in the retentate were still significant. Calcium chloride is a potent precipitant of high-molecular-weight RNA. The addition of calcium chloride to the clarified lysate combined with the clearance of low-molecular-weight RNA by TFF resulted in complete RNA removal and high plasmid recovery.
在药用级质粒DNA的生产过程中,不建议添加动物源核糖核酸酶A来降解RNA杂质。在无核糖核酸酶的质粒纯化过程中,切向流过滤(TFF)利用RNA与质粒DNA之间显著的大小差异,使RNA透过而质粒保留在截留物中,从而去除RNA。研究了包括跨膜压力、膜孔径、透析缓冲液的电导率以及膜上的质粒负载量等操作条件,以实现RNA清除率的最大化。尽管对澄清裂解物进行直接切向流过滤可去除大量RNA,但截留物中残留的RNA水平仍然很高。氯化钙是高分子量RNA的有效沉淀剂。向澄清裂解物中添加氯化钙,并结合切向流过滤去除低分子量RNA,可实现RNA的完全去除和高质粒回收率。
